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c4-en.tfrecord-00067-of-11264.json
257,778
格納部175は、制御部110の制御下に、移動通信モジュール120、サブ通信モジュール130、マルチメディアモジュール140、カメラモジュール150、GPSモジュール155、入出力モジュール160、センサーモジュール170、第1のタッチスクリーン190a又は第2のタッチスクリーン190bの動作により入出力される信号又はデータを格納する。 Storage unit 175, under control of the control unit 110, the mobile communication module 120, the sub communication module 130, the multimedia module 140, the camera module 0.99, GPS module 155, output module 160, the sensor module 170, the first touch-screen storing signals or data input by the operation of 190a or the second touch screen 190b. 格納部175は、装置100又は制御部110の制御動作のための制御プログラムを格納することができる。 Storage unit 175 may store a control program for controlling operation of the apparatus 100 or the controller 110. 用語「格納部」は、格納部175、制御部110に含まれるROM112又はRAM113、又はSD(Secure Digital)カード又はメモリスティックのように装置100に装着されるメモリカードを含む。 The term "storage portion", storage unit 175 includes a memory card attached to apparatus 100 as ROM112 or RAM 113, or as an SD (Secure Digital) card or a memory stick included in the control unit 110. 格納部は、非揮発性メモリ、揮発性メモリ、ハードディスクドライブ(HDD)、又はソリッドステートドライブ(SSD)を含むことができる。 Storage unit, a non-volatile memory, volatile memory, a hard disk drive (HDD), or may include a solid state drive (SSD). 電源供給部180は、制御部110の制御下に、第1のハウジング100a及び/又は第2のハウジング100bに位置する一つ又は複数のバッテリーに電源を供給できる。 Power supply unit 180, under control of the control unit 110 may supply power to one or more batteries located in the first housing 100a and / or the second housing 100b. 一つ又は複数のバッテリーは、装置100に電源を供給する。 One or more batteries, for supplying power to the device 100. また、電源供給部180は、コネクタ165に接続される有線ケーブルを介して外部の電源ソースから入力される電源を装置100に供給できる。 The power supply unit 180 may supply power supplied from an external power supply source to the device 100 via a wired cable connected to the connector 165.
c4-en.tfrecord-00067-of-11264.json
257,778
第1及び第2のタッチスクリーン190a,190bは、例えば抵抗(resistive)方式、静電容量(capacitive)方式、赤外線(infrared)方式、又は超音波(acousticwave)方式で実現可能である。 The first and second touch screens 190a, 190b, for example resistance (Resistive) type, a capacitive (-capacitive) method, infrared (infrared) method, or can be implemented in ultrasound (acousticwave) scheme. タッチスクリーン制御部195は、第1及び第2のタッチスクリーン190a,190bから受信されたアナログ信号をデジタル信号(例えば、X,Y座標)に変換して制御部110に伝送する。 Touch screen controller 195, first and second touch screens 190a, a digital signal an analog signal received from 190b (e.g., X, Y coordinates) and transmits converted to the control unit 110 to. 制御部110は、タッチスクリーン制御部195から受信されたデジタル信号を用いて第1及び第2のタッチスクリーン190a,190bを制御する。 Control unit 110, first and second touch screens 190a using the digital signal received from the touch screen controller 195, controls the 190b. 例えば、制御部110は、タッチに応答して第1及び第2のタッチスクリーン190a,190bに表示されたショートカットアイコンを選択又は実行可能にする。 For example, the control unit 110, first and second touch screens 190a in response to the touch, to allow selection or execute the shortcut icon displayed on 190b. また、タッチスクリーン制御部195は、制御部110に含まれ得る。 The touch screen controller 195 may be included in the control unit 110. 図4は、本発明の別の実施形態による装置100を示す概略的ブロック構成図である。 Figure 4 is a schematic block diagram showing an apparatus 100 according to another embodiment of the present invention.
c4-en.tfrecord-00067-of-11264.json
257,778
図6Bを参照すると、タッチは、第1のタッチスクリーン190aから始まり、第1のタッチスクリーン190aと第2のタッチスクリーン190bとの間の間隔100dを通過して第2のタッチスクリーン190bに到達する。 Referring to Figure 6B, the touch starts from the first touch screen 190a, and reaches the through the gap 100d between the first touch screen 190a and the second touch screen 190b second touch screen 190b . 制御部110,110a,110bは、タッチスクリーン190a,190bとタッチスクリーン制御部195,195a,195bを用いて第1のタッチスクリーン190aでのタッチの最後位置640bと第2のタッチスクリーン190bに到達したタッチの最初位置640cを認識できる。 Controller 110 and 110a, 110b has reached the touch screen 190a, 190b and the touch screen controller 195,195A, last location of the touch on the first touch screen 190a with 195b 640b and a second touch screen 190b It can recognize the first position 640c of the touch. 制御部110,110a,110bは、第2のタッチスクリーン190bでのタッチの到達を、間隔100dを通過する時間(例えば、第1の時間間隔)、第2のタッチスクリーン190bの所定の領域、又は第2のタッチスクリーン190bの所定の方向(例えば、許容傾き範囲)を用いて検出できる。 Controller 110 and 110a, 110b is, the arrival of the touch on the second touch screen 190b, the time to pass through the interval 100d (e.g., the first time interval), a predetermined region of the second touch screen 190b, or predetermined direction of the second touch screen 190b (e.g., the allowable slope range) can be detected using. 図7A〜図7Cは、本発明の実施形態による、一方のタッチスクリーンから他方のタッチスクリーンへの連続的なタッチの到達を示す。 Figure 7A~-7C, according to an embodiment of the present invention, showing a continuous touch reaching from one of the touch screen to the other touch screen.
c4-en.tfrecord-00067-of-11264.json
257,778
図11A及び図11Bを参照すると、所定の領域A1は、タッチ設定アイテム1106の所定の領域の半径1106bを用いて変更(例えば、半径が2cmに変更)可能である。 Referring to FIGS. 11A and 11B, a predetermined area A1 is changed by using the radius 1106b of a predetermined area of ​​the touch setting item 1106 (e.g., the radius changes to 2 cm) is possible. 図7Cを参照すると、制御部110,110a,110bは、許容傾き範囲R1(例えば、第2の傾きθ2,θ3)を用いて第2のタッチスクリーン190bでのタッチの到達を検出できる。 Referring to FIG. 7C, the control unit 110 and 110a, 110b are permissible inclination range R1 (e.g., a second inclination .theta.2, .theta.3) capable of detecting a touched arrival of the second touch screen 190b using. タッチの第1の傾きθ1は、第1のタッチスクリーン190aの最初位置720aから最後位置720bまで接続する直線の傾きである。 First gradient touch θ1 is the slope of the straight line connecting from the first position 720a of the first touch screen 190a to the end position 720b. このとき、位置720a、720bは、格納部に格納されている。 At this time, the position 720a, 720b is stored in the storage unit. 第1の傾きθ1が15゜である場合、第2のタッチスクリーン190bでタッチの最初位置720cは、第2の傾きθ2,θ3(例えば、±45゜)間の領域に位置する。 If the first inclination θ1 is 15 °, touch the first position 720c in the second touch screen 190b, a second inclination .theta.2, .theta.3 (e.g., ± 45 °) located in the region between. 許容傾き範囲R1は、第2の傾きθ2,θ3が±45゜である場合、第1のタッチスクリーン190aの最後位置720bに対して±45゜の傾きθ2に対応する第2のタッチスクリーン190b上の位置を含む延長線と、第1のタッチスクリーン190aの最後位置720bに対して−45゜の傾きθ3に対応する第2のタッチスクリーン190b上の位置を含む延長線との間の領域を意味する。 Permissible inclination range R1, the second inclination .theta.2, if θ3 is ° 45 ±, on the second touch screen 190b corresponding to the first touchscreen last position 45 ° inclination .theta.2 ± respect 720b of 190a and an extension comprising a position, means an area between an extension including a position on the second touch screen 190b corresponding to -45 ° inclination θ3 for the last position 720b of the first touchscreen 190a to. 本発明の実施形態により、タッチは、第2のタッチスクリーン190bの許容傾き範囲R1内の領域に到達すべきである。 Embodiments of the present invention, the touch should reach the region in the allowable slope range R1 of the second touch screen 190b. 図11A及び図11Bを参照すると、許容傾き範囲R1は、タッチ設定1106の許容傾き範囲1106cを用いて変更(例えば、第2の傾きθ2,θ3に対して±30゜)できる。 Referring to FIGS. 11A and 11B, the allowable slope range R1 can be changed by using the allowable slope range 1106c of the touch set 1106 (e.g., a second inclination .theta.2, ± respect .theta.3 30 °). 制御部110,110a,110bは、第2のタッチスクリーン190bでのタッチの到達640cに応答するフィードバックをユーザーに提供できる。 Controller 110 and 110a, 110b can provide feedback responsive to touch the arrival 640c in the second touch screen 190b to the user. 提供されたフィードバックは、視覚的フィードバック、聴覚的フィードバック、又は触覚的フィードバックのうち少なくとも一つであり得る。 The provided feedback, visual feedback may be at least one of auditory feedback, or tactile feedback. 例えば、制御部110,110a,110bは、視覚的フィードバック、聴覚的フィードバック、及び触覚的フィードバックの組み合わせをユーザーに提供できる。 For example, the control unit 110 and 110a, 110b can provide visual feedback, auditory feedback, and a combination of tactile feedback to the user. 視覚的フィードバックは、第2のタッチスクリーン190bでタッチの到達640cに応答する視覚的効果(例えば、別途のイメージ又は別途のイメージに適用されるフェード(fade)のようなアニメーション効果)として、第1のタッチスクリーン190aと第2のタッチスクリーン190aのうちいずれか一つだけ、又は第1のタッチスクリーン190aまたは第2のタッチスクリーン190b両方ともに表示することができる。 Visual feedback, as a visual effect in response to the second touch screen 190b with the touch of arrival 640c (e.g., animation effects such as fading (fade) to be applied to a separate image or separate images), first Touchscreen 190a and only one of the second touch screen 190a, or the first may be a touch screen 190a or displayed on the second both touch screen 190b of. 聴覚的フィードバックは、第2のタッチスクリーン190bでタッチの到達640cに応答するサウンドとして、第1のスピーカ163a又は第2のスピーカ163bのうちいずれか一つ、又はこれら両方ともから出力することができる。 Auditory feedback, as a sound responsive to the second touch screen 190b in touch reach 640c, can be output from any one, or both of these of the first speaker 163a or the second speaker 163b . 触覚的フィードバックは、第2のタッチスクリーン190bでタッチの到達640cに応答する振動として、振動モータ164から出力することができる。 Tactile feedback, as a vibration responsive to the second touch screen 190b in touch reach 640c, can be output from the vibration motor 164. 少なくとも一つのフィードバックは、第2のタッチスクリーン190bでタッチの最後位置640dにタッチが到達するまで維持することができる。 At least one feedback can be maintained until a touch has reached the end position 640d of the touch at the second touch screen 190b.
c4-en.tfrecord-00067-of-11264.json
257,778
図9Bを参照すると、第1のホーム画面800と状態バー801は、第1のタッチスクリーン190aに表示される。 Referring to FIG. 9B, the first home screen 800 and the status bar 801 is displayed on the first touch screen 190a. 状態バー801は、バッテリーの充電状態、携帯電話の受信信号の強さ、又はデュアルモードアイコンのような装置100の状態を示す。 State bar 801 indicates the state of charge of the battery, strength of the cellular phone received signal, or a state of the device 100, such as a dual-mode icon. デュアルモードアイコン801cは、装置100の複数のタッチスクリーン190a,190bが動作するか否かを表すテキストとアイコンのうちいずれか一つである。 Dual mode icon 801c has a plurality of touch screens 190a of the apparatus 100, which is one of text and icons indicating whether 190b operates. 第1のホーム画面800は、現在ホーム画面の位置を表すカウンタ803、ウィジェット804、又はショートカットアイコンが表示される第3のディスプレイ領域802を含む。 The first home screen 800 includes a third display region 802 where counter 803 indicating the current position of the home screen, the widget 804, or shortcut icon. ホーム画面は、ユーザーにより、図11Aに示す環境設定1100、又は装置100に設定された入力(例えば、ホーム画面の長いタッチ)を用いて所望するアイテム(例えば、ホーム画面の背景)が変更できる待機画面である。 Home screen, the user, configuration shown in FIG. 11A 1100, or set input to the device 100 (e.g., a long touch of the home screen) item desired by using (for example, the background of the home screen) can change waiting it is a screen. ホーム画面に表示されるウィジェット804又はショートカットアイコンを用いて多様な機能は、すぐに使用することができる。 Various functions using the widgets 804 or shortcut icon is displayed on the home screen can be used immediately. 第1のホーム画面800は、装置100により提供される複数のホーム画面のうちの一つである。 The first home screen 800 is one of a plurality of home screen provided by the device 100. 装置100のOS又はアプリケーションにより、状態バー801は、第1のタッチスクリーン190aに表示されれない。 The OS or application of the device 100, status bar 801 is not displayed on the first touch screen 190a. 状態バー801が表示されない場合、第1のタッチスクリーン190aには第1のホーム画面800のみが表示される。 If the state bar 801 is not displayed, the first touch screen 190a is displayed only the first home screen 800.
c4-en.tfrecord-00067-of-11264.json
257,778
図8Bを参照すると、タッチは、第1のタッチスクリーン190aから始まり、第1のタッチスクリーン190aと第2のタッチスクリーン190bとの間の間隔100dを通過して第2のタッチスクリーン190bに到達する。 8B, the touch starts from the first touch screen 190a, and reaches the through the gap 100d between the first touch screen 190a and the second touch screen 190b second touch screen 190b . 制御部110,110a,110bは、タッチスクリーン190a,190bとタッチスクリーン制御部195,195a,195bを用いて第1のタッチスクリーン190aでのタッチの最後位置840bと第2のタッチスクリーン190bに到達したタッチの最初位置840cを認識できる。 Controller 110 and 110a, 110b has reached the touch screen 190a, 190b and the touch screen controller 195,195A, last location of the touch on the first touch screen 190a with 195b 840b and a second touch screen 190b It can recognize the first position 840c of the touch. 制御部110,110a,110bは、第2のタッチスクリーン190bでのタッチの到達を、間隔100dを通過する時間(例えば、第2の時間間隔)、第2のタッチスクリーン190bの所定の領域、又は第2のタッチスクリーン190bの所定の方向(例えば、許容傾き範囲)を用いて検出できる。 Controller 110 and 110a, 110b is, the arrival of the touch on the second touch screen 190b, the time to pass through the interval 100d (e.g., the second time interval), a predetermined region of the second touch screen 190b, or predetermined direction of the second touch screen 190b (e.g., the allowable slope range) can be detected using. 図7A〜図7Cは、本発明の実施形態による一つのタッチスクリーンで生成された一つの連続的なタッチから他のタッチスクリーンまでの到達を示す。 Figure 7A~ Figure 7C shows the arrival of the continuous touch embodiments one generated by one of the touch screen according to the present invention to the other touch screen.
c4-en.tfrecord-00067-of-11264.json
246,235
特に制限されないが、上記半導体チップ06の主面には、上記2つのパッド04を接続するための最上位配線層07が形成される。 It is not particularly limited, on the main surface of the semiconductor chip 06, the uppermost wiring layer 07 for connecting the two pads 04 are formed. この最上位配線層07により、例えば半導体チップ06の主面側に形成された回路素子に電源電圧等の動作電圧が与えられる。 By this uppermost wiring layer 07, the operating voltage of the power supply voltage or the like is applied for example to a circuit element formed on the main surface of the semiconductor chip 06. 第2図には、この発明に係る半導体集積回路装置の一実施例の平面図が示されている。 The second figure, a plan view of one embodiment of a semiconductor integrated circuit device according to the present invention. この実施例の半導体集積回路装置は、特に制限されないが、ダイナミック型RAM(ランダム・アクセス・メモリ)に向けられており、再配線とそれに接続されるバンプ電極及びパッドのレイアウトが示されている。 The semiconductor integrated circuit device of this embodiment is not particularly limited, is directed to a dynamic RAM (Random Access Memory), the bump electrodes and the pad layout connected rewiring and it is shown. 同図において、バンプ電極は○で示されており、パッドは小さな□で示されている。 In the drawing, the bump electrodes are indicated by ○, pads are indicated by a small □. これらバンプ電極とパッドとが再配線により相互に接続される。 These bump electrodes and the pad are connected to each other by rewiring. 前記再配線05は、その機能に応じて直流電圧用と交流信号用との2種類に分けられる。 The rewiring 05 is divided into two types of AC signal and the DC voltage in accordance with its function. 例示的に示されている1つの配線層605は、従来のウエハ・レベルCSP(chip size package)での再配線と同じく、1つのバンプ電極と1つのパッドとを一対一に対応して接続するものであり、アドレス及び制御信号の入力や、データの入出力に用いられる。 Exemplary one wiring layer 605 shown, like the rewiring of the conventional wafer-level CSP (chip size package), and connect to corresponding one of the bump electrodes and one pad to one-to-one It is those, input or the address and control signals, used for input and output of data. これらの各信号線605は、それを通して伝えられるデジタル信号の高速伝達を行うようにするために、寄生容量を小さくすることと、高密度に設けられる複数のパッドに対応して比較的細く形成された配線幅の再配線層が用いられる。 Each of these signal lines 605, in order to perform high-speed transmission of digital signals to be transmitted therethrough, and reducing the parasitic capacitance, is relatively narrow formed corresponding to a plurality of pads provided in a high density redistribution layer of wiring width is used.
c4-en.tfrecord-00067-of-11264.json
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第5図には、この発明に係る半導体集積回路装置の一実施例の概略断面図が示されている。 The Figure 5 shows a schematic cross-sectional view of one embodiment of a semiconductor integrated circuit device according to the present invention. この実施例は、特に制限されないが、前記第3図又は第4図のクロック入力部に対応している。 This embodiment is not particularly limited, and corresponds to the clock input of the third diagram or Figure 4. この実施例の半導体集積回路装置は、後述する第20図〜第24図のようにウエハ・プロセスによりパッケージまで形成してしまうことから、上記再配線及びバンプ電極をWPP(ウエハ・プロセス・パッケージの略)配線(層)あるいはWPPバンプと呼ばれる場合がある。 The semiconductor integrated circuit device of this embodiment, since the thus formed until the package by a wafer process as shown in FIG. 20-FIG. 24 to be described later, the rewiring and bump electrodes WPP (wafer process package sometimes substantially) called wiring (layer) or WPP bumps. 以下、このWPP配線層、あるいはWPPバンプの用語を用いて説明する。 Hereinafter, the WPP wiring layer, or be described using the terms of the WPP bumps. WPPバンプは、WPP配線層の上に形成されて電気的接続が行われる。 WPP bumps, electrical connections are made is formed on the WPP wiring layer. このWPP配線層は、図示しない前記有機絶縁膜上に被着されおり、その開口部でチップのメタルPAD(パッド)と接続される。 This WPP wiring layers are being deposited on the organic insulating film (not shown), is connected to the chip of metal PAD (pads) at its opening. このメタルPADは、チップ上の最上層のメタル配線により回路1と接続される。 The metal PAD is connected to the circuit 1 by a metal wiring of the uppermost layer on the chip. 特に制限されないが、このメタルPADが前記クロック入力パッドCLKCに対応しており、回路1が前記クロック入力バッファ11に対応している。 Is not particularly limited, the metal PAD is corresponds to the clock input pad CLKC, circuit 1 corresponds to the clock input buffer 11. 上記WPP配線層は、上記回路1に対応したメタルPAD部から更に延長されて回路2に対応したメタルPADに開口部で接続される。 The WPP wiring layer is connected in the opening in the metal PAD which is further extended from the metal PAD portion corresponding to the circuit 1 corresponds to the circuit 2. このメタルPADと回路2は、前記同様にチップ上のメタル配線により接続される。 The metal PAD and circuit 2, the are similarly connected by metal wiring on the chip. この回路2は、前記読み出し制御信号READにより動作が制御されて、図示しないクロック入力パッドCLKU又はCLKDを通して入力されたクロック信号を受ける入力バッファ11を構成する。 The circuit 2 is operated by the read control signal READ is controlled, constituting the input buffer 11 for receiving a clock signal inputted via the clock input pad CLKU or CLKD not shown.
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SMD(シンクロナス・ミラー・ディレイ)回路は、PLL回路やDLL回路のようなフィードバックループを含まないクロック同期回路であり、同期に必要な時間(ロック時間)が2〜3サイクルと短い。 SMD (Synchronous Mirror Delay) circuit is a clock synchronization circuit that does not include a feedback loop, such as PLL circuits and DLL circuits, the time required for synchronization (lock time) 2-3 cycles and short. これは、入力クロックの周期を遅延回路の段数として測定することにより上記ロック時間を短くすることができる。 This can shorten the lock time by measuring the period of the input clock as the number of stages of delay circuits. この測定回路は、遅延回路の構成要素1段当たりの遅延時間を時間分解能として測定するものであり、一般的にはCMOSインバータ回路の2段分の遅延時間程度になる。 The measurement circuit is for measuring the delay time per component one stage of the delay circuit as the time resolution, typically on the order of the delay time of two stages of the CMOS inverter circuit. このようなSMDを用いたクロック同期回路の例として、特開平8−237091号公報がある。 Examples of a clock synchronizing circuit using such a SMD, there is JP-A 8-237091 JP. 上記クロック再生回路110で生成された内部クロックは、パッドCLK2までチップ上配線で導かれ、そこからは再配線12によって入出力制御回路114のクロック入力用パッドCLKU1〜4及びCLKD1〜4に分配される。 The clock internal clock generated by the reproducing circuit 110 is guided by the chip on the wiring to the pad CLK2, it is distributed to a clock input pad CLKU1~4 and CLKD1~4 the output control circuit 114 by rewiring 12 therefrom that. 入出力制御回路114は、例えばアドレス入力パッド113と、かかるパッド113から入力されたアドレス信号を受けるアドレス入力バッファ112と、アドレス信号を取り込むアドレス入力レジスタ111を含む。 Output control circuit 114 includes for example an address input pad 113, an address input buffer 112 for receiving an address signal input from such pads 113, an address input register 111 to capture the address signal. 上記内部クロックは、アドレス入力レジスタ111に供給される。 The internal clock is supplied to the address input register 111. この場合、外部クロックと上記アドレスレジスタに伝えられる内部クロックとを同期化させることにより、クロック入力経路での信号遅延を補償することができる。 In this case, by synchronizing the internal clocks delivered to the external clock and the address register, it is possible to compensate for signal delay in the clock input path. 第14図には、この発明に係る半導体集積回路装置の他の一実施例の平面図が示されている。 The FIG. 14, a plan view of another embodiment of a semiconductor integrated circuit device according to the present invention. この実施例の半導体集積回路装置は、特に制限されないが、スタティック型RAM(ランダム・アクセス・メモリ)に向けられており、再配線とそれに接続されるバンプ電極及びパッドのレイアウトが示されている。 The semiconductor integrated circuit device of this embodiment is not particularly limited, is directed to a static RAM (random access memory), the bump electrodes and the pad layout connected rewiring and it is shown. 同図においても前記同様に、バンプ電極20等は、○で示されており、パッド22等は、小さな□で示されている。 Even the same in the figure, such as a bump electrode 20 is shown by ○, pads 22, etc. are indicated by a small □. これらバンプ電極とパッドとが再配線21等により相互に接続される。 These bump electrodes and the pad are connected to each other by rewiring 21 and the like. この実施例でも、再配線は、その機能に応じて直流電圧用と交流信号用との2種類に分けられる。 In this embodiment, the redistribution can be divided into two types of AC signal and the DC voltage in accordance with its function. 例示的に示されている1つの再配線層25は、従来のウエハ・レベルCSPでの再配線と同じく、1つのバンプ電極と1つのパッドとを一対一に対応して接続するものであり、アドレス及び制御信号の入力や、データの入出力に用いられる。 Exemplarily shown one redistribution layer 25 is, like the rewiring of a conventional wafer level CSP, is intended to be connected to corresponding one of the bump electrodes and one pad to one-to-one, input and address and control signals, used for input and output of data. これらの各信号線25は、それを通して伝えられるデジタル信号の高速伝達を行うようにするために、寄生容量を小さくすることと、高密度に設けられる複数のパッドに対応して比較的細く形成された配線幅の再配線層が用いられる。 Each of these signal lines 25, in order to perform high-speed transmission of digital signals to be transmitted therethrough, and reducing the parasitic capacitance, is relatively narrow formed corresponding to a plurality of pads provided in a high density redistribution layer of wiring width is used.
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第15図には、上記再配線の製造方法を説明するための概略断面図が示されている。 The Figure 15, a schematic cross-sectional view for explaining the method of producing the redistribution is shown. (a)では、半導体基板(ウエハ)上に回路が完成された後に、有機絶縁膜であるポリイミドを塗布し、写真技術(ホト、現像)によりアルミニュウム(Al)パッド上に開口を有する有機絶縁膜を形成して硬化ベークする。 (A), the following has been completed circuit on a semiconductor substrate (wafer), a polyimide which is an organic insulating film is applied, photographic technology (photo developing) an organic insulating film having an opening in the aluminum (Al) on the pad the formed and cured baked. (b)では、レジスト膜を形成し、それを写真技術(ホト、現像)により再配線の配線パターンを形成する。 (B), the resist film is formed, it photographic technique (photo and development) to form a wiring pattern of redistribution by. (c)では、洗浄した後にCu(銅)を電気めっきする。 (C), the electroplating a Cu (copper) after washing. (d)ではレジスト膜除去液浸漬させる。 (D) the thereby resist film removing solution immersion. (e)では、上層の有機絶縁膜を形成する。 In (e), a layer of organic insulating film. つまり、前記同様にポリイミド塗布し、写真技術(ホト、現像)によりパンプ電極に開口を持つ上側の有機絶縁膜が形成され、硬化ベークが行われる。 In other words, the similarly polyimide coating, photographic technology (photo developing) the upper organic insulating film having an opening in bump electrode is formed by curing baking is performed. 第16図には、この発明に係る半導体集積回路装置に設けられる再配線の他の一実施例の断面図が示されている。 The FIG. 16, a cross-sectional view of another embodiment of the redistribution provided in the semiconductor integrated circuit device according to the present invention. 半導体チップの一主面側に、図示しな回路素子及び配線が形成される。 On one main surface side of the semiconductor chip, shown Shinano circuit elements and wiring are formed. この配線のうち、最上層の配線によりパッド04が形成される。 Of the wiring pads 04 are formed by the uppermost wiring. このパッド40の開口部を除いて第1層目の有機絶縁膜02が形成される。 The first layer of the organic insulating film 02 except for the opening of the pad 40 is formed. 特に制限されないが、この有機絶縁膜02は、ポリイミドにより構成される。 Is not particularly limited, the organic insulating film 02 is composed of polyimide. このポリイミドからなる第1層目の有機絶縁膜上には、上記半導体チップ06の主面側に形成された少なくとも2つのパッド04間を電気的に接続する導電層としての再配線層05が形成される。 The first layer of the organic insulating film made of polyimide, rewiring layer 05 as a conductive layer for electrically connecting the 04 least two pads formed on a main surface of the semiconductor chip 06 is formed It is. そして、かかる再配線層05の表面のうち、バンプ電極03が形成される部分には、Cu(銅)ポストが設けられ、それ以外の部分には封止樹脂101が形成される。 Then, according of the surface of the redistribution layer 05, portions bump electrode 03 is formed, Cu (copper) posts provided, the sealing resin 101 is formed on the other portions. そして、上記Cuポストの表面には上記バンプ電極03が設けられる。 Then, the bump electrode 03 is provided on the surface of the Cu post. このバンプ電極03は、1つの再配線05に対して少なくとも2個が設けられる。 The bump electrode 03, at least two are provided for one redistribution 05. 第17図には、この発明に係る半導体集積回路装置を構成する半導体チップに形成されるロジック回路及び外部入出力回路の一実施例のデバイス構造の縦断面が例示されている。 The FIG. 17, longitudinal section of the device structure of one embodiment of the logic circuit and the external output circuit formed on a semiconductor chip constituting a semiconductor integrated circuit device according to the invention is illustrated. 抵抗率10Ωcmのp型シリコン基板120上に、深さ0.8μmのp型ウエル領域122が形成されている。 On the p-type silicon substrate 120 of resistivity 10 .OMEGA.cm, p-type well region 122 in the depth 0.8μm is formed. 前記p型ウエル領域122内には、素子分離領域125で分離され、n型ドレイン領域137、n型ソース領域136、膜厚4nmの薄いゲート酸化膜127、及び膜厚0.2μmのn型ポリシリコン膜からなるゲート長0.2μmのゲート電極130によって、電源電圧1.8V動作のnチヤネル型トランジスタ(MOSFET又はMISFETともいう)4が形成されている。 Wherein the p-type well region 122 are isolated by an element isolation region 125, n-type drain region 137, n-type source region 136, a thin gate oxide film 127 and the thickness of 0.2 [mu] m, the film thickness 4 nm n-type poly by the gate electrode 130 of the gate length 0.2μm made of a silicon film (also referred to as a MOSFET or MISFET) supply voltage 1.8V n-channel transistor of the operation 4 is formed. 前記p型ウエル領域122内には、素子分離領域125で分離され、n型ドレイン領域139、n型ソース領域138、膜厚8nmの厚いゲート酸化膜126、及び膜厚0.2μmのn型ポリシリコン膜からなるゲート長0.4μmのゲート電極131によって、電源電圧3.3V動作のnチヤネル型トランジスタ5が形成されている。 The said p-type well region 122 are isolated by an element isolation region 125, n-type drain region 139, n-type source region 138, the thickness 8nm thick gate oxide film 126, and a thickness of 0.2 [mu] m n-type poly by the gate electrode 131 of the gate length 0.4μm made of a silicon film, n-channel-type transistor 5 of the power supply voltage 3.3V operation is formed. 上記nチヤネル型トランジスタと組み合わされてCMOS回路を構成するpチヤネル型トランジスタは、図示しないが、上記p型シリコン基板120上に、n型ウエル領域が形成され、そこにp型ソース領域及びドレイン領域が形成されて構成される。 p-channel transistor included in the CMOS circuit in combination with the n channel-type transistor, not shown, on the p-type silicon substrate 120, n-type well region is formed, p-type source and drain regions therein There composed is formed. 前記トランジスタ4,5の上部に自己整合コンタクト形成のため、CVD法により堆積した膜厚100nmのシリコン窒化膜140を配置し、CMP法により平坦化された膜厚1μmのコンタクト層間膜141の所望の位置に設けられたコンタクトプラグ142と、膜厚0.5μmのアルミニウム膜からなる第1金属配線143と、CMP法により平坦化された膜厚1μmの第1層間膜144の所望の位置に設けられた第1層間プラグ145と、膜厚0.5μmのアルミニウム膜からなる第2層金属配線146と、CMP法により平坦化された膜厚1μmの第2層間膜147の所望の位置に設けられた第2層間プラグ148と、膜厚0.5μmのアルミニウム膜からなる第3層金属配線149と、膜厚0.8μmの第3層間膜150の所望の位置� For self-aligned contact formed on top of the transistors 4 and 5, a thickness of 100nm was deposited by CVD, a silicon nitride film 140 is disposed, a desired contact interlayer film 141 having a thickness of 1μm which is planarized by CMP a contact plug 142 provided at a position, a first metal interconnection 143 made of an aluminum film having a thickness of 0.5 [mu] m, are provided at desired positions of the first interlayer film 144 having a thickness of 1μm which is planarized by CMP a first interlayer plug 145, a second layer metallic interconnect 146 made of an aluminum film having a thickness of 0.5 [mu] m, are provided at desired positions of the second interlayer film 147 having a thickness of 1μm which is planarized by CMP a second interlayer plug 148, a third metal wiring layer 149 made of an aluminum film having a thickness of 0.5 [mu] m, the desired position of the third interlayer film 150 having a thickness of 0.8μm �設けられた第3層間プラグ151と膜厚1μmのアルミニウム膜からなる第4層金属配線152とが設けられる。 A fourth metal wiring layer 152 made of an aluminum film of the third interlayer plug 151 and the film thickness 1μm provided is provided. この上記第4金属配線152は、最上層の金属配線の他にボンディングパッド等の電極としても用いられる。 The said fourth metal wiring 152 is used as an electrode in addition to such a bonding pad of the uppermost metal interconnection. CPU(中央処理装置)を中心にし、その周辺回路を構成するメモリ回路、外部入出力装置等の複数の回路ブロックが1つの半導体基板上に形成される1チップのマイクロコンピュータ等を構成するシステムLSIでは、MIS(MOS)トランジスタのゲート酸化膜厚は2種類に分類される。 System LSI around a CPU (central processing unit), constituting the memory circuit constituting the peripheral circuit, one-chip microcomputer in which a plurality of circuit blocks such as the external input and output devices are formed on a single semiconductor substrate, or the like in the gate oxide film thickness of the MIS (MOS) transistors are classified into two types. MISトランジスタの動作電圧に対してある程度の耐圧(ゲート酸化膿の破壊に対する耐圧)を確保する必要がある回路、例えば、外部入出力回路、アナログ入出力回路、メモリ回路としてDRAMを用いたものでは、メモリセルのアドレス選択用MOSFET、アナログ/デジタル変換器、デジタル/アナログ変換器等は、特に制限されないが、0.2μmプロセス技術を用いた場合、ゲート長0.4μmでゲート酸化膜厚8nmのMISトランジスタを有する。 Circuit it is necessary to secure a certain breakdown voltage (voltage resistance to breakdown of the gate oxide pus) for an operating voltage of the MIS transistor, for example, the one using the DRAM external output circuit, an analog output circuit, as a memory circuit, address selection MOSFET of the memory cell, an analog / digital converter, a digital / analog converter or the like is not particularly limited, when using a 0.2μm process technology, MIS gate oxide film thickness 8nm gate length 0.4μm a transistor. これに対して、降圧された比較的低い内部電圧を動作電源とする回路、即ち、ロジック回路、SRAM、CPUは、ゲート長0.2μmでゲート酸化膜厚4nmのMISトランジスタで構成される。 In contrast, the circuit to the stepped-down relatively low internal voltage operating power supply, i.e., a logic circuit, SRAM, CPU is composed of MIS transistors of the gate oxide film thickness 4nm gate length 0.2 [mu] m. 第18図及び第19図は、この発明に係る半導体集積回路装置の再配線の製造方法の一実施例を説明するための該素子構造断面図が示されている。 FIG. 18 and FIG. 19 is the element structure sectional view for explaining an embodiment of a method for manufacturing a redistribution of the semiconductor integrated circuit device according to the present invention. 第18図(A)において、半導体基板に多数の回路素子が形成された半導体チップ201表面にボンディングパッド202(202a及び202b)を形成し、ボンディングパッド202の開口部を除いて、保護層203で覆つた状態のウエハ断面が示されている。 FIG. 18 (A), the large number of circuit elements bonding pads 202 on the semiconductor chip 201 surface is formed (202a and 202b) formed on a semiconductor substrate, with the exception of the opening of the bonding pad 202, a protective layer 203 wafer section of Kutsugaetsu was state is shown. 同図(A)に示されるものは、従来のワイヤボンデイング接続用ウエハの完成段階に相当する。 Those shown in FIG (A) corresponds to the stage of completion of the conventional wire bonding connection wafer.
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第19図(G)に示されるように、バンプ電極下地金属207上に半田でバンプ電極208を形成し、完成したウエハを個々のチップに切断分離(ダイシング)することによってフリップチップ型半導体集積回路装置が得られる。 As shown in Figure No. 19 (G), to form a bump electrode 208 by solder on bump metallurgy 207, flip-chip type semiconductor integrated circuit by cutting separate the completed wafer into individual chips (dicing) device is obtained. ボンディングパッド202若しくはその表面の材料には通常アルミニウムまたはアルミニウム合金が使用されるが、半導体素子内部の配線材料の種類によっては、銅や他の金属を用いても良い。 Although the material of the bonding pad 202 or its surface usually aluminum or an aluminum alloy is used, the type of semiconductor element inside the wiring material may be used copper or other metals. 保護層203の材質はシリコン酸化膜やシリコン窒化膜などの無機膜のほか、ポリイミドのような有機膜、及びこれらの組合せが用いられる。 The material of the protective layer 203 except for the inorganic film such as a silicon oxide film or a silicon nitride film, an organic film such as polyimide, and combinations thereof are used. 下部絶縁層204の材質は、基板実装後に半導体集積回路装置と実装基板の熱膨張差などによってバンプ電極208に作用する応力(応力・歪み状態)を緩和すると共に再配線205のキャパシタンスを低減するため、ポリイミドやフッ素系樹脂、各種エラストマ材料のような低弾性率(低弾性係数)かつ低誘電率の有機材料が望ましい。 The material of the lower insulating layer 204, in order to reduce the capacitance of the rewiring 205 while relieving the stress acting on the bump electrode 208 (stress-strain state) by thermal expansion difference between the semiconductor integrated circuit device and the mounting substrate after the substrate mounting , polyimide, fluorine resin, an organic material having a low modulus (low modulus) and low dielectric constant, such as various elastomeric material is desirable. ここで、エラストマ材料としては、シリコン系、アクリル系などのゴム材料や、これらゴム材料を配合した低弾性率の高分子材料などが挙げられる。 Here, the elastomeric material, silicon-based, or rubber material such as acrylic, such as a polymeric material having low modulus are blended rubber materials. 下部絶縁層204は、ワニスのスピンコートや印刷、あるいはフィルムの貼り付けによって形成される。 The lower insulating layer 204 is formed by pasting the spin coating or printing, or a film of varnish. 下部絶縁層204の厚さは応力及びキャパシタンス低減の観点から3μm程度以上あることが望ましい。 The thickness of the lower insulating layer 204 is desirably more than about 3μm in view of the stress and capacitance reduction. ただし、保護層203に有機膜が用いられている場合は、下部絶縁層204をこれより薄くするか、または省略することもできる。 However, if the organic film is used for the protective layer 203 may also be either a lower insulating layer 204 is thinner than this, or is omitted. 前記再配線205には例えば,厚さ1〜5μm程度の銅または鋼合金の上下に厚さ0.1〜0.5μm程度のクロム、チタン、ニッケル、ニッケル合金等を積層した3層配線構造を使用する。 Wherein the rewiring 205 For example, the thickness 0.1~0.5μm about chromium and below the thickness 1~5μm about copper or steel alloy, titanium, nickel, a three-layer wiring structure by stacking a nickel alloy use. またアルミニウム及びその合金を使用することもできる。 It is also possible to use aluminum and its alloys. 前記表面絶縁層206の材質は、バンプ電極208に作用する応力を緩和するため、ポリイミドやエポキシ、フッ素樹脂、更には各種エラストマ材料のような、低弾性率の有機材料が望ましい。 The material of the surface insulating layer 206 is, for relieving the stress acting on the bump electrode 208, polyimide, epoxy, fluorocarbon resin, and further such as various elastomeric material, an organic material having a low elasticity modulus is desirable. また、前記再配線の下側絶縁膜(更なる絶縁膜)は、バンプ電極にかかる応力吸収のため柔らかいものがよく、上側絶縁膜206は、保護の鶴点から下側絶縁膜204よりも比較的硬い材料を選択してもよい。 Further, the lower insulating film redistribution (further insulating film) is softer for stress absorption according to the bump electrode is good, the upper insulating film 206, the comparison than the lower insulating film 204 from crane point protection target hard material may be selected. 具体的には、上側絶縁膜206及び下側絶縁膜204は、感光性ポリイミド樹脂膜で形成され、熱処理(キユア)前の溶剤量、分子量、フィラーの含有量などを変化させることによって、最終的な膜の硬さ(弾性率)を変化させることが可能である。 Specifically, the upper insulating film 206 and the lower insulating film 204 is formed with photosensitive polyimide resin film, a heat treatment (Kiyua) before solvent content, molecular weight, by varying the like filler content, final it is possible to change such the hardness of the membrane (elastic modulus). また、上下絶縁膜を異なる材料で形成してもよい。 It is also possible to form the upper and lower insulating films of different materials. この場合、例えば、上側絶縁膜206をエポキシ系樹脂で形成し、下側絶縁膜204をポリイミド系樹脂で形成することが考えられる。 In this case, for example, an upper insulating film 206 is formed with an epoxy resin, it is considered that the lower insulating film 204 is formed of polyimide resin. 前記バンプ電極下地金属207としては、クロム、ニッケル、ニッケル・タングステン、ニッケル・銅等の半田バリア性の高い金属を厚さ0.3〜3μm程度形成することが望ましく、さらに半田の濡れ性及びプローブとの電気的接続性を確保するため、表面に厚さ0.1μm程度の金の薄膜層を形成しておくことが望ましい。 As the under bump metal 207, chromium, nickel, nickel-tungsten, it is desirable to form a thickness of about 0.3~3μm solder barrier highly metals such as nickel, copper, further solder wettability and probe to ensure electrical connection between, it is desirable to form a thin layer of gold having a thickness of about 0.1μm on the surface. 前記半田バンプ電極208は、半田バンプ電極下地金属207上に半田ペーストを印刷するか、又は予め一定寸法に成形済みの半田ボールを転写した後、リフローさせることによって形成することができる。 The solder bump electrode 208 is to print solder paste onto the solder bump metallurgy 207, or after transferring the preformed solder balls previously fixed size, can be formed by reflowing. 上記のように電源、信号入出力用ボンディングパッド202a、プロープ検査用ボンディングパッド202bの両方の直上部に検査パッド209を設けることによって、再配線工程後にプローブ検査を実施することが可能となるので、再配線工程前のボンディングパッド202の損傷による接続信頼性の低下を防止することができる。 Power As described above, the signal input and output bonding pads 202a, by providing a test pad 209 just above both Puropu inspection bonding pads 202b, it becomes possible to carry out the probe test after re-wiring process, it is possible to prevent deterioration in connection reliability due to damage of the bonding pads 202 before redistribution process. 特に、この実施例のように再配線を信号を分配する配線として用いるときには、そのプローブ検査は重要になるものである。 In particular, when used as a wiring for distributing signals rewiring as in this embodiment, the probe test are those important.
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そして、上述のフリップチップ型半導体集積回路装置では、ボンディングパッド202の投影面積内に検査パッド209が入るため、検査パッド209の付加によるキャパシタンスの増加がほとんどない。 Then, in the flip-chip type semiconductor integrated circuit device described above, since the testing pads 209 in the projection area of ​​the bonding pad 202 enters, there is little increase in capacitance due to the addition of the testing pads 209. なお、一部のボンディングパッド202bに対してはバンプ電極を設けずに検査パッド202bのみを設けることにより、半田バンプの数を増加させることなく、再配線工程後にプローブ検査を実施することができる。 Incidentally, it is possible by providing only testing pads 202b without providing the bump electrode for some of the bonding pads 202b, without increasing the number of solder bumps, to implement the probe test after re-wiring process. 第20図ないし第24図には、この発明に係るフリップチップ型半導体集積回路の製造工程が各段階毎に斜視図で示されている。 The FIG. 20 through FIG. 24, the manufacturing process of flip-chip type semiconductor integrated circuit according to the present invention is shown in perspective view in each step. 第20図には、従来のワイヤボンディング接続用ウエハの完成段階が示されている。 The FIG. 20, the completed phase of conventional wire bonding connecting wafer is shown. すなわち、前記第18図(A)の状態でのウエハ220の全体を示した図であり、各チップ210には夫々前記ボンディングパッド202が形成されている。 That is a diagram showing the entire wafer 220 in a state of the FIG. 18 (A), each said bonding pad 202 are formed on each chip 210. フリップチップ型半導体集積回路装置を製造するには、第20図に示されたウエハ220に、前記第18図(B)、(C)、(C)及び第19図(E)に例示されるように、下部絶縁層204、再配線205、表面絶縁層206、及びバンプ電極下地金属207などを形成し、第21図に示されたバンブ電極下地金属207の形成された状態のウエハ220を得る。 To produce the flip-chip type semiconductor integrated circuit device is illustrated a wafer 220 shown in FIG. 20, the FIG. 18 (B), in (C), (C) and Fig. 19 (E) obtained as the lower insulating layer 204, redistribution 205, the surface insulating layer 206, and the like to form bump metallurgy 207, the wafer 220 in a state of being formed of bump electrode base metal 207 shown in FIG. 21 . 第21図の状態は、断面では第19図(E)の状態に相当する。 State of FIG. 21 is a cross section corresponding to the state of Figure No. 19 (E). 次に、第22図に示されるように、複数のプローブ211をその先端がウエハ220上の複数の検査パッド209(第22図では図示を省略)に同時に接触するよう位置決めし、固定プローブカード221を使用してプローブ検査を行う。 Next, as shown in FIG. 22, (in FIG. 22 the not illustrated) a plurality of testing pads 209 on the wafer its tip a plurality of probes 211 220 is positioned to contact at the same time, the fixed probe card 221 carry out the probe inspection using. 複数のプローブ211を同時に複数の検査パッド209に接触させることによって、チップ210の1個分または複数個分の検査パッド209を同時に検査し、接触位置を順次移動させて検査を行うことによりウエハ220上の全てのチップ210に対してプローブ検査を行う。 By contacting a plurality of probes 211 simultaneously to a plurality of testing pads 209, the wafer 220 by inspecting one minute or testing pads 209 of the plurality of chips worth 210 simultaneously inspected by sequentially moving the contact position performing a probe test for all chip 210 above. この時、同一のまたは同様な別個のプロープカード221を用いて機能選択や欠陥救済を同時に又は連続して行うことができる。 In this case, it is possible to perform simultaneously or consecutively a function selection and the defect relief by using the same or similar separate Puropu card 221.
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バンプ電極208形成後のウエハ220は第57図に示すようにダイシングブレード226によって個片のチップ210に切断分離することにより、フリップチップ型半導体集積回路装置の完成品を得ることができる。 Wafer 220 after the bump electrode 208 formed by cutting separate chip 210 individual pieces with a dicing blade 226 as shown in 57 figure can be obtained finished flip chip type semiconductor integrated circuit device. 完成品にはさらに必要に応じてバーンイン検査や性能、外観などの各種最終検査が施され、所定のマーキングや包装を行つた後出荷される。 Burn-in test and performance in the finished product, if necessary, various final inspection of the appearance and the like, and applied after shipping KoTsuta predetermined marking and packaging. 第25図には、本発明のフリップチップ型半導体集積回路装置の再配線形成工程以降の製造工程フローを、(a),(b),(c),(d)の4通りが示されている。 The FIG. 25, the manufacturing process flow of the re-wiring forming process after the flip-chip type semiconductor integrated circuit device of the present invention, (a), (b), (c), is shown four different (d) there. 同図に示される製造フローは、前記第19図(G)の構造を一例とすれば、絶縁層204の上に再配線205を形成する再配線形成S1、206のような絶縁層を形成する表面絶縁層形成S2、207のようなバンプ電極下地金属そして検査パッド209の下地金属297などを形成するバンプ電極下地金属形成S3、前記アンチヒューズ1のプログラムによるモード設定のような機能選択S4、プローブ検査S5、前記アンチヒューズ1のブログラムによる不良ビット置き換えのような欠陥救済S6、バンプ電極を形成するバンプ形成S7、ウエハからチップを切り出す個片切断(ダイシング)S8、バーンインS9及び最終検査S10の各工程を含む。 Manufacturing flow shown in the drawing, if an example of the structure of the Fig. 19 (G), an insulating layer such as rewiring forming S1,206 for forming a rewiring 205 on the insulating layer 204 bump metallurgy and inspection under bump metal forming S3 for forming a like underlying metal 297 of the pad 209, the function selection, such as the mode setting by the anti-fuse 1 program S4, such as a surface insulating layer formed S2,207, probe inspection S5, the antifuse 1 blog ram by defect relief, such as replacing a defective bit S6, bumping S7 of forming the bump electrode, singulated from the wafer cut out chips (dicing) S8, the burn-in S9 and final inspection S10 including the steps. 第25図(a)に示される製造のフローは、バーンインS9すなわち高温での連続動作試験を、個片切断S8の後にチップ単位で行う場合の製造フローである。 Flow of production shown in Figure 25 (a) is a continuous operation test in the burn-S9 i.e. high temperature, a manufacturing flow for performing a chip unit after singulation S8. フリップチップ型半導体集積回路装置では再配線によって半田バンプ電極の間隔をボンディングパッドの間隔(60〜150μm程度)より広げている(0.5〜1.0mm程度)ため、BGA(ボール・グリッド・アレイ)型のCSP(チップ・サイズ・パッケージ)に使用されるバーンイン用ソケットを使用することによって、容易にチップ単位でのバーンインを行うことができる。 Since the flip-chip type semiconductor integrated circuit device is widened than the spacing of the bonding pads the distance of the solder bump electrodes by rewiring (about 60 to 150) (about 0.5 to 1.0 mm), BGA (ball grid array ) by using a burn-in socket used type CSP (chip size package), and can be easily performed burn-in chip unit. 即ち、バーンイン工程に先立って、予めチップ上にバンプ電極が形成され、且つ、そのバンプ電極の配列パターンをバーンイン用ソケットの電極配列パターンに対応させることによって、特別な仕様のバーンイン用ソケットを新規に準備する必要がないので、フリップチップ型半導体集積回路装置の組み立てコストを低減する事が可能である。 That is, prior to the burn-in step, the bump electrodes are formed in advance on the chip, and, by associating the arrangement pattern of the bump electrode on the electrode array pattern of the burn-in socket, a new burn-in socket of special specifications there is no need to prepare, it is possible to reduce the assembly cost of a flip-chip type semiconductor integrated circuit device.
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第25図(d)に示される製造フローは、第25図(a)〜(c)の各フローの表面絶縁層形成S2の工程とバンプ電極下地金属形成S3の工程を入れ換えた製造フローであり、機能選択工程以降の工程は第25図(a)〜(c)の何れかの製造フローと共通である。 Manufacturing flow shown in Figure 25 (d) are located in Figure 25 (a) manufacturing flow interchanged process steps and under bump metal forming S3 in the surface insulating layer formed S2 of the flow of ~ (c) the process of the function selecting step thereafter are the same as any of the production flow of Figure 25 (a) ~ (c). 第25図(a)〜(c)と第25図(d)との関係は、第25図(d)の製造フローでは再配線205とバンブ下地金属207を同一工程で形成したので、第25図(a)〜(c)の製造フローに比べてバンプ電極下地金属の形成コストを低減することができる。 Relationship Figure 25 and (a) ~ (c) and Figure 25 (d) are therefore in the production flow of Figure 25 (d) to form a rewiring 205 and the bump underlying metal 207 in the same step, the 25 it is possible to reduce the formation cost of the under bump metallurgy compared to manufacturing flow of FIG. (a) ~ (c). 半導体集積回路装置の回路素子が充分確立されたプロセスで製造され、不良率が低い場合には、バーンインが省略されることもある。 Produced by the process of the circuit elements it is well established in the semiconductor integrated circuit device, when a low defect rate, sometimes burn is omitted. この場合には、第25図(a)〜(c)の各製造フローは全く同一となり、差異はなくなる。 In this case, the production flow of Figure 25 (a) ~ (c) is quite become the same, the difference is eliminated. 第25図の各製造工程フローでは、何れも機能選択S4、プローブ検査S5、欠陥救済S6を連続して実施している。 In each manufacturing process flow of Figure 25, any function selecting S4, probe testing S5, it is carried out continuously defect relieving S6. 機能選択S4と欠陥救済S6にアンチヒユーズを利用する場合、これら三つの工程は何れもプローブをウエハに接触させることによって電気的処理のみ(レーザによるヒューズ切断や再配線の変更を伴わない)によって行うことができるので、1回のプロービングで(即ち他のチップに対するプロービングの後に再度プロービングすることなく)3工程を一括して処理することができ、工程を簡略化することが可能となる。 When utilizing Anchihiyuzu to the function selection S4 and the defect relieving S6, performed by the both of these three steps the probe only electrical treatment by contacting the wafer (without changing the fuse cutting and rewiring by laser) it is possible, once (without i.e. be re-probing after probing for other chips) probing three steps can be processed collectively, and it is possible to simplify the process. この場合は,機能選択や欠陥救済も広義のプローブ検査に含めて考えることができる。 In this case, it can be considered functional selection and the defect relief be included in a broad sense probe test.
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第27図(A)に従えば、パッドはコンタクトにより再配線の一端に接続される。 According to Figure No. 27 (A), the pad is connected to one end of the rewiring by contact. この再配線の他端は、コンタクトによりM4配線の一端に接続され、その他端はコンタクトによりM3配線の一端に接続される。 The other end of the re-wiring is connected to one end of the M4 wire by the contact, the other end thereof is connected to one end of the M3 wiring by the contact. このM3配線の他端は、コンタクトによりM4配線の一端に接続される。 The other end of the M3 wiring is connected to one end of the M4 wire by the contact. これにより、信号線等との1つ目の交差が行われる。 Thus, first crossing the signal line or the like is performed. 上記M4配線の他端は、上記信号線等との交差部において、コンタクトによりM3配線の一端に接続される。 The other end of the M4 wire at intersections between the signal lines or the like, is connected to one end of the M3 wiring by the contact. このM3配線の他端はコンタクトによりM4配線の一端に接続される。 The other end of the M3 wiring is connected to one end of the M4 wire by the contact. そして、このM4配線の他端がパンプと接続される再配線と接続されることにより、上記パッドとパンプとの電気的接続が行われる。 By the other end of the M4 wire is connected to the re-wiring to be connected to the bump, the electrical connection between the pad and the bump is performed. なお、第27図(A)では、上記交差部での他方の配線(M4)や再配線は省略されている。 In Figure 27 (A), the other wires (M4) or rewiring in the intersecting portion is omitted. 第28図には、この発明に係る半導体集積回路装置の更に他の一実施例の平面図が示されている。 The FIG. 28, there is shown a plan view of still another embodiment of the semiconductor integrated circuit device according to the present invention. この実施例の半導体集積回路装置は、特に制限されないが、スタティック型RAMのようなメモリ回路に向けられており、再配線とそれに接続されるバンプ電極及びパッドのレイアウトが示されている。 The semiconductor integrated circuit device of this embodiment is not particularly limited, it is directed to a memory circuit such as a static RAM, the bump electrodes and the pad layout connected rewiring and it is shown. 同図においても前記同様に、バンプ電極は、○で示されており、パッドは、小さな□で示されている。 In the same in the figure, the bump electrode is indicated by ○, pad is indicated by a small □. これらバンプ電極とパッドとが再配線により相互に接続される。 These bump electrodes and the pad are connected to each other by rewiring. この実施例でも、再配線は、その機能に応じて直流電圧用と交流信号用との2種類に分けられる。 In this embodiment, the redistribution can be divided into two types of AC signal and the DC voltage in accordance with its function. 交流信号用はウエハ・レベルCSPでの再配線と同じく、1つのバンプ電極と1つのパッドとを一対一に対応して接続するものであり、アドレス及び制御信号の入力や、データの入出力に用いられる。 AC signal like the rewiring at the wafer level CSP, is intended to be connected to corresponding one of the bump electrodes and one pad to one-to-one, the input and the address and control signals, the input and output of data used. これらの各信号用の再配線は、それを通して伝えられる信号の高速伝達を行うようにするために、寄生容量を小さくすることと、高密度に設けられる複数のパッドに対応して比較的細く形成された配線幅の再配線層が用いられる。 These rewiring for each signal, in order to perform high-speed transmission of signals to be transmitted therethrough, and reducing the parasitic capacitance, a relatively narrow formed corresponding to a plurality of pads provided in a high density redistribution layer of the the wiring width is used.
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(14) 上記に加えて、上記第1電極及び第2電極をボンディングパッドとすることにより、かかる半導体チップをリード端子を持つ半導体集積回路装置に組み立てることもでき、半導体チップの多様なパッケージ形態を実現できるという効果が得られる。 (14) In addition to the above, by the bonding pads of the first electrode and the second electrode, can also be assembled according semiconductor chip in the semiconductor integrated circuit device having a lead terminal, a variety of packaging forms of the semiconductor chip an effect that can be achieved is obtained. (15) 上記に加えて、上記第1外部接続用電極及び上記第2外部接続用電極の面積を上記第1電極及び上記第2電極の面積よりも大きくすることにより、半導体基板上に形成される素子及び配線等の高集積化を図りつつ、バンプ電極等の外部接続手段を得ることができるという効果が得られる。 (15) In addition to the above, to be larger than the area of ​​the first external connection electrode and the second external area of ​​the connecting electrode the first electrode and the second electrode is formed on a semiconductor substrate that while achieving higher integration of elements and wiring or the like, there is an advantage that it is possible to obtain the external connecting means such as a bump electrode. (16) 上記に加えて、第1及び第2外部接続用電極に半田ボールを設けることにより、ウエハプロセスでの製造が可能となり、半導体集積回路装置の実装を簡単に安定的に行うようにすることができるという効果が得られる。 (16) In addition to the above, by providing a solder ball on the first and second external connection electrodes, it is possible to manufacture in a wafer process, to perform the mounting of the semiconductor integrated circuit device easily stably there is an advantage that it is possible.
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上記第1電極及び第2電極は、ボンディングパッドであることを特徴とする半導体集積回路装置。 The first electrode and the second electrode, a semiconductor integrated circuit device which is a bonding pad. 上記第1外部接続用電極及び上記第2外部接続用電極は、その面積が上記第1電極及び上記第2電極の面積よりも大きくされてなることを特徴とする半導体集積回路装置。 It said first external connection electrode and the second external connection electrode, a semiconductor integrated circuit device characterized by its area is made larger than the area of ​​the first electrode and the second electrode. 上記有機絶縁膜上に設けられた第1外部接続用電極を更に備え、 Further comprising a first external connection electrode provided on the organic insulating film, 上記導電層は、第1外部接続用電極に接続され、 The conductive layer is connected to the first electrode for external connection,
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上記第1外部接続用電極は、バンプ電極であることを特徴とする半導体集積回路装置。 It said first external connection electrode, a semiconductor integrated circuit device which is a bump electrode. 上記第1外部接続用電極は、その面積が上記第1電極及び上記第2電極の面積よりも大きくされてなることを特徴とする半導体集積回路装置。 It said first external connection electrode, a semiconductor integrated circuit device characterized by its area is made larger than the area of ​​the first electrode and the second electrode. 上記第1外部接続用電極は、クロック信号が与えられることを特徴とする半導体集積回路装置。 It said first external connection electrode, a semiconductor integrated circuit device characterized by a clock signal is provided. 上記第1外部接続用電極は、半田ボールを含むことを特徴とする半導体集積回路装置。 It said first external connection electrode, a semiconductor integrated circuit device which comprises a solder ball.
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請求項24において、 According to claim 24, 上記第1電圧を上記電圧形成回路に伝える第2外部接続用電極と導電層とを更に備えてなることを特徴とする半導体集積回路装置。 The semiconductor integrated circuit device characterized by comprising further a second external connection electrode and the conductive layer to convey the first voltage to the voltage forming circuit. 上記第1電極と上記第2電極とを接続する上記有機絶縁膜上に被着された導電層と、 The first electrode and the above organic insulating deposited conductive layer on the membrane connecting the second electrode,
c4-zh.tfrecord-00446-of-01024.json
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象山 / Xiangshan R02 象山 / Xiangshan R02, 牛排/Steak, 台北101 / Taipei 101 R03, 信義區 Xinyi District, 餐酒館 Bistro, 台北市/ Taipei City, 日式料理/Japanese 台北和牛47餐廳 是信義區微風南山美食餐廳之一, 也在微風南山高空景觀餐廳名單內, 嚴格來說, 和牛47是結合燒肉與懷石料理的餐廳. Taipei Wagyu 47 is one of the Nanshan Breeze Restaurants. It is also on the list of the restaurants that can see the Taipei 101 View. 象山 / Xiangshan R02, 牛排/Steak, 台北101 / Taipei 101 R03, 信義區 Xinyi District, 台北市/ Taipei City, 鐵板燒/Teppanyaki 犇 牛肉食堂位於台北微風南山 5 樓, 與犇鐵板燒一樣可以歸類在台北和牛鐵板燒餐廳. Ben Teppan & Grill Restaurant is located at Taipei Breeze Nanshan 5th Floor. It is also one of the Taipei Wagyu Beef Teppanyaki Restaurants.
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台北微風南山美食餐廳懶人包 》TAIPEI BREEZE NANSHAN RESTAURANT GUIDE 象山 / Xiangshan R02, 懶人包 Guide, 台北101 / Taipei 101 R03, 信義區 Xinyi District (2019.4 更新) 台北微風南山美食餐廳非常多, 此篇台北微風南山美食餐廳懶人包 / 南山微風美食餐廳懶人包 僅限Foodelicious Review 過的餐廳, 之後會陸續更新! There are many restaurants at BREEZE NANSHAN Department stores. The list only includes the restaurants an...
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主演: 乔·曼根尼罗 / 朱莉娅·罗伯茨 / 曼迪·帕廷金 / 黛米·洛瓦托 / 雷恩·威尔森 / 雷恩·威尔逊 / 杰克·麦克布雷尔 / 丹尼·朴迪 / 阿芮尔·温特 / Ellie Kemper / 米歇尔·罗德里格兹 / 杰克·约翰逊 / Tituss Burgess / Gabriel Iglesias / Gordon Ramsay / 杰夫·敦哈姆 / 凯利·阿斯博瑞 / Meghan Trainor 主演: 汤姆·希德勒斯顿 / 布丽·拉尔森 / 塞缪尔·杰克逊 / 景甜 / J·K·西蒙斯 / 约翰·古德曼 / 托比·凯贝尔 / 约翰·C·赖利 / 汤姆·威尔金森 / 谢伊·惠格姆 / 托马斯·曼 / Corey Antonio Hawkins / 杰森·米切尔 / Will Brittain / 约翰·奥提兹 / 泰瑞·诺塔里 / John West Jr. / Jing Tian / 尤金·科德罗 / 马克·埃文·杰克逊 / 莎朗M. Bell先生 / Joshua Funk / Andre Pelzer / 妮可·亨特 / Christine Milo / Jason Speer / Scott M. Schewe / John Huser / Scott Wallace / John A Weaver / Jeff Parker / David James Sikkink / Salvatore Merenda / Matthew A. Chapman / Emmy Agustin / James Edward Flynn / Alexander Canton / Javier Diaz / Jamie A. Marchetti / Henry Holliday / Raj K. Bose / Theo Coumbis / Michael C Hollandsworth / Paul S.W. Lee / Darcie Mayo / Jerald M.S. Pang 主演: 斯嘉丽·约翰逊 / 塞思·麦克法兰 / 瑞茜·威瑟斯彭 / 马修·麦康纳 / 约翰·C·赖利 / 塔伦·埃格顿 / 尼克·奥弗曼 / 皮特·萨拉分维兹 / 珍妮弗·桑德斯 / 尼克·克罗尔 / 莱斯莉·琼斯 / Jonnie Hall / 阿什·布林克夫 / 贝克·贝内特 / 杰·费罗尔 / Tori Kelly / Laura Dickinson / Jen Faith Brown / Adam Buxton / Jessica Rau
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《哈利波特与死亡圣器下》TS版中字2011美国最新奇幻冒险大片 VN:F [1.9.16_1159]please wait...Rating: 0.0/10 (0 votes cast) 【译名】哈利·波特与死亡圣器(下) 【片名】Harry Potter and the Deathly Hallowsart 2 【年代】2011 【国家】美国 | 英国 【类型】冒险 | 悬疑 | 动作 | 剧情 | 奇幻 【片源】TS 【视频】720 x 304 | XviD | 565 Kbps 【音频】英语 | MP3 | 1... 2011-07-18 / 预告 / 5,255次浏览
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浴室用品及配件:桑拿房、淋浴房、热水器、浴缸、卫浴挂件、面盆、马桶、花洒等Bathroom supplies and accessories: sauna room, shower room, water heater, bathtub, bathroom pendant, basin, toilet, shower, etc. 开展商:地产开辟商、酒店/会所/餐饮业主及经管公司、政府及公共奇迹机关单元Developer: property developer, hotel / club / Catering owner and management company, government and public miracle unit工程经管商:工程总承包商、商业地产顾问经管、室庐楼盘购买经管公司等Project Manager: general contractor, commercial real estate consultant, Shilu real estate purchase and management company, etc. 设计师:室内设计师、软装设计师、家居装饰顾问、建筑师等Designer: interior designer, soft decoration designer, home decoration consultant, architect, etc.
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CA2983333A1 (en) 2015-05-31 2016-12-08 Saluda Medical Pty Ltd Brain neurostimulator electrode fitting CN107613860A (en) 2015-05-31 2018-01-19 萨鲁达医疗有限公司 Monitoring brain neural activity JP2019510576A (en) 2016-04-05 2019-04-18 サルーダ・メディカル・ピーティーワイ・リミテッド Improved feedback control of neuromodulation
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Thus, although the best mode contemplated for carrying out the present invention has been herein shown and described, it will be apparent that modification and variation may be made without departing from what is regarded as the subject matter of the invention. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS2595241 *Aug 1, 1947May 6, 1952Eastman Oil Well Survey CoMethod and apparatus for measuring the cross sectional area of well bores by supersonic wavesUS3049920 *May 29, 1958Aug 21, 1962Phillips Petroleum CoMethod of determining amount of fluid in underground storageGB1210017A * Title not available* Cited by examinerNon-Patent CitationsReference1 *M. Bruma et al., Quelques Experiences Relatant L'induction D'iondes Acoustiques, etc., Le Journal De Physique, Jun. 26, 1965, pp. 341-344.2 *P. M. Griffen et al., Development and Evaluation of an Ultrasonic Imaging System, G.E. Co., Publ. Report # N01-Hv-5-2966-1, Mar. 31, 1976, pp. 1, 2, 17 & 45.3 *R. M. White, Generation of Elastic Waves by Transient Surface Heating, Journal of Applied Physics, vol. 34, No. 12, Dec. 1963, pp. 3559-3567.* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS4748846 *Apr 14, 1987Jun 7, 1988Gilbarco, Inc.For determining the amount of liquid in a tankUS4805453 *Dec 24, 1987Feb 21, 1989Gilbarco, Inc.Method of ultrasonic measurement of liquid levelsUS5042015 *Sep 1, 1989Aug 20, 1991Quantronix, Inc.Measuring method and apparatusUS5105392 *Mar 18, 1991Apr 14, 1992Quantronix, Inc.Measuring method and apparatusUS5220536 *Feb 28, 1992Jun 15, 1993Quantronix, Inc.Measuring method and apparatusUS5422861 *Jun 14, 1993Jun 6, 1995Quantronix, Inc.Measuring method and apparatusUS5568449 *Sep 2, 1994Oct 22, 1996U.S. Test, Inc.Methods and apparatus for use in ultrasonic rangingUS6018501 *Dec 10, 1997Jan 25, 2000Halliburton Energy Services, Inc.Subsea repeater and method for use of the sameUS6298009May 16, 2000Oct 2, 2001Quantronix, Inc.Object measuring and weighing apparatus and method for determining conveyance speedUS6611787Sep 28, 2001Aug 26, 2003Quantronix, Inc.Object measuring and weighing apparatusUS7151465 *Apr 26, 2004Dec 19, 2006Gaz De FranceMethod and apparatus for transmitting information between a salt-cavern and the surface of the groundCN101057060BSep 20, 2005Jul 6, 2011普拉德研究及开发股份有限公司An apparatus for measuring an internal dimension of a well-bore ,system and well logging tool comprising the deviceEP0922836A1 *Dec 10, 1998Jun 16, 1999Halliburton Energy Services, Inc.Subsea repeater and method for use of the sameEP1640561A1 *Sep 22, 2004Mar 29, 2006Services Petroliers SchlumbergerAn apparatus for measuring an internal dimension of a well-boreWO2006032490A1 *Sep 20, 2005Mar 30, 2006Schlumberger Services PetrolAn apparatus for measuring an internal dimension of a well-bore* Cited by examinerClassifications U.S. Classification367/86, 73/643, 367/128, 73/149, 367/127, 73/627, 367/107International ClassificationG01C7/06, G01V11/00, G01S11/16, E21B47/00, G01F17/00, E21B47/04, E21B47/08, G01S13/88, G01S17/89Cooperative ClassificationG01C7/06, G01V11/00, G01S11/16, G01S17/89, E21B47/042, G01F17/00, E21B47/082, G01S13/88, E21B47/0003European ClassificationG01V11/00, G01S17/89, G01S11/16, G01F17/00, G01S13/88, E21B47/00D, E21B47/04B, E21B47/08C, G01C7/06RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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6,567
Patent US7745371 - Exhaust gas purifying catalyst, metal oxide particle and production process ... - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsIn order to provide an exhaust gas purifying catalyst having improved heat resistance and OSC, a metal oxide particle, and a production process of the metal oxide particle, a metal oxide particle having a core (1) where the total molar number of alumina and silica is larger than the molar number of ceria,...http://www.google.com/patents/US7745371?utm_source=gb-gplus-sharePatent US7745371 - Exhaust gas purifying catalyst, metal oxide particle and production process thereofAdvanced Patent SearchPublication numberUS7745371 B2Publication typeGrantApplication numberUS 10/588,603PCT numberPCT/JP2005/004403Publication dateJun 29, 2010Filing dateMar 8, 2005Priority dateMar 9, 2004Fee statusPaidAlso published asCN1929913A, CN100512952C, EP1722889A1, US20070179052, WO2005084796A1Publication number10588603, 588603, PCT/2005/4403, PCT/JP/2005/004403, PCT/JP/2005/04403, PCT/JP/5/004403, PCT/JP/5/04403, PCT/JP2005/004403, PCT/JP2005/04403, PCT/JP2005004403, PCT/JP200504403, PCT/JP5/004403, PCT/JP5/04403, PCT/JP5004403, PCT/JP504403, US 7745371 B2, US 7745371B2, US-B2-7745371, US7745371 B2, US7745371B2InventorsTakeshi Hirabayashi, Oji Kuno, Masahide MiuraOriginal AssigneeToyota Jidosha Kabushiki KaishaExport CitationBiBTeX, EndNote, RefManPatent Citations (65), Non-Patent Citations (17), Classifications (24), Legal Events (2) External Links: USPTO, USPTO Assignment, EspacenetExhaust gas purifying catalyst, metal oxide particle and production process thereof Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS4448895Nov 4, 1982May 15, 1984Nippon Shokubai Kagaku Kogyo Co. Ltd.Process for preparation of catalyst for cleaning exhaust gases and catalyst prepared by the processUS4981825 *Sep 12, 1989Jan 1, 1991Board Of Trustees Operating Michigan State UniversityDried metal oxide and clay particle compositions and method for the preparation thereofUS5182249Feb 6, 1991Jan 26, 1993East China University Of Chemical TechnologyNon-precious metal three way catalystUS5232889Feb 5, 1992Aug 3, 1993Rhone-Poulenc ChimieSupported catalystsUS5334570Jul 21, 1992Aug 2, 1994Corning IncorporatedPore impregnated catalyst deviceUS5346875 *Jul 21, 1993Sep 13, 1994Exxon Research And Engineering CompanyMethod of manufacturing fluid catalytic cracking catalystUS5352646Jan 11, 1993Oct 4, 1994Rhone-Poulenc ChimieSupported catalystsUS5439865May 12, 1993Aug 8, 1995Ngk Insulators, Ltd.Catalyst for exhaust gas purification and process for production thereofUS5492870 *Apr 13, 1994Feb 20, 1996The Board Of Trustees Of The University Of IllinoisHollow ceramic microspheres by sol-gel dehydration with improved control over size and morphologyUS5607892Feb 10, 1994Mar 4, 1997Rhone-Poulenc ChimieZirconium/cerium mixed oxide catalyst/catalyst support compositions having high/stable specific surfacesUS5753581 *Dec 18, 1995May 19, 1998General Motor CorporationMethod of associating precious metals with specific oxides in mixed oxide systems for use as catalystsUS6083868 *Oct 28, 1996Jul 4, 2000Toyota Jidosha Kabushiki KaishaMethod of producing heat-resistant catalyst supportUS6358880Nov 9, 1998Mar 19, 2002Rhodia ChimieSupport composition based on a cerium oxide, a zirconium oxide and a scandium or rare earth oxide and use for treating exhaust gasUS6528451Mar 13, 2001Mar 4, 2003W.R. Grace & Co.-Conn.Catalyst support material having high oxygen storage capacity and method of preparation thereofUS6773814Aug 7, 2002Aug 10, 2004Degussa AgMetal oxide particles coated with silicon dioxideUS6911414Nov 15, 2001Jun 28, 2005Cataler CorporationCatalyst for purifying exhaust gasUS7314846Oct 22, 2003Jan 1, 2008Toyota Jidosha Kabushiki KaishaMethod for preparing metal oxide particles and an exhaust gas purifying catalystUS7384888Sep 15, 2003Jun 10, 2008Toyota Jidosha Kabushiki KaishaCerium-zirconium composite metal oxideUS20020049137Jul 25, 2001Apr 25, 2002Kabushiki Kaisha Toyota Chuo KenkyushoComposite oxide, process for producing the same, catalyst for purifying exhaust gas, and process for producing the sameUS20020098975Nov 15, 2001Jul 25, 2002Cataler CorporationCatalyst for purifying exhaust gasUS20030007926May 9, 2002Jan 9, 2003Weibin JiangMetal catalyst and method of preparation and useUS20040082468Oct 16, 2003Apr 29, 2004Denso CorporationCeramic catalystUS20040087440Oct 22, 2003May 6, 2004Toyota Jidosha Kabushiki KaishaMethod for preparing metal oxide particles and an exhaust gas purifying catalystUS20040186016Mar 17, 2003Sep 23, 2004Omg Ag & Co. KgOxygen storage material, process for its preparation and its application in a catalystUS20050059547Sep 15, 2003Mar 17, 2005Toyota Jidosha Kabushiki KaishaCerium-zirconium composite metal oxideUS20070129246Apr 27, 2005Jun 7, 2007Masahide MiuraExhaust gas purifying catalyst and production process thereofUS20070179052Mar 8, 2005Aug 2, 2007Toyota Jidosha Kabushiki KaishaExhaust gas purifying catalyst, metal oxide particle and production process thereofUS20070197373Apr 27, 2005Aug 23, 2007Toyota Jidosha Kabushiki KaishaZirconia core particles coated with ceria particles, production process thereof and exhaust gas purifying catalystUS20070197379Apr 27, 2005Aug 23, 2007Toyota Jidosha Kabushiki KaishaProcess for producing metal oxide particle and exhaust gas purifying catalystUS20080051283Apr 27, 2005Feb 28, 2008Toyota Jidosha Kabushiki KaishaMetal Oxide Particle, Production Process Thereof and Exhaust Gas Purifying CatalystCN1060793AOct 22, 1990May 6, 1992华东化工学院Multieffective non-noble metal catalystDE9403581U1Mar 3, 1994Apr 28, 1994Kernforschungsz KarlsruheBeschichtetes Nanopulver und Vorrichtung zu dessen HerstellungEP0430744A1Nov 13, 1990Jun 5, 1991Rhone-Poulenc ChimieSupported catalysts and process for producing the sameEP0524643A1Jul 24, 1992Jan 27, 1993Corning IncorporatedPore impregnated catalyst deviceEP1175935A2Jul 24, 2001Jan 30, 2002Kabushiki Kaisha Toyota Chuo KenkyushoComposite oxide, process for producing the same, catalyst for purifying exhaust gas, and process for producing the sameEP1284277A1Aug 8, 2001Feb 19, 2003Degussa AktiengesellschaftSilica-coated metal oxide particlesEP1371415A1Feb 4, 2002Dec 17, 2003Toyota Jidosha Kabushiki KaishaCatalyst for hydrogen generation and catalyst for purification of exhaust gasEP1415956A2Oct 27, 2003May 6, 2004Toyota Jidosha Kabushiki KaishaA method for preparing metal oxide particles and an exhaust gas purifying catalystEP1516855A1Sep 16, 2003Mar 23, 2005Toyota Jidosha Kabushiki KaishaCerium-Zirconium composite metal oxide with a cerium oxide core surrounded by zirconium oxideEP1579912A2Mar 22, 2005Sep 28, 2005Nissan Motor Co., Ltd.Catalyst powder, exhaust gas purifying catalyst, and method of producing the catalyst powderFR2836067A1 Title not availableJP2000319019A Title not availableJP2001089143A Title not availableJP2002110261A Title not availableJP2002331238A Title not availableJP2002346386A Title not availableJP2003117393A Title not availableJP2003277060A Title not availableJP2004074138A Title not availableJP2005254047A Title not availableJP2005313024A Title not availableJP2005313028A Title not availableJP2005314134A Title not availableJPH03277060A Title not availableJPH06279027A Title not availableJPH08103650A Title not availableJPH08109020A Title not availableJPH08109021A Title not availableJPH09255331A Title not availableJPH10194742A Title not availableJPH10258232A Title not availableKR100295168B1 Title not availableWO2003037506A1Oct 30, 2002May 8, 2003Magnesium Elektron Ltd.Process for preparing zirconium-cerium-based mixed oxidesWO2005102933A2Apr 27, 2005Nov 3, 2005Toyota Jidosha Kabushiki KaishaZirconia core particles coated with ceria particles, production process thereof and exhaust gas purifying catalystWO2007113674A2Mar 30, 2007Oct 11, 2007Toyota Jidosha Kabushiki KaishaMetal oxide catalyst carrier particle and exhaust gas purification catalyst* Cited by examinerNon-Patent CitationsReference1Aug. 10, 2005 Search Report issued in PCT/JP2005/008466.2Aug. 11, 2005 Search Report issued in PCT/JP2005/008465.3Aug. 19, 2005 Search Report issued in PCT/JP2005/008458.4Dec. 26, 2008 Office Action issued in Chinese patent application No. 200580013424.0.5 *John Dalton Wright et al. , Sol- Gel Materials: Chemistry and Applications, 2001, CRC Press, Sect 1.4.6Jul. 7, 2009 Office Action issued in Canadian patent application No. 2,562,556.7Notice of Allowance issued in U.S. Appl. No. 10/589,421 on Sep. 18, 2009.8Office Action (Final Rejection) issued in U.S. Appl. No. 10/589,669 on Apr. 28, 2009.9Office Action (Non-Final Rejection) issued in U.S. Appl. No. 10/589,421 on Apr. 14, 2009.10Office Action (Non-Final Rejection) issued in U.S. Appl. No. 10/589,421 on Sep. 17, 2008.11Office Action (Non-Final Rejection) issued in U.S. Appl. No. 10/589,669 on Nov. 18, 2009.12Office Action (Non-Final Rejection) issued in U.S. Appl. No. 10/589,669 on Nov. 5, 2008.13Office Action (Requirement for Restriction/Election) issued in U.S. Appl. No. 10/589,669 on Aug. 12, 2008.14U.S. Appl. No. 10/589,421 filed on Aug. 15, 2006 in the name of Masahide Miura.15U.S. Appl. No. 10/589,669 filed on Aug. 16, 2006 in the name of Masahide Miura.16U.S. Appl. No. 10/593,629 filed on Sep. 21, 2006 in the name of Masahide Miura.17U.S. Appl. No. 12/451,089 tiled on Oct. 26, 2009 in the name of Masahide Miura.* Cited by examinerClassifications U.S. Classification502/304International ClassificationF01N3/10, B01J35/02, B01J37/02, B01J23/10, B01J32/00, B01J23/00, B01J23/63, B01D53/94, B01J37/03Cooperative ClassificationY02T10/22, B01D2255/102, B01D2255/206, B01J23/10, B01D53/945, B01J37/0211, B01J23/63, B01J35/008, B01J37/0244European ClassificationB01D53/94L2, B01J23/10, B01J37/02M4, B01J37/02B10, B01J23/63Legal EventsDateCodeEventDescriptionAug 7, 2006ASAssignmentOwner name: TOYOTA JIDOSHA KABUSHIKI KAISHA, JAPANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:HIRABAYASHI, TAKESHI;KUNO, OJI;MIURA, MASAHIDE;REEL/FRAME:018178/0787Effective date: 20060715Owner name: TOYOTA JIDOSHA KABUSHIKI KAISHA,JAPANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:HIRABAYASHI, TAKESHI;KUNO, OJI;MIURA, MASAHIDE;REEL/FRAME:018178/0787Effective date: 20060715Nov 27, 2013FPAYFee paymentYear of fee payment: 4RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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8,856
Patent US6066957 - Floating spring probe wireless test fixture - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsA test fixture for a printed circuit board having a pattern of test probes and a fixed probe plate and a top plate adapted for movement toward and away from the probe plate. The probe plate and the top plate have selected patterns of holes for passage of the test probes through the probe plate and the...http://www.google.com/patents/US6066957?utm_source=gb-gplus-sharePatent US6066957 - Floating spring probe wireless test fixtureAdvanced Patent SearchPublication numberUS6066957 APublication typeGrantApplication numberUS 09/045,232Publication dateMay 23, 2000Filing dateMar 20, 1998Priority dateSep 11, 1997Fee statusLapsedAlso published asDE19900833A1, DE19900833B4Publication number045232, 09045232, US 6066957 A, US 6066957A, US-A-6066957, US6066957 A, US6066957AInventorsDavid R. Van Loan, Gary F. St. Onge, Mark A. SwartOriginal AssigneeDelaware Capital Formation, Inc.Export CitationBiBTeX, EndNote, RefManPatent Citations (17), Referenced by (80), Classifications (15), Legal Events (7) External Links: USPTO, USPTO Assignment, EspacenetFloating spring probe wireless test fixture Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS4061969 *May 5, 1976Dec 6, 1977International Computers LimitedApparatus for testing printed circuit boardsUS4352061 *May 24, 1979Sep 28, 1982Fairchild Camera & Instrument Corp.Universal test fixture employing interchangeable wired personalizersUS4841240 *Jan 29, 1988Jun 20, 1989American Telephone And Telegraph Company, At&T Bell LaboratoriesMethod and apparatus for verifying the continuity between a circuit board and a test fixtureUS4866375 *Jun 2, 1986Sep 12, 1989Malloy James TUniversal test fixtureUS4977370 *Dec 6, 1988Dec 11, 1990Genrad, Inc.Apparatus and method for circuit board testingUS5157325 *Feb 15, 1991Oct 20, 1992Compaq Computer CorporationCompact, wireless apparatus for electrically testing printed circuit boardsUS5422575 *Apr 5, 1994Jun 6, 1995Everett Charles Technologies, Inc.Test fixture with adjustable bearings and optical alignment systemUS5485096 *Apr 5, 1994Jan 16, 1996Aksu; AllenPrinted circuit board tester having a test bed with spring probes and easily replaceable switch cardsUS5493230 *Aug 16, 1994Feb 20, 1996Everett Charles Technologies, Inc.Retention of test probes in translator fixturesUS5510722 *Dec 18, 1992Apr 23, 1996Tti Testron, Inc.Test fixture for printed circuit boardsUS5543718 *Apr 8, 1994Aug 6, 1996Dcm Industries, Inc.Cable testing deviceUS5555422 *Oct 24, 1995Sep 10, 1996Co-Operative Facility For Aging Tester DevelopmentProber for semiconductor integrated circuit element waferUS5945836 *Oct 29, 1996Aug 31, 1999Hewlett-Packard CompanyLoaded-board, guided-probe test fixtureUS5945838 *Jun 26, 1997Aug 31, 1999Star Technology Group, Inc.Apparatus for testing circuit boardsGB2326772A * Title not availableWO1980002599A1 *May 23, 1980Nov 27, 1980Fairchild Camera Instr CoUniversal test fixture employing interchangeable wired personalizersWO1990006518A1 *Nov 27, 1989Jun 14, 1990Cimm IncWireless test fixture* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS6259265 *Oct 13, 1999Jul 10, 2001Samsung Electronics Co., Ltd.Unified test system and method for testing printed circuit boardsUS6262571Nov 17, 1999Jul 17, 2001Agilent Technologies, Inc.Adjustable electrical connector for test fixture nestUS6265886 *Jul 12, 1999Jul 24, 2001Micron Technology, Inc.Conductive bump array contactors having an ejector and methods of testing using sameUS6353327 *May 13, 1998Mar 5, 2002Nidec-Read CorporationCircuit board misalignment detection apparatus and methodUS6359452 *Jul 22, 1998Mar 19, 2002Nortel Networks LimitedMethod and apparatus for testing an electronic assemblyUS6384617 *Nov 17, 1999May 7, 2002Agilent Technologies, Inc.Signal transfer device for probe test fixtureUS6388459May 24, 2001May 14, 2002Micron Technology, Inc.Conductive bump array contactors having an ejector and methods of testing using sameUS6459288Aug 6, 2001Oct 1, 2002Micron Technology, Inc.Conductive bump array contactors having an ejector and methods of testing using sameUS6459289Aug 6, 2001Oct 1, 2002Micron Technology, Inc.Conductive bump array contactors having an ejector and methods of testing using sameUS6483332Aug 6, 2001Nov 19, 2002Micron Technology, Inc.Conductive bump array contactors having an ejector and methods of testing using sameUS6492826Jul 24, 2001Dec 10, 2002Micron Technology, Inc.Conductive bump array contactors having an ejector and methods of testing using sameUS6504390Aug 2, 2001Jan 7, 2003Micron Technology, Inc.Conductive bump array contactors having an ejector and methods of testing using sameUS6504391Aug 6, 2001Jan 7, 2003Micron Technology, Inc.Conductive bump array contactors having an ejector and methods of testing using sameUS6509752Mar 5, 2001Jan 21, 2003Emc CorporationTesting apparatus with mechanism for preventing damage to unit under testUS6551126Mar 13, 2001Apr 22, 20033M Innovative Properties CompanyHigh bandwidth probe assemblyUS6570399Jan 12, 2001May 27, 2003Qa Technology Company, Inc.Test probe and separable mating connector assemblyUS6628130Jul 18, 2001Sep 30, 2003Agilent Technologies, Inc.Wireless test fixture for printed circuit board test systemsUS6650134 *Apr 18, 2002Nov 18, 2003Charles A. ScheinAdapter assembly for connecting test equipment to a wireless test fixtureUS6667628Apr 2, 2002Dec 23, 2003Agilent Technologies, Inc.Method and apparatus for the management of forces in a wireless fixtureUS6784675 *Jun 25, 2002Aug 31, 2004Agilent Technologies, Inc.Wireless test fixture adapter for printed circuit assembly testerUS6824427May 13, 2003Nov 30, 20043M Innovative Properties CompanyCoaxial probe interconnection systemUS6876214 *Aug 5, 2003Apr 5, 2005Agilent Technologies, Inc.Method and apparatus for configurable hardware augmented program generationUS6876530Jan 7, 2002Apr 5, 2005Qa Technology Company, Inc.Test probe and connectorUS7119559Jun 18, 2004Oct 10, 2006Rematek Inc.Vacuum-actuated test fixture for testing printed circuit boardsUS7227365Oct 28, 2004Jun 5, 2007Hewlett-Packard Development Company, L.P.Connector insertion apparatus for connecting a testing apparatus to a unit under testUS7301356Oct 28, 2004Nov 27, 2007Hewlett-Packard Development Company, L.P.Support for a receptacle block of a unit under testUS7345492 *Dec 14, 2005Mar 18, 2008Microprobe, Inc.Probe cards employing probes having retaining portions for potting in a retention arrangementUS7468610 *Oct 12, 2007Dec 23, 2008Kabushiki Kaisha Nihon MicronicsElectrical connecting apparatusUS7616019May 8, 2006Nov 10, 2009Aspen Test Engineering, Inc.Low profile electronic assembly test fixturesUS7709748 *Dec 20, 2007May 4, 2010Hon Hai Precision Industry Co., Ltd.Shielding apparatusUS7786740Oct 11, 2006Aug 31, 2010Astria Semiconductor Holdings, Inc.Probe cards employing probes having retaining portions for potting in a potting regionUS7816933 *Jul 7, 2008Oct 19, 2010Martin BlouinSemi-generic in-circuit test fixtureUS7893705 *Jun 15, 2009Feb 22, 2011Atg Luther & Maelzer GmbhModule for test device for testing circuit boardsUS7944224Jan 8, 2010May 17, 2011Microprobe, Inc.Low profile probe having improved mechanical scrub and reduced contact inductanceUS7952377May 31, 2011Microprobe, Inc.Vertical probe array arranged to provide space transformationUS8081009 *Jul 21, 2009Dec 20, 2011Hong Fu Jin Precision Industry (Shenzhen) Co., Ltd.Printed circuit board testing fixtureUS8111080Feb 3, 2010Feb 7, 2012Microprobe, Inc.Knee probe having reduced thickness section for control of scrub motionUS8203353May 11, 2010Jun 19, 2012Microprobe, Inc.Probes with offset arm and suspension structureUS8230593May 29, 2008Jul 31, 2012Microprobe, Inc.Probe bonding method having improved control of bonding materialUS8324923May 31, 2011Dec 4, 2012Microprobe, Inc.Vertical probe array arranged to provide space transformationUS8415963May 16, 2011Apr 9, 2013Microprobe, Inc.Low profile probe having improved mechanical scrub and reduced contact inductanceUS8685565Jun 29, 2012Apr 1, 20143M Innovative Properties CompanyCathode compositions for lithium-ion batteriesUS8723546Mar 2, 2010May 13, 2014Microprobe, Inc.Vertical guided layered probeUS8907689Aug 30, 2010Dec 9, 2014Microprobe, Inc.Probe retention arrangementUS8907694Dec 3, 2010Dec 9, 2014Xcerra CorporationWiring board for testing loaded printed circuit boardUS8988091Sep 13, 2010Mar 24, 2015Microprobe, Inc.Multiple contact probesUS9013199Apr 1, 2010Apr 21, 2015Dtg International GmbhContact-connection unit for a test apparatus for testing printed circuit boardsUS9097740Feb 9, 2010Aug 4, 2015Formfactor, Inc.Layered probes with coreUS20020093355 *Jan 7, 2002Jul 18, 2002Parker Matthew R.Test probe and connectorUS20030234656 *Jun 25, 2002Dec 25, 2003Stephen WillardWireless test fixture adapter for printed circuit assembly testerUS20040027148 *Aug 5, 2003Feb 12, 2004Crook David T.Method and apparatus for configurable hardware augmented program generationUS20040229505 *May 13, 2003Nov 18, 20043M Innovative Properties CompanyCoaxial probe interconnection systemUS20040257097 *Jun 18, 2004Dec 23, 2004Serge BeaucagVacuum-actuated test fixture for testing printed circuit boardsUS20060097714 *Oct 28, 2004May 11, 2006John MachadoConnector insertion apparatus for connecting a testing apparatus to a unit under testUS20060097739 *Oct 28, 2004May 11, 2006John MachadoSupport for a receptacle block of a unit under testUS20060289720 *Aug 12, 2004Dec 28, 2006Temple-Brown Adrian RHolder for electronic module and method thereforUS20070132466 *Dec 14, 2005Jun 14, 2007Microprobe, Inc.Probe cards employing probes having retaining portions for potting in a retention arrangementUS20070257690 *May 8, 2006Nov 8, 2007Aspen Test Engineering, Inc.Low profile electronic assembly test fixtures and methodsUS20080088327 *Oct 11, 2006Apr 17, 2008January KisterProbe cards employing probes having retaining portions for potting in a potting regionUS20080122466 *Oct 12, 2007May 29, 2008Kabushiki Kaisha Nihon MicronicsElectrical connecting apparatusUS20080265908 *Dec 20, 2007Oct 30, 2008Hon Hai Precision Industry Co., Ltd.Shielding apparatusUS20090015284 *Jul 7, 2008Jan 15, 2009Martin BlouinSemi-generic in-circuit test fixtureUS20090201041 *Apr 7, 2009Aug 13, 2009Microprobe, Inc.Vertical Probe Array Arranged to Provide Space TransformationUS20090251161 *Jun 15, 2009Oct 8, 2009Atg Luther & Maelzer GmbhModule for Test Device for Testing Circuit BoardsUS20090293274 *May 29, 2008Dec 3, 2009January KisterProbe bonding method having improved control of bonding materialUS20100109691 *Jan 8, 2010May 6, 2010Microprobe, Inc.Low Profile Probe Having Improved Mechanical Scrub and Reduced Contact InductanceUS20100182030 *Feb 3, 2010Jul 22, 2010Microprobe, Inc.Knee Probe Having Reduced Thickness Section for Control of Scrub MotionUS20100182032 *Jul 21, 2009Jul 22, 2010Hong Fu Jin Precision Industry (Shenzhen) Co.Ltd.Printed circuit board testing fixtureUS20100220752 *Sep 2, 2010Polaronyx, Inc.810 nm Ultra-Short Pulsed Fiber LaserUS20100289512 *May 11, 2010Nov 18, 2010Microprobe, Inc.Probes with offset arm and suspension structureUS20110006796 *Jan 13, 2011Microprobe, Inc.Probe retention arrangementUS20110062978 *Sep 13, 2010Mar 17, 2011Microprobe, Inc.Multiple contact probesUS20110148451 *Dec 3, 2010Jun 23, 2011Swart Mark AWiring board for testing loaded printed circuit boardUS20130014983 *Jul 14, 2011Jan 17, 2013Texas Instruments IncorporatedDevice contactor with integrated rf shieldUSRE43503Oct 13, 2010Jul 10, 2012Microprobe, Inc.Probe skates for electrical testing of convex pad topologiesUSRE44407Dec 23, 2009Aug 6, 2013Formfactor, Inc.Space transformers employing wire bonds for interconnections with fine pitch contactsCN103777129A *Oct 22, 2012May 7, 2014昆山意力电路世界有限公司Wireless double-end probe function testerEP1722241A2 *Jul 10, 2001Nov 15, 20063M Innovative Properties CompanyHigh bandwidth probe assemblyWO2002073219A2 *Jul 10, 2001Sep 19, 20023M Innovative Properties CoHigh bandwidth probe assemblyWO2011075599A1 *Dec 16, 2010Jun 23, 2011Delaware Capital Formation, Inc.Wiring board for testing loaded printed circuit board* Cited by examinerClassifications U.S. Classification324/750.19, 324/756.01, 324/754.03, 324/763.01International ClassificationG01R31/02, H01L21/66, G01R31/28, G01R1/06, G01R1/073, H05K3/00Cooperative ClassificationH01L2924/0002, G01R1/07328, G01R1/07357European ClassificationG01R1/073B8, G01R1/073B2CLegal EventsDateCodeEventDescriptionMar 20, 1998ASAssignmentOwner name: DELAWARE CAPITAL FORMATION, INC., DELAWAREFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:VAN LOAN, DAVID R.;ST. ONGE, GARY F.;SWART, MARK A.;REEL/FRAME:009055/0735;SIGNING DATES FROM 19980225 TO 19980303Dec 18, 2001CCCertificate of correctionOct 16, 2003FPAYFee paymentYear of fee payment: 4Sep 27, 2007FPAYFee paymentYear of fee payment: 8Jan 2, 2012REMIMaintenance fee reminder mailedMay 23, 2012LAPSLapse for failure to pay maintenance feesJul 10, 2012FPExpired due to failure to pay maintenance feeEffective date: 20120523RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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Sign in Register Dynasty Warriors 3 (PlayStation 2)Discuss Review + Want + Have Contribute MainCreditsScreenshotsReviewsCover ArtReleasesTriviaHintsSpecsAd BlurbRating SystemsBuy/Trade Not an American user?DescriptionAbout 1800 years ago in China, there were three fearless warriors battling for ultimate control over the country. One who sought hegemony. One who sought ambition. One who stood up for righteousness. Veterans who shared the same swarmed under each leader. These stalwart souls waged war across the vast expanse of the land and, like blood thirsty demons, cut down any and all who stood in their way.They followed their own rules, they were both revered and feared by millions... they are the Dynasty Warriors.Dynasty Warriors 3 takes place over the 50 years of war recounted in Romance of the Three Kingdoms, from the first flames of battle in the Yellow Turban Rebellion to the final battle between Wei and Shu on the plains of Wu Zhong. Over 40 characters are playable, both from the three main sides as well as leaders of lesser armies along the way. Each character that belongs to either Wu, Wei, or Shu has their own series of levels where they will turn the tide of battle for their force to win. Each character has their own unique weapon type and magic ability, although they can share weaker variations of weapons with other characters who use the same style of weapon. Weapons and items are dropped randomly from boxes in levels as well as from defeated enemy generals, and each has a range of stats dependent on the difficulty level and the strength of the general. The most powerful weapons and items, however, can only be collected by completing hidden objectives as each character. Characters grow more powerful by collecting stat up items from defeated generals, and doing well in levels rewards points that level up the bodyguards who follow the player character.Most completed levels can be replayed with any character and any side in free mode. An encyclopedia is included as well that details every event and character from the Romance of the Three Kingdoms, even those that never appear in Dynasty Warriors 3.[edit description | view history]Screenshots [9 more | add screenshots]Alternate Titles "真三国無双2" -- Japanese spelling "真三国无双2" -- Chinese title (simplified) "Zhen Sanguo Wushuang 2" -- Chinese title "Shin Sangoku Musou 2" -- Japanese title
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If you have slept in and your stomach signals that it is time for breakfast, you will find everything that belongs in a good breakfast within 50m distance in the new bakery.First class accommodation! The best we have stayed in. Fantastic communication. Spotless accommodation with every amenity. Great little pub next door. Would love to have stayed longer.Tanya2017-05-11T00:00:00ZReally nice place to stay to visit Fulda. Very modern interior and very clean. Loved the placeClaudia2017-05-19T00:00:00ZThe apartment is very clean, extensively equipped and tastefully decorated. We felt very comfortable! Communication with Silke worked out fine. I can recommend the apartment unconditionally and would stay here againThomas2017-04-27T00:00:00ZI had booked the apartment for guests of mine and was thrilled! Communication with Silke worked great and the apartment is absolutely beautiful! Very highly recommended!Jelena2017-04-30T00:00:00ZSmart accommodation, with many highlights, quick and helpful communication with the hostess. The connection to Fulda is also good. A Tegut supermarket can be reached in about 10 minutes, a baker is just around the corner. We had a lovely stay :-)Desirée2017-03-12T00:00:00ZRoom typeEntire home/aptProperty TypeHouseAccommodates5BedroomsFulda, Hessen, GermanyTasteful ground floor apartment in bakeryFromPrice$105 NZD · Tasteful ground floor apartment in bakeryEntire house · 2 beds6 reviews Our little cabin located right in Biophärenreservat Rhon, a stone's throw away from the Red Moor at about 800 meters height on scenic hiking and mountain bike trails. also ideal for cross-country driving. It is rustic furnishings and is heated by two. Secluded location in Biophärenreservat Rhon The garden offers plenty of space to play and relax. Chairs, barbecue, Terrassengaritur and children's swings, sandpit and Weidentipi exist. Also have fenced for guests with horses a paddock on the property. Gladly they can be brought to agreement. Everything Super, location, home, environment, hospitality, service, everything super Gladly again!Stefan2016-12-18T00:00:00ZWe liked it very good at Katja. The house was very clean and it even had a nice bouquet of flowers on the table. The house is situated in isolated location near the forest with views of green meadows. some trails go from the house from directly. You do not even listen to a road. The house can be seen in the photos totally comfortable and great for 4 people. It was all there. For questions we could always contact Katja. Thanks for the nice time!Theresa2016-05-18T00:00:00ZWonderful place. Surrounded by nature. House is rustic and suitable. Hosts very nice and dedicated.Hannes2016-05-30T00:00:00ZA very special weekend with everything you could wish in a unique secluded location with stunning views, plus a more than complete in every way fr house! Katja and her husband are very nice and helpful hosts, no better way to do it. The price is justified, must, however, the wonderfully secluded area like, for some it might be too lonely, for us it was perfect! If it turns out, we like to come again. At this point, again quite cordial greetings to Katja, Annette and ThomasThomas2016-10-09T00:00:00ZWe have booked this hotel because we are total nature lovers and wanted to escape the hustle and bustle of New Year's Eve. That was a great decision! The cottage is absolutely idyllic middle of the Rhoen, you may start immediately and has diverse Wandermöglicheiten. The house is equipped with everything you need and the hosts are very friendly and helpful. It's also nice that dogs are welcome! We felt very comfortable and would definitely come back. We can recommend this accommodation to all who love nature more than luxury.Katrin2017-01-03T00:00:00ZThe "Unique secluded location in the Rhön" says it all. The cottage is quietly nestled between meadows and forest. On foot or by car, the property is a good starting point for activities on site or in the Rhön. The kitchen is generous including a variety of small kitchen appliances. the terrace holds willing extras such as beach chairs, umbrella and seat cushion for Gartenganitur. For two people the bed situation is perfect. In addition, Sleeps be optimized safely. Katja was a friendly and very helpful hostess. We would return.Manuela2016-08-01T00:00:00ZThe hotel is super nice and very quiet in the countryside. The house is very cozy and clean, this top equipped with absolutely everything you could need. Katja is a great hostess. The communication in advance was very straightforward. On our arrival Katja had (without that we would have asked) built a crib for our daughter, and even brought to welcome a few organic eggs for breakfast! Altogether an excellent place to stay with congenial hostess. Absolutely to suggest!Dana2016-08-14T00:00:00ZKatja was super nice, helpful and made everything super nicely prepared. The location is beautiful :) Thank you for this nice birthday :)Nadine2016-10-07T00:00:00ZRoom typeEntire home/aptProperty TypeHouseAccommodates5BedroomsGersfeld (Rhön), Hessen, GermanyJagdhaus - Alleinlage in der RhönFromPrice$194 NZD · Entire home/apt in Gersfeld (Rhön)Entire house · 2 beds10 reviews Welcome to our Finnish blockhouse Berg.erleben Time for rest and nature ... a second home in the Rhön. My accommodation is good for couples, lone adventurers and business travelers. Das Blockhaus verfügt über 2 Ferienwohnungen. Auf Wunsch kann auch eine einzelne Ferienwohnung gemietet werden. Ob Sie zum Wandern, Ski fahren, Fahrrad fahren oder Reiten kommen….lesen, malen oder einfach mal ausspannen möchten, Ruhe finden und Kraft schöpfen.我們喜歡我們在Holzhaeusschen時間,隨時會回來。它是如此愜意,寧靜,浪漫 - 完美的回落。廚房配備了你真的需要,在烤麵包機水壺,咖啡,麵包切片機,煮蛋器等等......已經有很多的一切。一切都乾淨,設備齊全。由於很多的愛和心臟和靈魂在裡面的。特別hervirzuheben我們都親自emofangen,也受到了熱烈的主機採用。感謝你所做的一切,看看你希望很快。Erik&Teresa2016-12-28T00:00:00ZRoom typeEntire home/aptProperty TypeHouseAccommodates4BedroomsHilders, Hessen, GermanyFerienhaus Berg.erleben-Rhön (ganzes Haus o. Fewo)FromPrice$129 NZD · Entire home/apt in HildersEntire house · 2 beds3 reviewsWir begrüßen sie gerne im gemütlichen Ferienhaus Florentina mit einer neuen komplett eingerichteten Einbauküche mit Geschirrspüler und Mikrowelle, Wohn/Esszimmer, Kaminofen (Holz wird kostenlos gestellt), Bad/DU/WC im DG, ein separates WC im EG, Waschmaschine, 2 Balkone, Sat-TV, Parkplatz, Grill, kinderfreundlich, große Spiel/Liegewiese, Liegestühle, NK nach Verbrauch( m³ Wasser 5,50 €, kwh Strom 0,40 € und Heizung wenn an 3 € pro Übern., ideal für 2 Familien.Ein Haustier kann mitgebracht werden. Extra Berechnung/Kaution 15 € pro AufenthaltRoom typeEntire home/aptProperty TypeHouseAccommodates8BedroomsHilders, Hessen, GermanyFerienhaus Florentina in der schönen RhönFromPrice$88 NZD · Entire home/apt in HildersEntire house · 8 beds The house is located in the Biosphere Reserve Rhön 30 km away from Fulda and close of Bavaria and Thuringia Das Haus ist sehr geräumig, im Hof befinden sich genügend Platz zum parken und zum sitzen. Ein grosser Grill steht den Gästen ebenfalls zu Verfügung.Room typeEntire home/aptProperty TypeHouseAccommodates16BedroomsHilders, Hessen, GermanyFERIENHAUS BAUSEWEINFromPrice$452 NZD · Entire home/apt in HildersEntire house · 16 beds1 review Our completely renovated small cottage in the heart of the Rhon accommodate 4 persons. It lies in the resort Hilders in a quiet location. Furnishings: bedroom, children's room, bathroom, kitchen and living room including dining table, porch and garden. Our little cottage (52 sqm) in the heart of the Rhon accommodate 4 people and is ideal for families or couples. The house was completely renovated in 2013 and decorated in a Nordic style. It is family and child friendly. A private parking is available. The house is located on the outskirts of the resort Hilders in a quiet location and is your starting point for an unforgettable holiday Rhon. Equipment: -Bedroom -Nursery With bunk beds -Bathroom with a shower -fully equipped kitchen with small storage room -living Room including dining table - beautiful view of the Milseburg -Veranda With sitting Front Garden with deck chairs, umbrellas and seating unit -own Parking Even bring are bedding & towels! The property is situated in Germany in the heart of the Rhon. It is a few kilometers from Hessen's highest mountain, the Wasserkuppe and the Milseburg away. There are many bike paths, outdoor swimming pool Ulsterwelle and numerous hiking trails in the vicinity. A highlight is the Milseburgradweg extending of Petersberg near Fulda on Hofbieber on a total of 27 km to Hilders. On the former railway line and the 1,172 m long tunnel Milseburg is traversed. But even in winter the Rhön is the perfect place for ski and snowboard fans. Located next to the residential area there is a small ski lift and at Wasserkuppe ski resort not far away all winter lovers will get their money. For children there is near the Rhon Park Raiders, a large indoor play area, the Dream Theater Kleinsassen, and the wildlife park Gersfeld. On the Wasserkuppe there is also a summer toboggan run for young and old. The 30 km away Fulda invites with its special flair to stroll and take a stroll, and offers many historical sights. In Hilders itself contains a Rewe with drinks market, Edeka, a Lidl, and other small shops in the village. Very responsive, kind, and generous hosts. The cottage is as adorable as it looks in the pictures, and the town and country side were beautiful during the summer. I had a lovely time.Kira2015-07-25T00:00:00ZWe wanted a break spontaneously with hope for snow. Perfect! A really cozy cottage in the woods brought us for 3 days of relaxation. Door-kids out into the snow-door-glorious-tobogganing on the Wasserkuppe snowmen (had utensils from the kitchen use (hat)), all in all wunderschön.Wenn the ski lift around the corner would have been running ....: - )Annika2016-11-11T00:00:00ZWe loved this little apartment! Easy to get to and in a beautiful area with peaceful surroundings. Elisa's mum was there to greet us and even supplied a nice bottle of wine :) There is so much to do and see in the area but unfortunately the weather didn't hold up for us. Even with the bad weather there is still a lot of activities. The place was very clean, had everything we needed and the town of Hilders is only a few kilometers away. All in all a great location and we hope to go back someday. Thanks!David & Marita2015-06-21T00:00:00ZWe had a great time in Hilders. The cottage is cosy and private. It's in a nice scenic area. If you want to relax for a while and have some quiet time, this little cottage is perfect! It is a beautiful area to hike and bike. The towns and villages around Hilders are a bit sleepy, but we didn't mind because it was not the purpose of our visit. sietske2016-08-22T00:00:00ZSuper-nice small place in a beautiful location. Elisa and her Familiy were adorable hosts, always responding super-quickly and very warm and helpful when we had questions. The place is cosy for just hanging out and the area is beautiful for hiking, which we did and enjoyed very much. We had a great time there and would always come back. Robert2017-05-21T00:00:00ZA very friendly, nice and uncomplicated contact! It all worked out great!Sabrina2014-08-26T00:00:00ZI was warmly received, everything was totally uncomplicated. The house is magnificent, beautifully furnished, wonderful decorations and a quiet, natural location.Ria2016-05-29T00:00:00ZElisa was a great host! The arrangements for the booking went very fast, the arrival were flexible. We were greeted very nicely. The property was absolutely beautiful and clean. Everything was decorated with attention to detail. The view is very nice and you can relax there well. We can absolutely recommend it so :)Sophia2016-07-28T00:00:00ZRoom typeEntire home/aptProperty TypeHouseAccommodates4BedroomsHilders, Hesse, Germanynordischer Charme in der RhönFromPrice$80 NZD · Entire home/apt in HildersEntire house · 2 beds55 reviewsMy new house is near Fulda (10 min.), Bad Salzschlirf (6 min.) And Lauterbach (20 min.) And is nicely situated between Rhön and Vogelsberg. You will love my accommodation because of the cozy atmosphere, the modern equipment, the surroundings, the immediate proximity to Fulda. The bright room has a comfortable bed, a wardrobe, a TV and Wi-Fi. My accommodation is good for holidaymakers, transit people, hikers, cyclists, musicals, trade fair guests etc.The house has been finished only in 2013 and modern and high quality furnished. From here you can quickly get to Fulda without living directly in the city and has a free car park as well as a shelter for bicycles. There is a ventilation system and therefore I ask if at all required to open the windows only briefly especially in the winter months.The house stands in a new development with quiet neighbors. There are, of course, neighbors who mow the lawn or work on their houses. ;-) We are all happy about ruthless guests, who can keep the night rest. ;-) In about 10 minutes one is by car in Fulda, in 20 minutes in Lauterbach. In the village there are several shopping possibilities.To Begruessung us water was offered with fresh mint from the garden, super flavorful. The house is very clean, beautifully and very elegant. The fresh flowers, even in our bathroom a little nosegay, what a nice touch. When Gudrun we really felt something of well that we would love to come back and can recommend this beautiful house highly enough Almuth2016-08-22T00:00:00ZLovely and calm. Organized and professional. Excellent hostess. Nice to have the town center Grosenauer 1km away and grocery stores even closer; a few hundred meters. If you're staying here and interested in Fulda, it's best to have a car.Melanie2017-05-04T00:00:00Z I had the pleasure of staying in Gudrun’s house for a night. I felt most welcome and everything from pre-visit communication, via reception to the stay itself worked out smoothly. I was offered a hot drink upon arrival, had several nice chats with Gudrun who told me about the area, and time to work in my room where the internet connection was excellent. The house is situated in a green and quiet area with easy access to Fulda city, which is a 10 minute drive away. Gudrun is a friendly host who made an effort out of making my stay pleasant. I can warmly recommend this Air BandB. Malene2016-11-20T00:00:00ZWe were warmly welcomed by our hostess Gudrun. Have immediately get chilled drinks and stow our luggage in our room. She was very nice and accommodating. In the morning we had breakfast together. Again, has not provided all the hostess, just rolls we ordered. We would not hesitate to stay with her again!Philipp2016-08-29T00:00:00ZEverything was perfect at Gudrun's place. Nice, clean and cannot be more quiet room. View on a green field. The house looks brand new and so does everything inside. A very pleasant stay and good talks with Gudrun. I'll come again here if I'm in the area for sure. Since it is a bit remote, but not isolated, you do need a car, but the little downtown is at walking distance (i think around 10-15 mins walk), and there is even an excellent Italian restaurant. The area looks also extremely safe and it's about 20 mins to Fulda by car.Stephane2017-05-12T00:00:00ZMeine erste Airbnb-Erfahrung und gleich ein Volltreffer. Ich habe drei Tage in einem sehr geschmackvoll eingerichteten, modernen neuem Haus übernachtet. Es fehlte an nichts. Ein eigenes schönes Bad und ein gemütlich eingerichtetes Gästezimmer haben mir ausgesprochen gut gefallen. Für Handtücher und Bettwäsche war ebenfalls gesorgt. Für Gudrun war es selbstverständlich, dass ich sämtliche Einrichtungsgegenstände ihres Hauses mit benutzen durfte. Auch das hat mir sehr gut gefallen. Gudrun selbst ist eine sehr offene, freundliche und unkomplizierte Gastgeberin. Es gab Raum für sehr nette Gespräche und gleichzeitig auch für Rückzug und Privatssphäre. Für mich war alles perfekt und ich bedanke mich herzlich für die entgegengebrachte Gastfreundschaft. Ein Hotel kann so etwas nicht bieten. Ich wünsche Gudrun viele weitere nette Gäste.Falk2016-10-13T00:00:00ZWir haben uns sehr wohl gefühlt und waren beeindruckt von Gudruns Engagement. Jeder Wunsch wird erfüllt, der Restaurant Tipp war super und in der Nähe. Gudrun ist eine tolle Gastgeberin und falls Ihr auf der A7 von Norden nach Süden (oder umgekehrt) unterwegs seid, unbedingt hier übernachten! Super Anbindung an die Autobahn, zentral und trotzdem ruhig. Und ein total hübsches Ambiente!Kerstin2017-01-28T00:00:00ZОчень хороший прием, с холодными напитками и хороший кофе. В доме очень современный и шик. Комната для гостей очень красиво оформлен. У нас была большая ванная комната только для нас! Мы чувствовали себя Гудрун хорошо! Утром вам предложат завтрак с домашним вкусным Marmeladen.Für поступательное путешествие мы уже получили свежие помидоры из сада уплаченной Мы рассчитываем на обратном пути. Тогда мы останемся там снова. ☺Susanne2016-09-04T00:00:00ZRoom typePrivate roomProperty TypeHouseAccommodates2BedroomsGroßenlüder, Hessen, GermanyOWN Bathroom*NEAR Fulda*Bright*ComfortableFromPrice$40 NZD · OWN Bathroom*NEAR Fulda*Bright*ComfortablePrivate room · 1 bed27 reviewsHallo und Herzlich Willkommen in unserem Haus. Die Ferienwohnung bietet für fünf Personen Platz und liegt in einer verkehrsberuhigten Straße.Die Ferienwohnung besteht aus 2 Doppelzimmern und 1 Einzelzimmer, je mit TV. Des Weiteren steht eine Küche inkl. Herd, Backofen, Mikrowelle, Kühlschrank, Kaffeemaschine usw., ein Wohnzimmer mit TV, ein Bad mit Dusche, Badewanne und WC sowie ein separates WC und ein großer Balkon zur Verfügung.Dirlos, gelegen im Vorland der Rhön, ist ein Ortsteil der Gemeinde Künzell im osthessischen Landkreis Fulda. Die Barockstadt Fulda ist lediglich 7 km entfernt und bietet Sehenswürdigkeiten wie den Dom, die Orangerie, das Stadtschloss inkl. Park, die schöne Altstadt usw. Auch das über die Grenzen hinaus bekannte Schloss Adolphseck mit seinem großen Park indem das "Fürstliche Gartenfest" alljährlich stattfindet, ist in unmittelbarer Nähe. Das Therme & Spa Resort "Sieben Welten" ist in nur 3 km zu erreichen und lädt zur Erholung und Entspannung ein. Die Wasserkuppe, auch der Berg der Flieger genannt, ist in 20 Minuten mit dem Auto zu erreichen. Das Naturschutzgebiet "Schwarzes Moor" sowie die Milseburg, das Kloster Kreuzberg, das Kletterparadies "Steinwand" und viele Sehenswürdigkeiten mehr, lassen sich in nur wenigen Autominuten erschließen.We had a really great time with Rosemarie. The house was large, very clean and comfortably furnished. Outstanding price-performance ratio. Rosemarie took care very good and friendly to us, gave us tips around and even freshly baked cakes brought up along with many other little things that were there already when we arrived. :) If we're the next time in Fulda, we love coming back! LG, Safi + JanJan2016-03-18T00:00:00ZIt was nice at Rosemarie A great big apartment flashes clean. Rosemarie is really friendly and was very accomodating. slavica2015-05-17T00:00:00Z We felt very comfortable in the very well maintained, super-equipped apartment, THANK, Rosi! The location is good, central and quiet. Even our bikes we could park in the shed. The only thing missing in the top apartment is the dishwasher. But we survived itFelix2016-08-16T00:00:00ZWe received a very nice and accommodating and felt all around felt at home! Rosie had some very helpful tips for us where we could be pampered us with delicious food and what attractions are highly recommended! Many thanks for that! That was a super nice long weekend!Klaus2016-05-10T00:00:00ZVacation as one wishes to. Recreation, hiking and culture, we can enjoy here. Rosemarie keeps ready a very nice apartment. Fulda is a short drive away where you will find a rich cultural. Hiking is very feasible in the Rhön, there are many beautiful ways. Rosemarie was a great hostess, very friendly and helpful. Gladly again :)Matthias2016-08-01T00:00:00ZWe were 3 nights in Kürzell. Rosi is a very good hostess and she made us feel extremely welcome and explained everything in the apartment. The apartment was very clean, spacious and has everything you need to feel at home. The rooms are large and there was plenty of room for all of us, three girls and a baby. The apartment is not far from three supermarkets (REWE, Lidl and Aldi) and a bakery offering delicious weekend brunch. Who wants to make a wellness trip, can drive to Therme Seven Worlds, 7 min from the apartment far by car: 0). Fulda has a very nice chateau with park and cozy cafes with delicious cakes. Rosi has always responded very quickly to my messages. Everything works fine. Rosi was very flexible and has verreinfacht our trip with baby. We have felt ourselves very well and recommend to all who want to Rosi after abbreviation / Fulda. Thank you Rosi!Frank&Karima2015-10-25T00:00:00ZRosi accommodation exceeded our expectations fully met: plenty of space, well equipped and very cozy. Moreover, Rosi is a super hostess: We were warmly welcomed and provided with advice to region and destinations. In short: Highly recommended, gladly again!Christopher2015-06-22T00:00:00ZIt was just great at Rosi, she is a great hostess and gave us very warm welcome. The apartment was spotlessly clean and there was simply everything you need. A large living room, a large bathroom with bath and shower, three bedrooms, a kitchen and a balcony contributed to relax. On the fourth Advent Rosi has even brought us a plate of homemade cookies. We would definitely come back. Julia2014-12-24T00:00:00ZRoom typeEntire home/aptProperty TypeHouseAccommodates5BedroomsKünzell, Hesse, GermanyDas Tor zur Rhön (Ferienwohnung)FromPrice$65 NZD · Entire home/apt in KünzellEntire house · 4 beds19 reviewsZimmer in Einliegerwohnung mit Bad. Gertenblick. In ruhiger Wohnlage. Zu Fuß zumThermalbad "Sieben Welten" 4 km bis Fulda BahnhofRoom typePrivate roomProperty TypeHouseAccommodates1BedroomsKünzell, Hessen, GermanyZimmer GartenblickFromPrice$105 NZD · Private room in KünzellPrivate room · 1 bed12121 – 18 of 24 Home RentalsAverage 4.9 out of 5 stars from 678 guest reviewsEnter dates to see full pricing. Additional fees apply. Taxes may be added.Germany>Hesse>DipperzFrankfurtNurembergHeidelbergKasselBonnMainzWillingenBorgerende-RethwischJenaGiessenPoingGorlitzMapFiltersTermsPrivacySite MapAirbnbmag
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Business benefit <ul><li>Continuous improvement of the quality of information </li></ul><ul><ul><li>Consumers find and remix information the way they think </li></ul></ul><ul><ul><li>Producers find information about the way consumers think </li></ul></ul>Consumers Producers Published information Consumer attention & feedback Navigation and tagging Navigation and tagging User and customer reaction <ul><li>“ In 3 clicks, I drilled down through 9700+ sites, to a more specific set of 98 things, down to one I found useful.” </li></ul><ul><li>“ Our ability to quickly and easily deliver the right content from our thousands of online example programs is invaluable to our customers.” </li></ul><ul><li>“ P ermet à mon sens d'exploiter au mieux toute la puissance du bookmarking social ” (“In my opinion, it allows me to best exploit all the power of social bookmarking”) </li></ul><ul><li>“ Это дико удобно!” (“It is wildly convenient!”) </li></ul><ul><li>“ 是很有趣的” (“Is very interesting”) </li></ul> Facts about Siderean <ul><li>Founded July 2001 </li></ul><ul><li>17 employees </li></ul><ul><li>Venture backed by Clearstone, Red Rock, Innocal </li></ul><ul><li>Headquartered in El Segundo, CA </li></ul><ul><li>Seamark Navigation Server 3.5 in production at customer sites </li></ul><ul><li>Patents pending </li></ul>
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This trailer of Jet Li’s 1993 hit, “Tai Chi Master” is provided courtesy of http://uk.filmtrailer.com Jet Li gave tai chi a boost once before. In 1993 he starred in the film “Tai Chi Master” (called “Taiji Zhang Sanfeng 太極張三豐“ in China) in which he plays the mythical daoist hermit who is often credited with the creation of Tai Chi Chuan. In the USA, the movie was called “Twin Warriors”, clearly a marketing decision by executives who believed, probably correctly, that the movie going public in the USA would not associate tai chi with anything other than mild callisthenics for old people. This misperception is extremely widespread, partly because tai chi is an exercise that is particularly good for seniors. The thorn in Jet Li’s side (one that I share) is that the general population does not think of it as being any more than that. The truly profound depth and power of tai chi is simply lost on most people.
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• 8 mile drive to State Line, and casinosKamertypeGehele woning/appartementType woningWoningGeschikt voor6SlaapkamersSouth Lake Tahoe, Californië, Verenigde StatenTahoe Stone Cabin by the waterVanafPrijs€256 · Tahoe Stone Cabin by the waterGeheel huis · 3 beddenCharming Tahoe Cabin. The great room has a warm family feel plus a big rock fireplace! The upstairs bedroom is a childs delight.Large laundry room and 2 more bedrooms on the 1st floor. The kitchen is well equipped for those family gatherings. Walk to Rubicon's famed gold sand beach and pier.Bedroom 1, has a queen bed 2nd bedroom has 2 singles 3rd br has 2 singles.It's super cool to live in this house.Shiyu2016-12-26T00:00:00ZI loved this cabin! Super spacious and well equipped with dishes, pots and pans, blankets, pillows, and towels. Loved the homey feeling. The location is great because Homewood ski resort was only 10 min away and if you stay in the summer Meeks Bay is very close too. I would definitely stay again. Linda2017-02-20T00:00:00ZKamertypeGehele woning/appartementType woningWoningGeschikt voor7SlaapkamersTahoma, Californië, Verenigde StatenMeeks Bay GetawayVanafPrijs€168 · Meeks Bay GetawayGeheel huis · 5 bedden3Super nice home with incredible kitchen. Ideal for entertaining. Open layout and very comfortable. Great for families and anyone looking to relax. Minutes to Homewood resort! 30 to Squaw. Snow is falling come ski!! The HOA beach has soft white sand, and gradual depth water to lake that makes it ideal for kids and beach fun! The views are amazing as is the house setup. NOW WITH HOT TUB ON FIRST DECK WITH LAKE VIEWS!Rubicon Bay, Lake Tahoe Panoramic Lake Views, Close to Homewood Skiing, Beach Access to one of the best beaches on the lake! The bedrooms are spacious and include quality mattress, 1000 count bamboo linens, and high quality down comforters. A huge downstairs bedroom, aka “the bunker", has 2 bunk beds with one full size bed below and sleeps 5 comfortably. Also provided are beach chairs, towels, pack and play, and a wireless internet connection. There is free access to majestic homeowner's beach, one of the most beautiful on the lake, with white sand, pier and volleyball courts. Other amenities include gas BBQ on porch, patio furniture, ping-pong table, board games, books, beach toys, sleds (for the winter).Esta fue mi primera experiencia con el de Airbnb después de haber trabajado para la compañía durante algún tiempo. La lista era todo lo que pedimos y más. El lugar era exactamente como lo anuncian y remodelada con electrodomésticos de gama alta y la casa tenía un montón de espacio. Reservamos el lugar para unas vacaciones en familia y mi familia nos encantó el lugar. Las vistas son increíbles. Silvia era grande. Se aseguró de que todo ha ido bien antes, durante y después de la reserva para asegurarse de que estábamos contentos con el alojamiento. Silvia ha puesto el listón muy alto para otros huéspedes. Yo recomendaría ella a otros huéspedes y pensamos volver para un segundo viaje.Joey 2012-06-18T00:00:00Z西尔维娅是伟大的。房子是美丽的,准确的发布为代表。意见和厨房是特别大,我们所使用的海滩和Kayak的每一天。西尔维娅提供的一切非常明确的指示,是非常敏感的问题,我们(所有通过电子邮件发送)。我会很高兴有西尔维娅作为未来的主机。Edward2015-08-24T00:00:00Z西尔维娅是一个美妙的主机。她非常办理登机手续的指令,家规,并迅速对来电或消息的反应做好准备。房子本身是高档,宽敞,并有一流的设施来。都肯定会考虑返回了一个长假或撤退。Ryan2017-01-16T00:00:00Z美丽的景色!非常干净,舒适。主机在整个住宿非常有帮助的。Stephanie2017-04-16T00:00:00Zcasa de Lake Tahoe de Silvia é lindo. É apenas como mostrado nas fotos, mas ainda melhor em pessoa. A casa se encaixam no nosso grupo confortavelmente e tudo na casa foi bem cuidados. A vista é espetacular! Tivemos um par de dobras menores que ocorreram durante a estadia, que foi realmente fora do controle de qualquer um, mas Silvia e seu marido foram muito fácil trabalhar com e responsivo a quaisquer questões e preocupações que tivemos, apesar do fato de que eles não eram fisicamente lá si. Nós ficamos muito agradecidos por isso. No geral foi uma grande experiência e a casa realmente a viagem memorável. Eu recomendo Silvia e sua casa a qualquer dos meus amigos e família, e gostaria de ficar lá novamente.Felicia2013-01-04T00:00:00ZVery nice property close to the lake. Instructions were accurate, everything in the house worked well. Really liked the living space ... we were 4 families with lots of kids - could just leave the kids in the open space to do their thing. Liked it so much that we're considering making this an annual thing!Rohit2012-09-04T00:00:00Z塔霍房子是别出心裁,西尔维娅是一个美妙的主机。这房子是现代,舒适,方便地前往一个伟大的海滩。西尔维娅是一个很好的沟通,并有你需要准备并提前发送给您的时间的所有信息。次要问题进行及时处理。我们不能等待返回!Rob2014-07-07T00:00:00ZKamertypeGehele woning/appartementType woningWoningGeschikt voor12SlaapkamersSouth Lake Tahoe, Californië, Verenigde StatenSummer is coming and filling up! Book Now!VanafPrijs€513 · Summer is coming and filling up! Book Now!Geheel huis · 7 bedden8This newly renovated, 4BR/3BA contemporary home on Rubicon Bay wows with water and mountain views from the decks, plus a spectacular kitchen that quickly becomes a favorite hangout. Ideal for families, couples on a getaway, or groups of up to 11.With a perfect location in the southwestern corner of Lake Tahoe, this 4BR/3BA Rubicon Bay rental is ideal for both adventure and relaxation alike. Access hiking, swimming and skiing in minutes, and drive just a few miles to top-notch dining at the West Shore Café in Homewood. All TurnKey rentals follow local/state tax rules. Each reservation includes applicable taxes, cleaning fee, and Property Damage Protection policy.KamertypeGehele woning/appartementType woningWoningGeschikt voor11SlaapkamersTahoma, Californië, Verenigde Staten4BR Lake View w/ Double DecksVanafPrijs€214 · 4BR Lake View w/ Double DecksGeheel huis · 4 beddenNIEUWIMPORTANT: So we may keep your Airbnb service fees as low as possible, we DO NOT include the 10% occupancy tax or the $50 property protection fee in the rent. You will need to pay the tax and fee after booking with Airbnb, when you sign Tahoe Luxury Properties' Vacation Rental Agreement. Airbnb will charge you for the rent, cleaning fee and their service fee; Tahoe Luxury Properties will separately charge you the 10% occupancy tax and $50 property protection fee. We hope you are pleased!Enjoy a break from your hectic pace at Sittin' on the Dock of the Bay, a charming four bedroom lakefront with a detached guest house. Relax and enjoy the breathtaking lake views from the dining room or step outside to the white sandy beach and the HOA pier shimmering in the sun. The kitchen offers sweeping views of the lake while the scent of culinary delights drifts in from the adjoining kitchen. The master bedroom and family room take full advantage of the southern windows for prime sunrise views glistening over the mountains. Sittin' on the Dock of the Bay is a cozy and classy Old Tahoe home, that is sure to provide a wonderful vacation experience. So go ahead...set sail for your idyllic vacation full speed. 7 Miles to Tahoe City for Summer Farmers Market, Free Concerts, Beach Access, Truckee River Rafting, Shopping, Bike Trails, RestaurantsWhat more could I ask for... the property was in Rincon Bay with a gorgeous view of the treeline. Community was easy to get to and pictures were accurate. Instructions are neatly kept in a folder by the kitchen. Staff was attentive to emails and calls. Not shown in the pictures is a separate apartment. Amazing!Gabriel2016-05-09T00:00:00ZBeautiful view- comfortably fit our 11 person group Isaac2016-10-17T00:00:00ZMy family enjoyed a great weekend in Tahoe. Amazing lakefront property! Steps away from the beach. Spacious home. Sleds for this kids to use on the snow hill next to the beach. Tons to do in the home- Boardgames, billiards, and ping pong. Kitchen was stocked with all of the cookware, utensils, and place settings needed for our meals. Separate guest house was a great space. The host was extremely accommodating and a pleasure to work with. Very smooth reservation process. I highly recommend and look forward to returning to Tahoe Luxury Properties!!JR2016-02-28T00:00:00Zstayed 2nd week of Oct. was very fortunate to have beautiful beach weather which you can't always count on in Oct. The main house was a perfect layout for our family of twelve. The convenience of walking down a few stairs to the beach was amazing, especially with children. Because of this, we only left the property one day. The kids and adults loved playing on the lake. The photos on the site show a few kayaks on the beach in front of the house which made me believe some of them went with he use of the house which they did not. They belonged to surrounding neighbors. Fortunately a nice neighbor offered for us to use theirs. One of the reasons i chose the property was for being able to kayak without leaving the beautiful beach we were paying for. The detached apt. is amazing and was perfect for a couple. The photo shows a wonderful outdoor fire pit which i envisioned doing smore's with our grandchildren. after i booked the property, i was advised that the fire pit cannot be used because of the drought. I understand why, but thought it would have been nice to disclose this info on the site or remove the picture. Over all we had a wonderful time with our kids and grand-kids. Barbara2016-10-12T00:00:00Z这是一个美丽的家园与湖泊和无可比拟的美景。在我们看来,这是湖的最漂亮的部分。有这么大的雪,今年以来,房地产视线从画面非常不同。房子的里面正是我们从照片上虽然预期。我们能够滑雪霍姆伍德和斯阔谷和雪橇在家里。这是一个美妙的一周与家人。Angie2017-03-18T00:00:00ZEsta propiedad fue incluso mejor de lo anunciado! Perfectamente situado en el agua con una hermosa playa y el muelle. El hogar y la casa de huéspedes eran muy amplias, con excelentes instalaciones. El jacuzzi tiene una increíble vista sobre la playa y la terraza exterior es enorme, capaz de albergar un montón de gente. Lo recomiendo altamente este lugar. El único inconveniente es que está a unos 30 minutos en coche de South Lake Tahoe. Pero el aislamiento es muy bueno.Alain2016-05-31T00:00:00ZWe fell in love with this place -it's stunning views and the silence. Went skiing, hopped into the hot tub and chilled at the wonderful fireplace. Can't wait to come back again!Simon2017-04-21T00:00:00ZKamertypeGehele woning/appartementType woningWoningGeschikt voor12SlaapkamersTahoma, Californië, Verenigde StatenSittin' On The Dock Of The BayVanafPrijs€555 · Sittin' On The Dock Of The BayGeheel huis · 6 bedden7 · SuperhostCharming cabin in the woods of pristine Rubicon Bay. Short walk to Rubicon Bay's beautiful private, sandy beach with pier and volleyball court. Three bedrooms, 1.5 baths, sleeps 6. Close drive to Emerald Bay, Sugar Pine Pt., and DL Bliss State.Charming, rustic cabin with classic Tahoe ambience and Swiss chalet design, just a short walk from Rubicon Bay's pristine beach. Rubicon Bay is one of Tahoe's most beautiful areas. With a private, sandy beach with a pier for boating and a sand volleyball court, it's known as one of the nicest areas in Tahoe. It's a quiet community that's a close drive to Emerald Bay, Sugar Pine Point, DL Bliss State Park, Chamber's Landing or Homewood. It's also one of the only areas in Tahoe with an easy drive to both North and South Shore restaurants, ski areas and casinos. The cabin is located on the lake side of Hwy 89, in the center of the highly sought-after Rubicon loop. It's just a five minute walk to the beach. The pier is available for boat users, and buoy rentals are available through Rubicon Tahoe Owners Association. This is a great family vacation rental with three bedrooms and 1.5 baths. There's a kitchen/dining room/living room that's open and comfortable with knotty pine interior and rustic furniture. The dining room table has ample room, and there's a large deck with a BBQ grill and outdoor dining set that's a perfect setting for enjoying any time of day. There's a small bedroom ideal for kids, with a bunk bed, futon and adjacent half bath. And there are two spacious bedrooms with a queen and king bed, plus one full bath, all with partial lake views. Maximum # of adults: 6We had the best experience at Marc's place. Lake Tahoe is absolutely stunning and the walk to the beach was quick and easy. Once on the beach, it was pleasant and not crowded. The beach was clean and had the crystal clear water. The cabin was cute and rustic and had everything we needed for the weekend. I 1000% recommend this place if coming to Tahoe. Cristin2016-09-05T00:00:00ZWe had a wonderful time at Marc and his family's cabin. Marc was very attentive both before and during our stay. He even had internet installed some days before and let us know so that we could have wifi access during our stay. The cabin is very well equipped with everything one needs to spend a good time there. The house was very clean and comfortable. It was great to have access to washer and dryer so that we could go back home with everything clean (no extra work upon our arrival back home :) The beach is amazing!!! It is a private sandy beach (a treasure in the area), and the lake has very few rocks and they are big so, it is very easy to swim and for the kids to play. And the view is breathtaking. A real gem! Thanks Marc and Family for making our stay such a pleasant one!Maria2015-06-29T00:00:00ZWe had a great family vacation at Marc's cabin. Marc provided us with all the information needed prior to our stay. We found the house just like it looks on the pictures. Located in a quite neighborhood with easy access to a wonderful private beach with volleyball court, the cabin is cozy and comfortable and has a great outdoor patio. The house is well equipped with everything you'll need for your stay, including wi-fi. We'd love to come back sometime. Thank you so much!Monika2015-08-01T00:00:00ZMarc is a welcoming and carrying host. He made sure we are well informed before our visit and gave us hints about the area during our stay. We felt genuinely at ease to communicate with him personally. What ever was amiss he had gladly offered solutions and help. His family cabin stands in a very private and quite neighborhood away from the tourist crowds. The house is small and clean. It felt very comfy for one family who prefers its privacy. Upstairs bedrooms have a nice forest views through the tall windows facing East. Plenty of shade from the surrounding firs, yet really pleasant patio sitting, gentle sun rays and birds chirping. Our family had many wonderful breakfasts and dinners there al fresco. We felt lucky to stay in such a place that offered us a safe comfort after long days by the lake. Great thanks to Mark for sharing his little gem with my family. We fell in love with Tahoe and will be back.Tatyana2014-08-12T00:00:00ZMy family of 4 enjoyed our stay at Marc's cabin. It is exactly as depicted in the site, and the location was very private and the beach was awesome compared to the more crowded public beaches. The fridge was broken when we arrived but Marc was very responsive and made up for the minor setback. Our family had a great experience at Marc's cabin and will be back as the location and atmosphere can't be beat at any casino or hotel in South Tahoe. Bryan2015-08-15T00:00:00ZKamertypeGehele woning/appartementType woningWoningGeschikt voor6SlaapkamersTahoma, Californië, Verenigde StatenAmazing Cabin, Short Walk to BeachVanafPrijs€227 · Amazing Cabin, Short Walk to BeachGeheel huis · 5 bedden7HOUSE FRONTS SANDY BEACH ON LAKE TAHOE'S WEST SHORE. House fronts private HOA Beach & Pier. Buoy provided for your boat. Upscale Lake Tahoe vacation rental offers expansive Lake views, and easy beach access. Just minutes to Homewood Resort for family-friendly winter skiing. This Rubicon beach home comfortably accommodates 1-8 people. Dog may be considered by prior arrangement only.
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Patent US4621334 - Personal identification apparatus - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsA method and apparatus is disclosed for verifying whether a particular individual is a member of a predetermined group of authorized individuals. The subject apparatus is particularly suited for controlling access to a secure resource such as a computer network or data base. In accordance with the subject...http://www.google.com/patents/US4621334?utm_source=gb-gplus-sharePatent US4621334 - Personal identification apparatusAdvanced Patent SearchTry the new Google Patents, with machine-classified Google Scholar results, and Japanese and South Korean patents.Publication numberUS4621334 APublication typeGrantApplication numberUS 06/526,858Publication dateNov 4, 1986Filing dateAug 26, 1983Priority dateAug 26, 1983Fee statusPaidPublication number06526858, 526858, US 4621334 A, US 4621334A, US-A-4621334, US4621334 A, US4621334AInventorsJohn D. GarciaOriginal AssigneeElectronic Signature Lock CorporationExport CitationBiBTeX, EndNote, RefManPatent Citations (15), Non-Patent Citations (6), Referenced by (151), Classifications (20), Legal Events (6) External Links: USPTO, USPTO Assignment, EspacenetPersonal identification apparatus Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS3643219 *Mar 13, 1970Feb 15, 1972Raytheon CoVisual display systemUS3798605 *Jun 30, 1971Mar 19, 1974IbmCentralized verification systemUS3806882 *Nov 13, 1972Apr 23, 1974A ClarkeSecurity for computer systemsUS3872443 *Jan 26, 1973Mar 18, 1975Novar Electronics CorpIndividual identification apparatus and method using frequency responseUS3958081 *Feb 24, 1975May 18, 1976International Business Machines CorporationBlock cipher system for data securityUS4000510 *Jun 2, 1975Dec 28, 1976Ampex CorporationSystem for storage and retrieval of video information on a cyclical storage deviceUS4028733 *Jul 7, 1975Jun 7, 1977Telebeam CorporationPictorial information retrieval systemUS4101959 *Oct 22, 1976Jul 18, 1978Informer, Inc.Terminal display and storage systemUS4107775 *Mar 16, 1976Aug 15, 1978Novar Electronics CorporationHuman body comparison using driving point parametersUS4197524 *Dec 29, 1978Apr 8, 1980General Electric CompanyTap-actuated lock and method of actuating the lockUS4206315 *Jan 4, 1978Jun 3, 1980International Business Machines CorporationDigital signature system and apparatusUS4229818 *Dec 29, 1978Oct 21, 1980International Business Machines CorporationMethod and apparatus for enciphering blocks which succeed short blocks in a key-controlled block-cipher cryptographic systemUS4246638 *Sep 14, 1978Jan 20, 1981Thomas William JMethod and apparatus for controlling usage of a programmable computing machineUS4455588 *Apr 29, 1982Jun 19, 1984Nissan Motor Company, LimitedElectronical unlocking method and systemUS4499462 *Sep 2, 1981Feb 12, 1985Battelle Institut E.V.Circuit arrangement for the electronic code locking of locks* Cited by examinerNon-Patent CitationsReference1"Combination Lock", Hobby Electronics, vol. 3, No. 12, Oct. 1981, pp. 21-23.2 *Combination Lock , Hobby Electronics, vol. 3, No. 12, Oct. 1981, pp. 21 23.3Saltzer, J., "The Protection of Information in Computer Systems", Proceedings of the IEEE, vol. 63, No. 9, Sep. 1975, pp. 4.13-4.43.4 *Saltzer, J., The Protection of Information in Computer Systems , Proceedings of the IEEE, vol. 63, No. 9, Sep. 1975, pp. 4.13 4.43.5Sedgwick, G., "The Body Code Machines", The World, Jan. 9, 1983, pp. 9-10.6 *Sedgwick, G., The Body Code Machines , The World, Jan. 9, 1983, pp. 9 10.* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS4805222 *Dec 23, 1985Feb 14, 1989International Bioaccess Systems CorporationMethod and apparatus for verifying an individual's identityUS4817140 *Nov 5, 1986Mar 28, 1989International Business Machines Corp.Software protection system using a single-key cryptosystem, a hardware-based authorization system and a secure coprocessorUS4860347 *Aug 10, 1988Aug 22, 1989Costello Lloyd MPhone screen security systemUS4951249 *Mar 23, 1989Aug 21, 1990Harcom Security Systems Corp.Method and apparatus for controlled access to a computer systemUS5068798 *Mar 3, 1989Nov 26, 1991Precision Systems, Inc.Process environment monitoring systemUS5099444 *May 9, 1989Mar 24, 1992Ansan Industries, Ltd.Peripheral data acquisition transmission and control deviceUS5220522 *Feb 7, 1992Jun 15, 1993Ansan Industries, Ltd.Peripheral data acquisition, monitor, and control device for a personal computerUS5270945 *Sep 4, 1991Dec 14, 1993Precision Systems, Inc.Process environment monitoring systemUS5276441 *Jan 14, 1992Jan 4, 1994Sharp Kabushiki KaishaCommunication charge manageable digital communication unit and a method of managing communication chargeUS5333152 *Jul 22, 1991Jul 26, 1994Wilber James GElectronic mail remote data transfer systemUS5386104 *Dec 27, 1993Jan 31, 1995Ncr CorporationSystem and method for detecting user fraud in automated teller machine transactionsUS5386360 *Apr 1, 1992Jan 31, 1995Ansan Industries Ltd.Peripheral data acquisition, monitor, and adaptive control system via personal computerUS5400246 *Aug 5, 1992Mar 21, 1995Ansan Industries, Ltd.Peripheral data acquisition, monitor, and adaptive control system via personal computerUS5452234 *Dec 13, 1993Sep 19, 1995Precision Systems, Inc.Process environment monitoring systemUS5465084 *Sep 22, 1994Nov 7, 1995Cottrell; Stephen R.Method to provide security for a computer and a device thereforUS5524065 *Jul 25, 1994Jun 4, 1996Canon Kabushiki KaishaMethod and apparatus for pattern recognitionUS5557686 *Jan 13, 1993Sep 17, 1996University Of AlabamaMethod and apparatus for verification of a computer user's identification, based on keystroke characteristicsUS5586066 *Jun 8, 1994Dec 17, 1996Arch Development CorporationSurveillance of industrial processes with correlated parametersUS5721765 *Nov 30, 1995Feb 24, 1998Lucent Technologies Inc.Personal identification number security system incorporating a time dimensionUS5905780 *Jul 25, 1994May 18, 1999Dynaflo Systems Inc.Electronic mail systemUS5982357 *Mar 12, 1997Nov 9, 1999Key Tronic CorporationComputer keyboard systems and methods for determining excessive key stroke forceUS6062474 *Oct 2, 1997May 16, 2000Kroll; Mark WilliamATM signature security systemUS6151593 *Apr 14, 1998Nov 21, 2000Postech FoundationApparatus for authenticating an individual based on a typing pattern by using a neural network systemUS6175923Dec 8, 1998Jan 16, 2001Senetas Corporation LimitedSecure system using images of only part of a body as the key where the part has continuously-changing featuresUS6334121 *Mar 12, 1999Dec 25, 2001Virginia Commonwealth UniversityUsage pattern based user authenticatorUS6405314Sep 29, 2000Jun 11, 2002Ecryp, Inc.Secure system using images of only part of a body as the key where the part has continuously-changing featuresUS6405922May 15, 2000Jun 18, 2002Kroll Family TrustKeyboard signature security systemUS6442692 *Jul 21, 1998Aug 27, 2002Arkady G. ZilbermanSecurity method and apparatus employing authentication by keystroke dynamicsUS6509847Sep 1, 1999Jan 21, 2003Gateway, Inc.Pressure password input device and methodUS6583720 *Feb 22, 1999Jun 24, 2003Early Warning CorporationCommand console for home monitoring systemUS6775777Jan 26, 2001Aug 10, 2004Ecryp, Inc.Secure system using images of only part of a body as the key where the part has continuously-changing featuresUS6792542 *Nov 8, 2000Sep 14, 2004Verance CorporationDigital system for embedding a pseudo-randomly modulated auxiliary data sequence in digital samplesUS7043640Feb 14, 2001May 9, 2006Pritchard James BApparatus and method for protecting a computer systemUS7206938Nov 26, 2002Apr 17, 2007Imagic Software, Inc.Key sequence rhythm recognition system and methodUS7305559 *Dec 4, 2003Dec 4, 2007Lenovo Singapore Pte Ltd.Software method for improved password entryUS7350078 *Mar 4, 2002Mar 25, 2008Gary OdomUser selection of computer loginUS7386892Jul 17, 2003Jun 10, 2008International Business Machines CorporationMethod and apparatus for detecting password attacks using modeling techniquesUS7430756Dec 22, 2004Sep 30, 2008Jsm Technologies, LlcSystem and method for generating and authenticating a computer passwordUS7460667May 26, 2004Dec 2, 2008Verance CorporationDigital hidden data transport (DHDT)US7509686Jan 30, 2004Mar 24, 2009Checco John CMethod for providing computer-based authentication utilizing biometricsUS7526412Mar 31, 2006Apr 28, 2009Biopassword, Inc.Method and apparatus for multi-distant weighted scoring systemUS7555655Jun 10, 2005Jun 30, 20095th Fleet, L.L.C.Apparatus, system, and method for generating and authenticating a computer passwordUS7571326 *May 25, 2005Aug 4, 2009Hewlett-Packard Development Company, L.P.Relative latency dynamics for identity authenticationUS7581113Feb 18, 2005Aug 25, 20095th Fleet, L.L.C.System and method for generating and authenticating a computer passwordUS7600128Nov 7, 2005Oct 6, 20095Th Fleet, LlcTwo-factor computer password client device, system, and methodUS7620819Sep 29, 2005Nov 17, 2009The Penn State Research FoundationSystem and method for classifying regions of keystroke density with a neural networkUS7653818Jul 21, 2005Jan 26, 2010Michael Lawrence SerpaSystem and method for user authentication with enhanced passwordsUS7706574Nov 6, 2003Apr 27, 2010Admitone Security, Inc.Identifying and protecting composed and transmitted messages utilizing keystroke dynamicsUS7797251Feb 13, 2007Sep 14, 20105th Fleet, L.L.C.System and method providing secure credit or debit transactions across unsecure networksUS7818290Jun 14, 2007Oct 19, 2010Identity Metrics, Inc.System to associate a demographic to a user of an electronic systemUS7844835Sep 20, 2005Nov 30, 2010Intertrust Technologies CorporationSystems and methods for secure transaction management and electronic rights protectionUS7890768Nov 30, 2005Feb 15, 2011Scenera Technologies, LlcMethods, systems, and computer program products for entering sensitive and padding data using user-defined criteriaUS7917749May 22, 2006Mar 29, 2011Intertrust Technologies CorporationSystems and methods for secure transaction management and electronic rights protectionUS7925898Jun 14, 2006Apr 12, 2011Intertrust Technologies Corp.Systems and methods using cryptography to protect secure computing environmentsUS8020005Dec 23, 2005Sep 13, 2011Scout Analytics, Inc.Method and apparatus for multi-model hybrid comparison systemUS8051468Jun 14, 2007Nov 1, 2011Identity Metrics LlcUser authentication systemUS8078882Jan 19, 2011Dec 13, 2011Scenera Technologies, LlcMethods systems, and computer program products for entering sensitive and padding data using user-defined criteriaUS8107627Sep 10, 2008Jan 31, 2012Koninklijke Philips Electronics N.V.Temporal proximity to verify physical proximityUS8161530Jul 11, 2007Apr 17, 2012Identity Metrics, Inc.Behaviormetrics application system for electronic transaction authorizationUS8171292Apr 8, 2009May 1, 2012Research In Motion LimitedSystems, devices, and methods for securely transmitting a security parameter to a computing deviceUS8185473Apr 13, 2006May 22, 2012Intertrust Technologies CorporationTrusted infrastructure support systems, methods and techniques for secure electronic commerce, electronic transactions, commerce process control and automation, distributed computing, and rights managementUS8214645 *Apr 8, 2009Jul 3, 2012Research In Motion LimitedSystems, devices, and methods for securely transmitting a security parameter to a computing deviceUS8260740Oct 11, 2010Sep 4, 2012Identity Metrics LlcSystem to associate a demographic to a user of an electronic systemUS8307212Jul 10, 2003Nov 6, 2012Intertrust Technologies Corp.Steganographic techniques for securely delivering electronic digital rights management control information over insecure communication channelsUS8332932Dec 7, 2007Dec 11, 2012Scout Analytics, Inc.Keystroke dynamics authentication techniquesUS8341420Dec 6, 2011Dec 25, 2012Armstrong, Quinton Co. LLCMethods, systems, and computer program products for entering sensitive and padding data using user-defined criteriaUS8352582Jun 28, 2001Jan 8, 2013Koninklijke Philips Electronics N.V.Temporal proximity to verify physical proximityUS8429415Apr 13, 2010Apr 23, 2013Tierra Intelectual BorinquenUser-selectable signaturesUS8452978Sep 17, 2007May 28, 2013Identity Metrics, LLCSystem and method for user authentication and dynamic usability of touch-screen devicesUS8464062Mar 29, 2012Jun 11, 2013Research In Motion LimitedSystems, devices, and methods for securely transmitting a security parameter to a computing deviceUS8533851Apr 12, 2006Sep 10, 2013Intertrust Technologies CorporationSystems and methods for secure transaction management and electronic rights protectionUS8543842May 23, 2006Sep 24, 2013Intertrust Technologies CorporationSystem and methods for secure transaction management and electronics rights protectionUS8695086Sep 6, 2011Apr 8, 2014Identity Metrics, Inc.System and method for user authenticationUS8751461Apr 1, 2011Jun 10, 2014Comscore, Inc.Systems for and methods of user demographic reporting usable for identifying users and collecting usage dataUS8751793Dec 2, 2003Jun 10, 2014Intertrust Technologies Corp.Trusted infrastructure support systems, methods and techniques for secure electronic commerce transaction and rights managementUS8826029 *Sep 21, 2012Sep 2, 2014International Business Machines CorporationProviding time ratio-based password/challenge authenticationUS8843754Sep 17, 2007Sep 23, 2014Identity Metrics, Inc.Continuous user identification and situation analysis with identification of anonymous users through behaviormetricsUS8938787 *Jun 20, 2013Jan 20, 2015Biocatch Ltd.System, device, and method of detecting identity of a user of a mobile electronic deviceUS8972731Jun 8, 2012Mar 3, 2015Blackberry LimitedSystems, devices, and methods for securely transmitting a security parameter to a computing deviceUS8997243Dec 5, 2012Mar 31, 2015Koninklijke Philips N.V.Temporal proximity to verify physical proximityUS9049006May 7, 2013Jun 2, 2015Blackberry LimitedSystems, devices, and methods for securely transmitting a security parameter to a computing deviceUS9069942 *Nov 29, 2011Jun 30, 2015Avi TurgemanMethod and device for confirming computer end-user identityUS9071969 *Dec 11, 2014Jun 30, 2015Biocatch Ltd.System, device, and method of detecting identity of a user of an electronic deviceUS9317670 *May 22, 2012Apr 19, 2016Verizon Patent And Licensing IncSecurity based on usage activity associated with user deviceUS9329699Oct 22, 2011May 3, 2016Southern Methodist UniversityMethod for subject classification using a pattern recognition input deviceUS9400879 *Nov 5, 2008Jul 26, 2016Xerox CorporationMethod and system for providing authentication through aggregate analysis of behavioral and time patternsUS9430626 *Oct 11, 2013Aug 30, 2016Intensity Analytics CorporationUser authentication via known text input cadenceUS9526006 *Jun 2, 2015Dec 20, 2016Biocatch Ltd.System, method, and device of detecting identity of a user of an electronic deviceUS9600653 *Aug 27, 2014Mar 21, 2017International Business Machines CorporationProviding time ratio-based password/challenge authenticationUS9626653Sep 21, 2015Apr 18, 2017Adobe Systems IncorporatedDocument distribution and interaction with delegation of signature authorityUS20020147930 *Feb 14, 2001Oct 10, 2002Pritchard James B.Apparatus and method for protecting a computer systemUS20030005324 *Jun 28, 2001Jan 2, 2003Michael EpsteinTemporal proximity to verify physical proximityUS20040059950 *Nov 26, 2002Mar 25, 2004Bender Steven S.Key sequence rhythm recognition system and methodUS20040143767 *Dec 4, 2003Jul 22, 2004International Business Machines CorporationSoftware method for improved password entryUS20040187037 *Jan 30, 2004Sep 23, 2004Checco John C.Method for providing computer-based authentication utilizing biometricsUS20040247121 *May 26, 2004Dec 9, 2004Verance CorporationDigital hidden data transport (DHDT)US20050015614 *Jul 17, 2003Jan 20, 2005International Business Machines CorporationMethod and apparatus for detecting password attacks using modeling techniquesUS20050149762 *Feb 18, 2005Jul 7, 2005Smith Steven W.System and method for generating and authenticating a computer passwordUS20050273624 *Jul 21, 2005Dec 8, 2005Serpa Michael LSystem and method for user authentication with enhanced passwordsUS20060136740 *Jun 10, 2005Jun 22, 2006Smith Steven WApparatus, system, and method for generating and authenticating a computer passwordUS20060136993 *Dec 22, 2004Jun 22, 2006Smith Steven WSystem and method for generating and authenticating a computer passwordUS20060242424 *Apr 22, 2005Oct 26, 2006Kitchens Fred LIdentity authentication based on keystroke latencies using a genetic adaptive neural networkUS20060271790 *May 25, 2005Nov 30, 2006Wenying ChenRelative latency dynamics for identity authenticationUS20060280339 *Jun 6, 2006Dec 14, 2006Sungzoon ChoSystem and method for performing user authentication based on keystroke dynamicsUS20070124601 *Nov 30, 2005May 31, 2007Mona SinghMethods, systems, and computer program products for entering sensitive and padding data using user-defined criteriaUS20070198712 *Feb 7, 2006Aug 23, 2007Biopassword, Inc.Method and apparatus for biometric security over a distributed networkUS20070233667 *Apr 1, 2006Oct 4, 2007Biopassword, LlcMethod and apparatus for sample categorizationUS20070234056 *Mar 31, 2006Oct 4, 2007Biopassword, LlcMethod and apparatus for multi-distant weighted scoring systemUS20070245151 *Sep 29, 2005Oct 18, 2007Phoha Vir VSystem and method for classifying regions of keystroke density with a neural networkUS20070276940 *Aug 8, 2007Nov 29, 2007Comscore Networks, Inc.Systems and methods for user identification, user demographic reporting and collecting usage data using biometricsUS20070300077 *Jun 26, 2006Dec 27, 2007Seshadri ManiMethod and apparatus for biometric verification of secondary authenticationsUS20080091453 *Jul 11, 2007Apr 17, 2008Meehan Timothy EBehaviormetrics application system for electronic transaction authorizationUS20080091639 *Jun 14, 2007Apr 17, 2008Davis Charles F LSystem to associate a demographic to a user of an electronic systemUS20080092209 *Jun 14, 2007Apr 17, 2008Davis Charles F LUser authentication systemUS20080092245 *Sep 17, 2007Apr 17, 2008Agent Science Technologies, Inc.Multi-touch device behaviormetric user authentication and dynamic usability systemUS20080098456 *Sep 17, 2007Apr 24, 2008Agent Science Technologies, Inc.Continuous user identification and situation analysis with identification of anonymous users through behaviormetricsUS20080195550 *Feb 13, 2007Aug 14, 2008Smith Steven WSystem and method providing secure credit or debit transactions across unsecure networksUS20090003605 *Sep 10, 2008Jan 1, 2009Koninklijke Philips Electronics, N.V.Temporal proximity to verify physical proximityUS20090112703 *Dec 31, 2008Apr 30, 2009Comscore Networks, Inc.User identification in the header of data packetsUS20090150992 *Dec 7, 2007Jun 11, 2009Kellas-Dicks Mechthild RKeystroke dynamics authentication techniquesUS20090240949 *Apr 22, 2005Sep 24, 2009Kitchens Fred LIdentity authentication based on keystroke latencies using a genetic adaptive neural networkUS20090299777 *May 30, 2008Dec 3, 2009Hersh SilbermanHotel reservation system without check-inUS20090328199 *Apr 29, 2008Dec 31, 2009Michael GilfixApparatus for Detecting Password Attacks Using Modeling TechniquesUS20100115610 *Nov 5, 2008May 6, 2010Xerox CorporationMethod and system for providing authentication through aggregate analysis of behavioral and time patternsUS20100262828 *Apr 8, 2009Oct 14, 2010Research In Motion LimitedSystems, devices, and methods for securely transmitting a security parameter to a computing deviceUS20100262829 *Apr 8, 2009Oct 14, 2010Research In Motion LimitedSystems, devices, and methods for securely transmitting a security parameter to a computing deviceUS20100302000 *Sep 8, 2009Dec 2, 2010University Of Abertay DundeeBiometric identify verification including stress state evaluationUS20110119496 *Jan 19, 2011May 19, 2011Mona SinghMethods, Systems, And Computer Program Products For Entering Sensitive And Padding Data Using User-Defined CriteriaUS20130086666 *Sep 21, 2012Apr 4, 2013International Business Machines CorporationMethod and computer system for providing time ratio-based password/challenge authenticationUS20130239195 *Nov 29, 2011Sep 12, 2013Biocatch LtdMethod and device for confirming computer end-user identityUS20130288647 *Jun 20, 2013Oct 31, 2013Avi TurgemanSystem, device, and method of detecting identity of a user of a mobile electronic deviceUS20130318580 *May 22, 2012Nov 28, 2013Verizon Patent And Licensing Inc.Security based on usage activity associated with user deviceUS20140373119 *Aug 27, 2014Dec 18, 2014International Business Machines CorporationProviding time ratio-based password/challenge authenticationUS20150094030 *Dec 11, 2014Apr 2, 2015Avi TurgemanSystem, device, and method of detecting identity of a user of an electronic deviceUS20150264572 *Jun 2, 2015Sep 17, 2015Biocatch Ltd.System, method, and device of detecting identity of a user of an electronic deviceUS20160364558 *Aug 26, 2016Dec 15, 2016Intensity Analytics CorporationUser authentication via known text input cadenceCN100550878CJun 28, 2002Oct 14, 2009皇家菲利浦电子有限公司Temporal proximity to verify physical proximityEP1026570A2 *Jan 15, 2000Aug 9, 2000Bartmann, Dieter AndreasMethod for identifying the identity of a personEP1026570A3 *Jan 15, 2000Oct 27, 2004Bartmann, Dieter AndreasMethod for identifying the identity of a personEP1469372A2 *Apr 16, 2004Oct 20, 2004AT&amp;T Corp.User authentication using rhythmic passwordsEP1469372A3 *Apr 16, 2004Oct 26, 2005AT&amp;T Corp.User authentication using rhythmic passwordsEP1540869A2 *Aug 22, 2003Jun 15, 2005Michael Lawrence SerpaSystem and method for user authentication with enhanced passwordsEP1540869A4 *Aug 22, 2003Feb 18, 2009Fastfixnet Ltd Liability CompaSystem and method for user authentication with enhanced passwordsWO1988003287A1 *Oct 15, 1987May 5, 1988Harcom Security Systems CorporationComputer security systemWO1997023816A1 *Nov 19, 1996Jul 3, 1997Philips Electronics N.V.User identification system for data processing equipment with keyboardWO1998006020A2 *Aug 2, 1997Feb 12, 1998Dieter BartmannMethod for verifying the identity of a user of a data processing unit with a keyboard designed to produce alphanumeric charactersWO1998006020A3 *Aug 2, 1997May 7, 1998Dieter BartmannMethod for verifying the identity of a user of a data processing unit with a keyboard designed to produce alphanumeric charactersWO2003003687A1 *Jun 28, 2002Jan 9, 2003Koninklijke Philips Electronics N.V.Temporal proximity to verify physical proximityWO2007134417A1 *May 22, 2007Nov 29, 2007Idéias Seguras Tecnologia E Consultoria Em Softwares LtdaMethod for identifying a typing motor patternWO2010136786A3 *May 13, 2010Apr 14, 2011University Of Abertay DundeeA biometric security method, system and computer programWO2011054718A1 *Oct 27, 2010May 12, 2011Psylock GmbhMethod and apparatus for avoiding manipulations in authentication and/or identification systems by means of typing behaviour* Cited by examinerClassifications U.S. Classification382/115, 400/663, 702/176, 379/93.03, 400/704, 902/3, 340/543, 340/5.51, 340/5.54, 340/5.74, 400/667International ClassificationG07C9/00, G06K9/00, G06F21/00Cooperative ClassificationG07C9/0015, G06K9/00, G06F21/32European ClassificationG06F21/32, G06K9/00, G07C9/00C2CLegal EventsDateCodeEventDescriptionAug 26, 1983ASAssignmentOwner name: ELECTRONIC SIGNATURE LOCK CORPORATION, A CA CORP.Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:GARCIA, JOHN D.;REEL/FRAME:004186/0878Effective date: 19830826Apr 16, 1990FPAYFee paymentYear of fee payment: 4Mar 31, 1994FPAYFee paymentYear of fee payment: 8May 26, 1998REMIMaintenance fee reminder mailedNov 3, 1998SULPSurcharge for late paymentNov 3, 1998FPAYFee paymentYear of fee payment: 12RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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Development of tissue repair using multipotential adipose-derived stem cells TORII Shuhei Nagoya University, Graduate School of Medicine, Professor, 大学院医学系研究科, 教授 (60115607) KIITAGAWA Yasuo Nagoya University, Graduate School of Bioagriculture, Sciences Professor, 大学院生命農学研究科, 教授 (50101168) KAMEI Uzuru Nagoya Unversity, Graduate School of Medicine, Associate Professor, 大学院医学研究科, 助教授 (10257678) TORIYAMA Kazuhiro university hispital, Assistant Professor, 医学部附属病院, 講師 (40314017) mesenchymal stem cells / osteoblast / adipose tissue / somatic stem cells / omentum / low-serum culture / ceiling culture / CD34 / 幹細胞 / 再生医療 / 自家幹細胞 / 脂肪由来幹細胞
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Company Profile more.. betway必威官网手机版|亚洲第一体育平台 is a leading manufacturer with ISO9001:2000 certified of international standard power cords and cord sets with UL, CSA, VDE, BSI, PSE, KET, SEV, SAA, IMQ, IRAM, and so on.all the product with the famous brand qiaopu. Ningbo qiaopu covers an area of 35000㎡, and 50000m2 for standard workshop and offices, with more than 200 staff members; including 6 designers,8 sets advanced rubber cable production lines and 8 PVC;injection machine 29 sets. Ningbo qiaopu Electric Co., Ltd could manufacture cables 6000 million meters, cord sets could be made 2100 million pieces , the total sales more than 1.7 billion RMB a year; the sold qiaopu products from us covers all over the world.ningbo qiaopu was founded 1996,qiaopu goal is client′s satisfaction , enhancing our nucleus of competitive step by step, in the market; Our qiaopu capacity with your believing, that would be a great cooperation for our future.
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receiving at least one input video stream comprising at least one video clip; generating at least one thumbnail of the at least one video clip; displaying the thumbnails in a video clip window; providing a pointer on the display, said pointer under control of a cursor control device; enabling selection of at least one video clip in the video clip window using the pointer; enabling a drag of the selected clips to a video clip edit window; displaying an insert marker in the video clip edit window, said insert marker pointing to a closest video clip boundary relative to the location of the pointer in the video clip edit window and identifying a point of insertion of each selected video clip dragged to the video clip edit window; enabling the drop of the selected video clips at determined locations in the video clip edit window; displaying in the video clip edit window thumbnails of selected clips in the sequence reflected by the locations the selected video clips were dropped. Description Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS5237648 *Jun 8, 1990Aug 17, 1993Apple Computer, Inc.Apparatus and method for editing a video recording by selecting and displaying video clipsUS5404316 *Aug 3, 1992Apr 4, 1995Spectra Group Ltd., Inc.Desktop digital video processing systemUS5467288 *Apr 9, 1993Nov 14, 1995Avid Technology, Inc.Digital audio workstations providing digital storage and display of video informationUS5513306 *Jun 7, 1995Apr 30, 1996Apple Computer, Inc.Temporal event viewing and editing systemUS5574934 *Nov 15, 1994Nov 12, 1996Intel CorporationPreemptive priority-based transmission of signals using virtual channelsUS5675752 *Sep 15, 1994Oct 7, 1997Sony CorporationInteractive applications generator for an interactive presentation environmentUS5682326 *Apr 3, 1995Oct 28, 1997Radius Inc.Desktop digital video processing systemUS5758093 *Mar 29, 1996May 26, 1998International Business Machine Corp.Method and system for a multimedia application development sequence editor using time event specifiersUS5790114 *Oct 4, 1996Aug 4, 1998Microtouch Systems, Inc.Electronic whiteboard with multi-functional user interfaceUS5801685 *Apr 8, 1996Sep 1, 1998Tektronix, Inc.Automatic editing of recorded video elements sychronized with a script text read or displayedUS5850629 *Sep 9, 1996Dec 15, 1998Matsushita Electric Industrial Co., Ltd.User interface controller for text-to-speech synthesizerUS5889514 *Mar 29, 1996Mar 30, 1999International Business Machines Corp.Method and system for a multimedia application development sequence editor using spacer toolsUS5950001 *Jun 3, 1997Sep 7, 1999Sun Microsystems, Inc.Method and apparatus for customizing a software componentUS5960442 *Nov 12, 1997Sep 28, 1999Genesys Telecommunications Laboratories, Inc.Real-time interactive directoryUS5982365 *Jun 14, 1996Nov 9, 1999Apple Computer, Inc.System and methods for interactively generating and testing help systems* Cited by examinerNon-Patent CitationsReference1 *Chan et al., "VideoMAP* :a Web-based architecture for a spatio-temporal video database management system", Web Information Systems Engineering, 2000, Proceedings of the First International Conference on, vol. 1, 2000, pp. 393-400.2 *Gatica Perez et al., "Generating video objects by multiple-view extensive partition lattice operators", Image Processing, 2000 Proceedings, 2000 International Conference on, 2000 vol. 3, pp. 508-511.*3 *Gatica-Perez et al., "Multiview extensive partition operators for semantic video object extraction" Circuits and Systems for Video Technology, IEEE Transactions on, vol. 11, Issue 7, Jul. 2001, pp. 788-801.** Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS6591295 *Nov 5, 1999Jul 8, 2003Oracle International Corp.Methods and apparatus for using multimedia data stored in a relational database in web applicationsUS6829428 *Dec 28, 1999Dec 7, 2004Elias R. QuintosMethod for compact disc presentation of video moviesUS7031594 *Oct 8, 2003Apr 18, 2006Sony CorporationRecording and/or reproducing apparatus for detecting and displaying audio signal levels of input and output and portsUS7073127 *Jul 1, 2002Jul 4, 2006Arcsoft, Inc.Video editing GUI with layer viewUS7073179Oct 28, 2004Jul 4, 2006Microsoft CorporationMethods and systems for implementing dynamic properties on objects that support only static propertiesUS7073180Jan 19, 2005Jul 4, 2006Microsoft CorporationSystems for negotiating buffer size and attribute characteristics in media processing systems that create user-defined development projectsUS7080380Jan 19, 2005Jul 18, 2006Microsoft CorporationSystems for negotiating buffer size and attribute characteristics in media processing systems that create user-defined development projectsUS7085995 *Jan 23, 2001Aug 1, 2006Sony CorporationInformation processing apparatus and processing method and program storage mediumUS7103677 *Dec 6, 2000Sep 5, 2006Microsoft CorporationMethods and systems for efficiently processing compressed and uncompressed media contentUS7114161Dec 6, 2000Sep 26, 2006Microsoft CorporationSystem and related methods for reducing memory requirements of a media processing systemUS7139466Dec 10, 2004Nov 21, 2006Microsoft CorporationMethods and systems for managing multiple inputs and methods and systems for processing media contentUS7143353 *Mar 30, 2001Nov 28, 2006Koninklijke Philips Electronics, N.V.Streaming video bookmarksUS7174055 *Oct 14, 2004Feb 6, 2007Kabushiki Kaisha ToshibaImage information describing method, video retrieval method, video reproducing method, and video reproducing apparatusUS7197752Jul 29, 2005Mar 27, 2007Microsoft CorporationSystem and related methods for reducing source filter invocation in a development projectUS7206495Oct 15, 2004Apr 17, 2007Microsoft CorporationMethods and systems for managing multiple inputs and methods and systems for processing media contentUS7225405 *Jan 9, 2002May 29, 2007Ricoh Company, Ltd.System and method for audio creation and editing in a multimedia messaging environmentUS7228056Oct 15, 2004Jun 5, 2007Microsoft CorporationMethods and systems for managing multiple inputs and methods and systems for processing media contentUS7237038Mar 3, 2005Jun 26, 2007Microsoft CorporationSystem and related interfaces supporting the processing of media contentUS7237244Jan 30, 2006Jun 26, 2007Microsoft CorporationSystem and related methods for reducing memory requirements of a media processing systemUS7257232Jun 1, 2004Aug 14, 2007Microsoft CorporationMethods and systems for mixing digital audio signalsUS7257641 *Mar 30, 2000Aug 14, 2007Microsoft CorporationMultipoint processing unitUS7260310Dec 10, 2004Aug 21, 2007Microsoft CorporationMethods and systems for managing multiple inputs and methods and systems for processing media contentUS7272295 *Nov 1, 2000Sep 18, 2007Thomson LicensingCommercial skip and chapter delineation feature on recordable mediaUS7287226Dec 6, 2000Oct 23, 2007Microsoft CorporationMethods and systems for effecting video transitions represented by bitmapsUS7296276Aug 26, 2004Nov 13, 2007Microsoft CorporationMethods and systems for implementing dynamic properties on objects that support only static propertiesUS7299475Jul 29, 2005Nov 20, 2007Microsoft CorporationSystem and related interfaces supporting the processing of media contentUS7302689Nov 2, 2004Nov 27, 2007Microsoft CorporationSystem and related interfaces supporting the processing of media contentUS7313808 *May 5, 2000Dec 25, 2007Microsoft CorporationBrowsing continuous multimedia contentUS7325199 *Oct 4, 2000Jan 29, 2008Apple Inc.Integrated time line for editingUS7350216Oct 5, 2004Mar 25, 2008Microsoft CorporationSystems and methods for generating and managing filter strings in a filter graph utilizing a matrix switchUS7353520Aug 31, 2004Apr 1, 2008Microsoft CorporationMethod of sharing a parcerUS7391959Oct 15, 2004Jun 24, 2008Microsoft CorporationMethods and systems for managing multiple inputs and methods and systems for processing media contentUS7412685Jan 31, 2005Aug 12, 2008Microsoft CorportationData structures and related methods for facilitating media content processing in user-defined development projectsUS7412704Nov 16, 2005Aug 12, 2008Microsoft CorporationGenerating and managing filter strings in a filter graphUS7428703Dec 22, 2004Sep 23, 2008Microsoft CorporationMethods and systems for processing media contentUS7432940 *Oct 11, 2002Oct 7, 2008Canon Kabushiki KaishaInteractive animation of sprites in a video productionUS7441251Nov 2, 2004Oct 21, 2008Microsoft CorporationSystem and related interfaces supporting the processing of media contentUS7444593 *Oct 4, 2000Oct 28, 2008Apple Inc.Disk space management and clip remainder during edit operationsUS7447754Dec 6, 2000Nov 4, 2008Microsoft CorporationMethods and systems for processing multi-media editing projectsUS7457677Oct 28, 2004Nov 25, 2008Microsoft CorporationMethods and systems for mixing digital audio signalsUS7472395Oct 5, 2004Dec 30, 2008Microsoft CorporationSystems for generating and managing filter strings in a filter graphUS7526776Feb 14, 2008Apr 28, 2009Microsoft CorporationSystems and methods for generating and managing filter strings in a filter graph utilizing a matrix switchUS7529848Jun 13, 2006May 5, 2009Microsoft CorporationMethods and systems for efficiently processing compressed and uncompressed media contentUS7543308Feb 2, 2004Jun 2, 2009Microsoft CorporationSystem and related methods for reducing source filter invocation in a development projectUS7555557Dec 22, 2004Jun 30, 2009Avid Technology, Inc.Review and approval systemUS7571385Apr 8, 2004Aug 4, 2009Microsoft CorporationMethods and systems for processing media contentUS7581185Dec 26, 2003Aug 25, 2009Microsoft CorporationInterface and related methods for reducing source accesses in a development systemUS7584479Jul 29, 2005Sep 1, 2009Microsoft CorporationInterface and related methods for dynamically generating a filter graph in a development systemUS7631319Feb 2, 2004Dec 8, 2009Microsoft CorporationSystem and related methods for reducing source filter invocation in a development projectUS7640534Dec 20, 2004Dec 29, 2009Microsoft CorporationInterface and related methods for reducing source accesses in a development systemUS7673013Oct 27, 2004Mar 2, 2010Microsoft CorporationMethods and systems for processing multi-media editing projectsUS7680898Oct 21, 2004Mar 16, 2010Microsoft CorporationSystems for processing multi-media editing projectsUS7698365Aug 14, 2007Apr 13, 2010Microsoft CorporationMultipoint processing unitUS7712106Dec 27, 2005May 4, 2010Microsoft CorporationSystem and methods for generating and managing filter strings in a filter graphUS7716569Jan 5, 2005May 11, 2010Girafa.Com Inc.Framework for providing visual context to WWW hyperlinksUS7725812Mar 31, 2000May 25, 2010Avid Technology, Inc.Authoring system for combining temporal and nontemporal digital mediaUS7739598 *Nov 28, 2003Jun 15, 2010Sony United Kingdom LimitedMedia handling systemUS7757240May 20, 2005Jul 13, 2010Microsoft CorporationSystem and related interfaces supporting the processing of media contentUS7788696 *Oct 15, 2003Aug 31, 2010Microsoft CorporationInferring information about media stream objectsUS7797620Jul 18, 2006Sep 14, 2010Sony CorporationInformation processing apparatus and processing method, and program storage mediumUS7814367 *Nov 14, 2005Oct 12, 2010Double-Take Software Canada, Inc.Method and system for time addressable storageUS7817898 *May 9, 2006Oct 19, 2010Funai Electric Co., Ltd.Hard disk recorderUS7823058 *Dec 30, 2002Oct 26, 2010The Board Of Trustees Of The Leland Stanford Junior UniversityMethods and apparatus for interactive point-of-view authoring of digital video contentUS7830570 *Sep 1, 2004Nov 9, 2010Sony CorporationDevice and method for edition of moving picture dataUS7840898 *Nov 1, 2005Nov 23, 2010Microsoft CorporationVideo bookletUS7853921Aug 29, 2005Dec 14, 2010Microsoft CorporationInterface and related methods for dynamically generating a filter graph in a development systemUS7870479 *Feb 5, 2009Jan 11, 2011Electronic Arts Inc.Electronic in-application postcardsUS7877688 *May 27, 2004Jan 25, 2011Canon Kabushiki KaishaData processing apparatusUS7890867Jun 7, 2006Feb 15, 2011Adobe Systems IncorporatedVideo editing functions displayed on or near video sequencesUS7930624Apr 4, 2002Apr 19, 2011Avid Technology, Inc.Editing time-based media with enhanced contentUS7940275Aug 29, 2005May 10, 2011Microsoft CorporationInterface and related methods for dynamically generating a filter graph in a development systemUS7948981 *Oct 23, 2006May 24, 2011Adobe Systems IncorpoatedMethods and apparatus for representing audio dataUS7954065Jun 29, 2007May 31, 2011Apple Inc.Two-dimensional timeline display of media itemsUS7970259 *Jun 15, 2005Jun 28, 2011Sony CorporationRecording and / or reproducing apparatus and editing methodUS7979801 *Jun 30, 2006Jul 12, 2011Microsoft CorporationMedia presentation driven by meta-data eventsUS7984385Jun 29, 2007Jul 19, 2011Apple Inc.Regular sampling and presentation of continuous media streamUS7992097Jun 29, 2007Aug 2, 2011Apple Inc.Select drag and drop operations on video thumbnails across clip boundariesUS8010649Nov 3, 2008Aug 30, 2011Microsoft CorporationMethods and systems for processing multi-media editing projectsUS8020100 *Jun 8, 2007Sep 13, 2011Apple Inc.Fast creation of video segmentsUS8150954Nov 3, 2008Apr 3, 2012Microsoft CorporationMethods and systems for processing multi-media editing projectsUS8224159 *Feb 22, 2005Jul 17, 2012Sony CorporationReproducing apparatus and reproducing method for reproducing and editing video clipsUS8255802Apr 14, 2005Aug 28, 2012Forbidden Technologies PlcMethod for enabling efficient navigation of videoUS8261177Jun 16, 2006Sep 4, 2012Microsoft CorporationGenerating media presentationsUS8296366May 27, 2004Oct 23, 2012Microsoft CorporationEfficient routing of real-time multimedia informationUS8327268Nov 10, 2009Dec 4, 2012Magix AgSystem and method for dynamic visual presentation of digital audio contentUS8413184 *Aug 9, 2006Apr 2, 2013Apple Inc.Media map for capture of content from random access devicesUS8458595Apr 20, 2011Jun 4, 2013Adobe Systems IncorporatedVideo editing including simultaneously displaying timelines and storyboardsUS8522144Jan 15, 2010Aug 27, 2013Apple Inc.Media editing application with candidate clip managementUS8549404Sep 28, 2010Oct 1, 2013Apple Inc.Auditioning tools for a media editing applicationUS8555169 *Apr 30, 2009Oct 8, 2013Apple Inc.Media clip auditioning used to evaluate uncommitted media contentUS8555170Aug 10, 2010Oct 8, 2013Apple Inc.Tool for presenting and editing a storyboard representation of a composite presentationUS8559793May 26, 2011Oct 15, 2013Avid Technology, Inc.Synchronous data tracks in a media editing systemUS8612846 *Jan 19, 2011Dec 17, 2013Google Inc.Framework for providing visual context to www hyperlinkUS8612859Oct 22, 2007Dec 17, 2013Microsoft CorporationMethods and systems for effecting video transitions represented by bitmapsUS8645832 *Jul 3, 2006Feb 4, 2014The Board Of Trustees Of The Leland Stanford Junior UniversityMethods and apparatus for interactive map-based analysis of digital video contentUS8660544Sep 18, 2008Feb 25, 2014Lg Electronics Inc.Mobile terminal, method of displaying data therein and method of editing data thereinUS8677416 *Jul 17, 2001Mar 18, 2014Ati Technologies, Inc.Method, system and software for display of multiple media channelsUS8682486Jul 17, 2013Mar 25, 2014Intouch Technologies, Inc.Medical tele-robotic system with a master remote station with an arbitratorUS8701007 *Apr 30, 2009Apr 15, 2014Apple Inc.Edit visualizer for modifying and evaluating uncommitted media contentUS8712219 *Dec 28, 2004Apr 29, 2014Core Wireless Licensing S.A.R.L.Method for editing a media clip in a mobile terminal device, a terminal device utilizing the method and program means for implementing the methodUS8713439 *Dec 15, 2006Apr 29, 2014Yahoo! Inc.Systems and methods for providing a video playlistUS8732221Jun 14, 2010May 20, 2014Magix Software GmbhSystem and method of multimedia content editingUS8751022Apr 14, 2007Jun 10, 2014Apple Inc.Multi-take compositing of digital media assetsUS8763035Feb 27, 2013Jun 24, 2014Apple Inc.Media map for capture of content from random access devicesUS8775480May 19, 2011Jul 8, 2014Apple Inc.Media clip managementUS8782507Mar 9, 2010Jul 15, 2014Google Inc.Framework for providing visual context to WWW hyperlinksUS8806366 *Jun 23, 2011Aug 12, 2014Samsung Electronics Co., Ltd.Media file management system and method for home media centerUS8818173Oct 11, 2013Aug 26, 2014Avid Technology, Inc.Synchronous data tracks in a media editing systemUS8819535Apr 12, 2011Aug 26, 2014Avid Technology, Inc.Editing time-based media with enhanced contentUS8819557Jul 15, 2010Aug 26, 2014Apple Inc.Media-editing application with a free-form space for organizing or compositing media clipsUS8836751Nov 8, 2011Sep 16, 2014Intouch Technologies, Inc.Tele-presence system with a user interface that displays different communication linksUS8843375 *Dec 19, 2008Sep 23, 2014Apple Inc.User interfaces for editing audio clipsUS8849679Nov 25, 2008Sep 30, 2014Intouch Technologies, Inc.Remote controlled robot system that provides medical imagesUS8849680Jan 29, 2009Sep 30, 2014Intouch Technologies, Inc.Documentation through a remote presence robotUS8850478 *Dec 4, 2006Sep 30, 2014Hillcrest Laboratories, Inc.Multimedia systems, methods and applicationsUS8861750Mar 28, 2012Oct 14, 2014Intouch Technologies, Inc.Mobile tele-presence system with a microphone systemUS8875025Jun 6, 2011Oct 28, 2014Apple Inc.Media-editing application with media clips grouping capabilitiesUS8881013Jan 15, 2010Nov 4, 2014Apple Inc.Tool for tracking versions of media sections in a composite presentationUS8897920Apr 17, 2009Nov 25, 2014Intouch Technologies, Inc.Tele-presence robot system with software modularity, projector and laser pointerUS8902278Jul 25, 2012Dec 2, 2014Intouch Technologies, Inc.Systems and methods for visualizing and managing telepresence devices in healthcare networksUS8910046Jun 1, 2011Dec 9, 2014Apple Inc.Media-editing application with anchored timelineUS8943433Aug 1, 2011Jan 27, 2015Apple Inc.Select drag and drop operations on video thumbnails across clip boundariesUS8954477May 19, 2011Feb 10, 2015Apple Inc.Data structures for a media-editing applicationUS8965579Jan 27, 2012Feb 24, 2015Intouch TechnologiesInterfacing with a mobile telepresence robotUS8966367Oct 22, 2012Feb 24, 2015Apple Inc.Anchor override for a media-editing application with an anchored timelineUS8972861Oct 25, 2010Mar 3, 2015The Board Of Trustees Of The Leland Stanford Junior UniversityInteractive point-of-view authoring of digital video content using a resizable overlay window and a cylindrical layoutUS8983174Feb 19, 2013Mar 17, 2015Intouch Technologies, Inc.Mobile robot with a head-based movement mapping schemeUS8996165Oct 21, 2008Mar 31, 2015Intouch Technologies, Inc.Telepresence robot with a camera boomUS9032438 *Dec 16, 2004May 12, 2015Hitachi Maxell, Ltd.Method and apparatus for accessing contentUS9043691 *Feb 28, 2006May 26, 2015James Monro Productions Inc.Method and apparatus for editing mediaUS9084023 *Mar 29, 2011Jul 14, 2015Sony CorporationImage processing device, image processing method and image processing programUS9089972Jan 16, 2014Jul 28, 2015Intouch Technologies, Inc.Remote presence system including a cart that supports a robot face and an overhead cameraUS9098611Mar 14, 2013Aug 4, 2015Intouch Technologies, Inc.Enhanced video interaction for a user interface of a telepresence networkUS9111579Jan 30, 2012Aug 18, 2015Apple Inc.Media editing with multi-camera media clipsUS9138891Nov 25, 2008Sep 22, 2015Intouch Technologies, Inc.Server connectivity control for tele-presence robotUS9142253Jun 8, 2007Sep 22, 2015Apple Inc.Associating keywords to mediaUS9160783May 9, 2007Oct 13, 2015Intouch Technologies, Inc.Robot system that operates through a network firewallUS9174342Nov 21, 2014Nov 3, 2015Intouch Technologies, Inc.Social behavior rules for a medical telepresence robotUS9193065Jul 10, 2008Nov 24, 2015Intouch Technologies, Inc.Docking system for a tele-presence robotUS9198728Sep 30, 2005Dec 1, 2015Intouch Technologies, Inc.Multi-camera mobile teleconferencing platformUS9251313Apr 11, 2012Feb 2, 2016Intouch Technologies, Inc.Systems and methods for visualizing and managing telepresence devices in healthcare networksUS9264664Dec 3, 2010Feb 16, 2016Intouch Technologies, Inc.Systems and methods for dynamic bandwidth allocationUS9280262Jan 26, 2015Mar 8, 2016Apple Inc.Select drag and drop operations on video thumbnails across clip boundariesUS9296107May 10, 2012Mar 29, 2016Intouch Technologies, Inc.Protocol for a remotely controlled videoconferencing robotUS9317172 *Jan 9, 2013Apr 19, 2016Apple Inc.Tool for navigating a composite presentationUS9323250Aug 2, 2013Apr 26, 2016Intouch Technologies, Inc.Time-dependent navigation of telepresence robotsUS9323438Jun 1, 2011Apr 26, 2016Apple Inc.Media-editing application with live dragging and live editing capabilitiesUS9335892Mar 3, 2015May 10, 2016Apple Inc.Select drag and drop operations on video thumbnails across clip boundariesUS9348495May 6, 2014May 24, 2016Sony CorporationControl of large screen display using wireless portable computer and facilitating selection of audio on a headphoneUS9354794 *Oct 8, 2014May 31, 2016Google Inc.Method and system for performing client-side zooming of a remote video feedUS9361021Nov 21, 2014Jun 7, 2016Irobot CorporationGraphical user interfaces including touchpad driving interfaces for telemedicine devicesUS9375843Jun 18, 2010Jun 28, 2016Intouch Technologies, Inc.Protocol for a remotely controlled videoconferencing robotUS9381654May 14, 2013Jul 5, 2016Intouch Technologies, Inc.Server connectivity control for tele-presence robotUS9420331Oct 8, 2014Aug 16, 2016Google Inc.Method and system for categorizing detected motion eventsUS9429934Oct 15, 2013Aug 30, 2016Intouch Technologies, Inc.Mobile videoconferencing robot system with network adaptive drivingUS9437247Jan 30, 2012Sep 6, 2016Apple Inc.Preview display for multi-camera media clipsUS9449229Jun 12, 2015Sep 20, 2016Google Inc.Systems and methods for categorizing motion event candidatesUS9449644 *Nov 10, 2011Sep 20, 2016Sony CorporationData-providing apparatus, data-providing method and program-sorting mediumUS9469030Oct 27, 2015Oct 18, 2016Intouch TechnologiesInterfacing with a mobile telepresence robotUS9479822Jun 3, 2016Oct 25, 2016Google Inc.Method and system for categorizing detected motion eventsUS9489421 *Jul 9, 2013Nov 8, 2016Sony CorporationTransmission apparatus, information processing method, program, reception apparatus, and application-coordinated systemUS9489580Sep 24, 2015Nov 8, 2016Google Inc.Method and system for cluster-based video monitoring and event categorizationUS9501915Jun 12, 2015Nov 22, 2016Google Inc.Systems and methods for analyzing a video streamUS9544531Apr 12, 2013Jan 10, 2017Apple Inc.Media map for capture of content from random access devicesUS9544636Oct 8, 2014Jan 10, 2017Google Inc.Method and system for editing event categoriesUS9564173Sep 28, 2010Feb 7, 2017Apple Inc.Media editing application for auditioning different types of media clipsUS20020097258 *Dec 6, 2000Jul 25, 2002Maymudes David M.Methods and systems for effecting video transitions represented by bitmapsUS20020099758 *Dec 6, 2000Jul 25, 2002Miller Daniel J.System and related methods for reducing memory requirements of a media processing systemUS20020099789 *Dec 6, 2000Jul 25, 2002Rudolph Eric H.Methods and systems for processing multi-media editing projectsUS20020103918 *Dec 6, 2000Aug 1, 2002Miller Daniel J.Methods and systems for efficiently processing compressed and uncompressed media contentUS20020133486 *Mar 13, 2002Sep 19, 2002Kddi CorporationVideo retrieval and browsing apparatus, video retrieval, browsing and editing apparatus, and recording mediumUS20020145622 *Apr 9, 2001Oct 10, 2002International Business Machines CorporationProxy content editing systemUS20020154158 *Jan 23, 2001Oct 24, 2002Kei FukudaInformation processing apparatus and processing method and program storage mediumUS20020163532 *Mar 30, 2001Nov 7, 2002Koninklijke Philips Electronics N.V.Streaming video bookmarksUS20020188628 *Apr 20, 2001Dec 12, 2002Brian CooperEditing interactive content with time-based mediaUS20030018972 *Jul 17, 2001Jan 23, 2003Jitesh AroraMethod, system and software for display of multiple media channelsUS20030146915 *Oct 11, 2002Aug 7, 2003Brook John CharlesInteractive animation of sprites in a video productionUS20040001079 *Jul 1, 2002Jan 1, 2004Bin ZhaoVideo editing GUI with layer viewUS20040125148 *Dec 30, 2002Jul 1, 2004The Board Of Trustees Of The Leland Stanford Junior UniversityMethods and apparatus for interactive point-of-view authoring of digital video contentUS20040189688 *Apr 8, 2004Sep 30, 2004Miller Daniel J.Methods and systems for processing media contentUS20040220814 *Jun 1, 2004Nov 4, 2004Microsoft CorporationMethods and systems for mixing digital audio signalsUS20040221291 *Feb 2, 2004Nov 4, 2004Miller Daniel J.System and related methods for reducing source filter invocation in a development projectUS20040252971 *Jul 19, 2004Dec 16, 2004Quintos Elias R.System and method for compact disc presentation of video moviesUS20040255250 *May 27, 2004Dec 16, 2004Canon Kabushiki KaishaData processing apparatusUS20040268224 *Jul 8, 2004Dec 30, 2004Balkus Peter A.Authoring system for combining temporal and nontemporal digital mediaUS20050018502 *Oct 8, 2003Jan 27, 2005Sony CorporationData recording and/or reproducing apparatus, adjustment volume in data recording and/or reproducing apparatus, port operating method in data recording and/or reproducing apparatus, audio level indicating method in data recording and/or reproducing apparatus and selective indicating method for adjustment volume in data recording and/or reproducing apparatusUS20050033825 *Aug 31, 2004Feb 10, 2005Microsoft CorporationMethod of sharing a parcerUS20050034133 *Aug 26, 2004Feb 10, 2005Microsoft CorporationMethods and systems for implementing dynamic properties on objects that support only static propertiesUS20050047681 *Oct 14, 2004Mar 3, 2005Osamu HoriImage information describing method, video retrieval method, video reproducing method, and video reproducing apparatusUS20050053357 *Oct 15, 2004Mar 10, 2005Microsoft CorporationMethods and systems for managing multiple inputs and methods and systems for processing media contentUS20050058431 *Sep 12, 2003Mar 17, 2005Charles JiaGenerating animated image file from video data file framesUS20050060161 *Oct 28, 2004Mar 17, 2005Microsoft CorporationMethods and systems for mixing digital audio signalsUS20050060712 *Oct 5, 2004Mar 17, 2005Microsoft CorporationSystems for generating and managing filter strings in a filter graphUS20050060715 *Nov 2, 2004Mar 17, 2005Microsoft CorporationSystem and related interfaces supporting the processing of media contentUS20050060717 *Oct 28, 2004Mar 17, 2005Microsoft CorporationMethods and systems for implementing dynamic properties on objects that support only static propertiesUS20050069288 *Oct 15, 2004Mar 31, 2005Microsoft CorporationMethods and systems for managing multiple inputs and methods and systems for processing media contentUS20050086682 *Oct 15, 2003Apr 21, 2005Burges Christopher J.C.Inferring information about media stream objectsUS20050091339 *Oct 21, 2004Apr 28, 2005Microsoft CorporationSystems for processing multi-media editing projectsUS20050097215 *Nov 2, 2004May 5, 2005Microsoft CorporationSystem and related interfaces supporting the processing of media contentUS20050100316 *Dec 10, 2004May 12, 2005Microsoft CorporationMethods and systems for managing multiple inputs and methods and systems for processing media contentUS20050102306 *Dec 10, 2004May 12, 2005Microsoft CorporationMethods and systems for managing multiple inputs and methods and systems for processing media contentUS20050111829 *Dec 16, 2004May 26, 2005Hitachi, Ltd.Method and apparatus for accessing contentUS20050114754 *Dec 22, 2004May 26, 2005Microsoft CorporationMethods and systems for processing media contentUS20050117874 *Oct 15, 2004Jun 2, 2005Microsoft CorporationMethods and systems for managing multiple inputs and methods and systems for processing media contentUS20050125803 *Jan 19, 2005Jun 9, 2005Microsoft CorporationSystems for negotiating buffer size and attribute characteristics in media processing systems that create user-defined development projectsUS20050132293 *Dec 10, 2003Jun 16, 2005Magix AgSystem and method of multimedia content editingUS20050149943 *Jan 19, 2005Jul 7, 2005Microsoft CorporationSystems for negotiating buffer size and attribute characteristics in media processing systems that create user-defined development projectsUS20050152668 *Dec 28, 2004Jul 14, 2005Nokia CorporationMethod for editing a media clip in a mobile terminal device, a terminal device utilizing the method and program means for implementing the methodUS20050155039 *Mar 3, 2005Jul 14, 2005Microsoft CorporationSystem and related interfaces supporting the processing of media contentUS20050196128 *Feb 22, 2005Sep 8, 2005Masaki HiroseReproducing apparatus and reproducing methodUS20050204331 *Jan 31, 2005Sep 15, 2005Microsoft CorporationData structures and related methods for facilitating media content processing in user-defined development projects.US20050232600 *Jun 15, 2005Oct 20, 2005Shiro MorotomiRecording and / or reproducing apparatus and editing methodUS20050235335 *Sep 1, 2004Oct 20, 2005Toru MoritaDevice and method for edition of moving picture dataUS20050273789 *Jul 29, 2005Dec 8, 2005Microsoft CorporationSystem and related methods for reducing source filter invocation in a development projectUS20050278763 *May 27, 2004Dec 15, 2005Microsoft CorporationEfficient routing of real-time multimedia informationUS20050283760 *Aug 29, 2005Dec 22, 2005Microsoft CorporationInterface and related methods for dynamically generating a filter graph in a development systemUS20050283766 *Aug 29, 2005Dec 22, 2005Microsoft CorporationInterface and related methods for dynamically generating a filter graph in a development systemUS20050283787 *Jul 29, 2005Dec 22, 2005Microsoft CorporationSystem and related interfaces supporting the processing of media contentUS20060044446 *Nov 28, 2003Mar 2, 2006Porter Robert M SMedia handling systemUS20060129748 *Jan 30, 2006Jun 15, 2006Microsoft CorporationSystem and Related Methods for Reducing Memory Requirements of a Media Processing SystemUS20060168554 *Dec 27, 2005Jul 27, 2006Microsoft CorporationA System and Methods for Generating and Managing Filter Strings in a Filter GraphUS20060184980 *Jan 27, 2004Aug 17, 2006Cole David JMethod of enabling an application program running on an electronic device to provide media manipulation capabilitiesUS20060253781 *Jul 3, 2006Nov 9, 2006Board Of Trustees Of The Leland Stanford Junior UniversityMethods and apparatus for interactive point-of-view authoring of digital video contentUS20060257098 *Jul 18, 2006Nov 16, 2006Kei FukudaInformation processing apparatus and processing method, and program storage mediumUS20060269256 *May 9, 2006Nov 30, 2006Funai Electric Co., Ltd.Hard disk recorderUS20070101268 *Nov 1, 2005May 3, 2007Microsoft CorporationVideo bookletUS20070118296 *Nov 8, 2004May 24, 2007Dna Software Inc.System and methods for three dimensional molecular structural analysisUS20070199022 *Dec 4, 2006Aug 23, 2007Hillcrest Laboratories, Inc.Multimedia systems, methods and applicationsUS20070240072 *Apr 9, 2007Oct 11, 2007Yahoo! Inc.User interface for editing media assestsUS20070294619 *Jun 16, 2006Dec 20, 2007Microsoft CorporationGenerating media presentationsUS20080005246 *Aug 14, 2007Jan 3, 2008Microsoft CorporationMultipoint processing unitUS20080005652 *Jun 30, 2006Jan 3, 2008Microsoft CorporationMedia presentation driven by meta-data eventsUS20080022205 *Jul 17, 2007Jan 24, 2008Mitsutoshi ShinkaiRecording control device and recording control method, and programUS20080040444 *Aug 9, 2006Feb 14, 2008Nils AngquistMedia map for capture of content from random access devicesUS20080147719 *Feb 14, 2008Jun 19, 2008Microsoft CorporationSystems and Methods for Generating and Managing Filter Strings in a Filter Graph Utilizing a Matrix SwitchUS20080148152 *Dec 15, 2006Jun 19, 2008Yahoo! Inc.Systems and methods for providing a video playlistUS20080152297 *Jun 29, 2007Jun 26, 2008Apple Inc.Select Drag and Drop Operations on Video Thumbnails Across Clip BoundariesUS20080152298 *Jun 29, 2007Jun 26, 2008Apple Inc.Two-Dimensional Timeline Display of Media ItemsUS20080152299 *Jun 29, 2007Jun 26, 2008Apple Inc.Regular Sampling and Presentation of Continuous Media StreamUS20080155421 *Jun 8, 2007Jun 26, 2008Apple Inc.Fast Creation of Video SegmentsUS20080229200 *Mar 16, 2007Sep 18, 2008Fein Gene SGraphical Digital Audio Data Processing SystemUS20080255687 *Apr 14, 2007Oct 16, 2008Aaron EppolitoMulti-Take Compositing of Digital Media AssetsUS20080256136 *Mar 31, 2008Oct 16, 2008Jerremy HollandTechniques and tools for managing attributes of media contentUS20080256448 *Apr 14, 2007Oct 16, 2008Nikhil Mahesh BhattMulti-Frame Video Display Method and ApparatusUS20080263433 *Apr 14, 2008Oct 23, 2008Aaron EppolitoMultiple version merge for media productionUS20080263450 *Apr 14, 2008Oct 23, 2008James Jacob HodgesSystem and method to conform separately edited sequencesUS20080288869 *Aug 1, 2008Nov 20, 2008Apple Inc.Boolean Search User InterfaceUS20090055363 *Nov 3, 2008Feb 26, 2009Microsoft CorporationMethods and Systems for Processing Multi-media Editing ProjectsUS20090063429 *Nov 3, 2008Mar 5, 2009Microsoft CorporationMethods and Systems for Processing Multi-Media Editing ProjectsUS20090088143 *Sep 18, 2008Apr 2, 2009Lg Electronics, Inc.Mobile terminal, method of displaying data therein and method of editing data thereinUS20090113279 *Feb 28, 2006Apr 30, 2009James MonroMethod and apparatus for editing mediaUS20090132947 *May 2, 2007May 21, 2009Seong Woon SeolDisplay device for having the function of editing recorded data and method for controlling the sameUS20090183077 *Jan 14, 2008Jul 16, 2009Apple Inc.Creating and Viewing Preview ObjectsUS20090249208 *Mar 13, 2009Oct 1, 2009Song In SunMethod and device for reproducing imagesUS20090313341 *Feb 5, 2009Dec 17, 2009Electronic Arts Inc.Electronic in-application postcardsUS20100066905 *Apr 7, 2008Mar 18, 2010C-Nario Ltd.System, method and device for displaying video signalsUS20100250510 *Jun 14, 2010Sep 30, 2010Magix AgSystem and method of multimedia content editingUS20100281371 *Apr 30, 2009Nov 4, 2010Peter WarnerNavigation Tool for Video PresentationsUS20100281375 *Apr 30, 2009Nov 4, 2010Colleen PendergastMedia Clip Auditioning Used to Evaluate Uncommitted Media ContentUS20100281376 *Apr 30, 2009Nov 4, 2010Brian MeaneyEdit Visualizer for Modifying and Evaluating Uncommitted Media ContentUS20100281384 *Jan 15, 2010Nov 4, 2010Charles LyonsTool for Tracking Versions of Media Sections in a Composite PresentationUS20100281386 *Jan 15, 2010Nov 4, 2010Charles LyonsMedia Editing Application with Candidate Clip ManagementUS20100306636 *Mar 9, 2010Dec 2, 2010Girafa.Com Inc.Framework for providing visual context to www hyperlinksUS20100332981 *Jun 30, 2009Dec 30, 2010Daniel LiptonProviding Media Settings Discovery in a Media Processing ApplicationUS20110113331 *Nov 10, 2009May 12, 2011Tilman HerbergerSystem and method for dynamic visual presentation of digital audio contentUS20110191661 *Apr 12, 2011Aug 4, 2011Michael PhillipsEditing time-based media with enhanced contentUS20110265001 *Apr 21, 2010Oct 27, 2011Roniie Neil PattonCameraless A/V documenting of user interactions with MFP device user interfaceUS20110289413 *Aug 4, 2011Nov 24, 2011Apple Inc.Fast Creation of Video SegmentsUS20110301759 *Aug 1, 2011Dec 8, 2011Yulun WangGraphical interface for a remote presence systemUS20110320483 *Jun 23, 2011Dec 29, 2011Samsung Electronics Co., Ltd.Media file management system and method for home media centerUS20120014619 *Mar 29, 2011Jan 19, 2012Hiroaki TobitaImage processing device, image processing method and image processing programUS20120057851 *Nov 10, 2011Mar 8, 2012Sony CorporationData-providing apparatus, data-providing method and program-sorting mediumUS20120110426 *Jan 19, 2011May 3, 2012Girafa.Com Inc.Framework for providing visual context to www hyperlinkUS20130124992 *Jan 9, 2013May 16, 2013Apple Inc.Tool for Navigating a Composite PresentationUS20140006978 *Jun 30, 2012Jan 2, 2014Apple Inc.Intelligent browser for media editing applicationsUS20140019474 *Jul 9, 2013Jan 16, 2014Sony CorporationTransmission apparatus, information processing method, program, reception apparatus, and application-coordinated systemUS20140215332 *Jan 31, 2013Jul 31, 2014Hewlett-Packard Development Company, LpVirtual microphone selection corresponding to a set of audio source devicesUSRE45870Jul 6, 2012Jan 26, 2016Intouch Technologies, Inc.Apparatus and method for patient rounding with a remote controlled robotCN1574047BJun 15, 2004Jul 4, 2012佳能株式会社Data processing apparatusCN1612599BOct 29, 2004Mar 16, 2011微软公司Method and system for demonstrating information to userCN101433078BMay 2, 2007Mar 30, 2011Lg电子株式会社Display device for having the function of editing recorded data and method for controlling the sameCN101611451B *Nov 29, 2007Jan 28, 2015苹果公司Two-dimensional timeline display of media itemsCN101663709BNov 21, 2007May 22, 2013苹果公司Apparatus and method enables displaying part of media items on user interfaceCN101681665BNov 21, 2007Jun 26, 2013苹果公司Fast creation of video segmentsCN103999158A *Oct 9, 2012Aug 20, 2014Utc 消防及保安公司Filmstrip interface for searching videoEP1513151A1 *Sep 2, 2004Mar 9, 2005Sony Computer Entertainment Inc.Device and method for editing moving picture dataEP1551182A1 *Dec 16, 2004Jul 6, 2005Nokia CorporationMethod for editing a media clip in a mobile terminal device, a terminal device utilizing the method and program means for implementing the methodEP1872268A2 *Apr 3, 2006Jan 2, 2008Leitch TechnologyIcon bar display for video editing systemEP1872268A4 *Apr 3, 2006Jan 2, 2013Leitch TechnologyIcon bar display for video editing systemEP2040155A3 *Sep 16, 2008May 9, 2012Lg Electronics Inc.Mobile terminal, method of displaying data therein and method of editing data thereinEP2107568A1 *Dec 8, 2008Oct 7, 2009LG Electronics Inc.Methods and device for reproducing imagesWO2004090898A1 *Mar 31, 2004Oct 21, 2004Internet Pro Video LimitedComputer based system for selecting digital media framesWO2004090899A1 *Jan 27, 2004Oct 21, 2004Internet Pro Video LimitedElectronic device with media manipulation capabilitiesWO2004090900A1 *Jan 27, 2004Oct 21, 2004Internet Pro Video LimitedMethod of enabling an application program running on an electronic device to provide media manipulation capabilitiesWO2005101408A1 *Apr 14, 2005Oct 27, 2005Forbidden Technologies PlcA method for enabling efficient navigation of videoWO2008052009A2 *Oct 23, 2007May 2, 2008Adobe Systems IncorporatedMethods and apparatus for representing audio dataWO2008052009A3 *Oct 23, 2007Oct 9, 2008Adobe Systems IncMethods and apparatus for representing audio dataWO2008079567A1Nov 21, 2007Jul 3, 2008Apple Inc.Regular sampling and presentation of continuous media streamWO2008079568A1 *Nov 21, 2007Jul 3, 2008Apple Inc.Fast creation of video segmentsWO2008079587A2 *Nov 29, 2007Jul 3, 2008Apple Inc.Two-dimensional timeline display of media itemsWO2008079587A3 *Nov 29, 2007Oct 9, 2008Apple IncTwo-dimensional timeline display of media itemsWO2013041955A2 *Sep 25, 2012Mar 28, 2013Raymond FixElectronic communication correlating audio content with user interaction events that act on the visual contentWO2013041955A3 *Sep 25, 2012Aug 22, 2013Raymond FixElectronic communication correlating audio content with user interaction events that act on the visual contentWO2013059030A1 *Oct 9, 2012Apr 25, 2013Utc Fire & Security CorporationFilmstrip interface for searching video* Cited by examinerClassifications U.S. Classification715/716, G9B/27.029, 715/204, G9B/27.012, 715/202, G9B/27.051, 707/999.102, 707/999.104International ClassificationG11B27/032, G11B27/034, G11B27/28, H04L12/28, G11B27/024, G11B27/34Cooperative ClassificationY10S707/99945, Y10S707/99943, G11B27/28, G11B2220/41, G11B27/034, G11B2220/90, G11B27/032, G11B27/024, G11B27/34European ClassificationG11B27/34, G11B27/28, G11B27/034Legal EventsDateCodeEventDescriptionSep 26, 1997ASAssignmentOwner name: SONY CORPORATION, JAPANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:SNOOK, STEPHEN TUPPER;REEL/FRAME:008741/0094Effective date: 19970925Owner name: SONY ELECTRONICS,INC., NEW JERSEYFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:SNOOK, STEPHEN TUPPER;REEL/FRAME:008741/0094Effective date: 19970925Dec 5, 2005FPAYFee paymentYear of fee payment: 4Dec 4, 2009FPAYFee paymentYear of fee payment: 8Dec 4, 2013FPAYFee paymentYear of fee payment: 12RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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CN103117485A * Aug 3, 2012 May 22, 2013 泰科电子公司 Electrical connector assembly with EMI gasket CN103117485B * Aug 3, 2012 Dec 21, 2016 泰科电子公司 具有电磁干扰垫圈的电连接器组件 U.S. Classification 439/607.2, 439/607.56, 439/607.4
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In addition, the cleaning cloth impregnated with a cleaning liquid is lodged in a cylindrical case for supply in a cassette form, or is laminated with a very thin film which is impermeable to air, thereby preventing any transpiration of the cleaning liquid and facilitating handling of the cleaning cloth. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS4064061 *Jan 4, 1977Dec 20, 1977Magi-Cloth, Inc.Cleaning cloth compositionUS4074627 *Dec 6, 1976Feb 21, 1978Koenig & Bauer AktiengesellschaftApparatus for preventing non-uniform application of inkUS4344361 *Apr 19, 1979Aug 17, 1982Baldwin-Gegenheimer CorporationAutomatic blanket cylinder cleanerUS4389936 *Nov 18, 1980Jun 28, 1983Precision Screen Machines, Inc.Cleaning attachment for screen printerUS4666621 *Apr 2, 1986May 19, 1987Sterling Drug Inc.Pre-moistened, streak-free, lint-free hard surface wiping articleUS4673523 *Apr 16, 1986Jun 16, 1987Creative Products Resource Associates, Ltd.Glass cleaning composition containing a cyclic anhydride and a poly(acrylamidomethylpropane) sulfonic acid to reduce frictionUS4926218 *Sep 11, 1989May 15, 1990Minolta Camera Kabushiki KaishaImage forming apparatusUS4939552 *Aug 31, 1988Jul 3, 1990Minolta Camera Kabushiki KaishaCopying apparatus with drum or fixing roller cleaning belt driven from document scanner* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS5243910 *Apr 10, 1992Sep 14, 1993B. Bunch Company, Inc.Wash assembly for ink trainUS5323217 *Mar 22, 1993Jun 21, 1994Moore Business Forms, Inc.Ion deposition printer cleaning apparatus and related methodUS5404819 *Aug 3, 1994Apr 11, 1995Nikka LimitedApparatus for cleaning printing press blanket cylinder and method for manufacturing the sameUS5423411 *Apr 30, 1993Jun 13, 1995Teknek Electronics LimitedCleaning apparatus and cleaning methodUS5452065 *Oct 4, 1994Sep 19, 1995Xerox CorporationCombination photoreceptor and fuser roll cleaner with additional oil supply functionUS5515141 *Feb 2, 1995May 7, 1996Hewlett-Packard CompanyIn-line tubular mixing device for liquid electrophotographic purposesUS5534983 *Jan 31, 1995Jul 9, 1996Canon Kabushiki KaishaImage forming apparatus having a transfer member cleaning deviceUS5539504 *Feb 2, 1995Jul 23, 1996Hewlett-Packard CompanyLiquid toner extraction apparatus for electrophotographic equipmentUS5619314 *Jul 13, 1995Apr 8, 1997Canon Kabushiki KaishaImage forming apparatusUS5705447 *Jan 24, 1996Jan 6, 1998Canon Kabushiki KaishaOil absorbing cleaning memberUS5918544 *Apr 16, 1996Jul 6, 1999Mpm CorporationCleaner for printing devices having means to disengage web from fluid sourceUS6035483 *Jun 7, 1995Mar 14, 2000Baldwin Graphic Systems, Inc.Cleaning system and process for making and using same employing a highly viscous solventUS6038731 *Dec 23, 1996Mar 21, 2000Baldwin-Japan Ltd.Cylinder cleaning deviceUS6253413 *Feb 9, 1999Jul 3, 2001Baldwin-Japan Ltd.Pressure pad and cylinder cleaning apparatusUS6332238 *Jan 25, 2000Dec 25, 2001Baldwin-Japan Ltd.Cylinder cleaning deviceUS6546591 *Jun 28, 2001Apr 15, 2003Baldwin-Japan, Ltd.Pressure pad and cylinder cleaning apparatusUS6618896 *Sep 28, 1999Sep 16, 2003Koenig & Bauer AgApparatus for cleaning of curved surfaces employing the cloth principleUS6817565Mar 14, 2002Nov 16, 2004Baldwin Graphic Systems, Inc.Take-up shaft for cleaning cylinder deviceUS6849124Jun 15, 1998Feb 1, 2005Baldwin Graphics Systems, Inc.Soak on site and soak press cleaning system and method of using sameUS7014716Mar 6, 2001Mar 21, 2006Baldwin Graphic Systems Inc.Method of cleaning a cylinder of a printing pressUS7024150 *Sep 17, 2003Apr 4, 2006Brother Kogyo Kabushiki KaishaSeparable cleaning device for an image forming apparatusUS7069854Mar 6, 2001Jul 4, 2006Baldwin Graphic Systems Inc.Soak on site and soak on press cleaning system and method of using sameUS7218886 *Jul 20, 2004May 15, 2007Xerox CorporationMethod and kit for removing a residue from an imaging memberUS20120031289 *Apr 8, 2011Feb 9, 2012James ChengPrint Pad BlanketUSRE35976 *Aug 28, 1996Dec 1, 1998Baldwin Graphic Systems, Inc.Pre-packaged, pre-soaked cleaning system and method for making the sameCN100478793CSep 17, 2003Apr 15, 2009兄弟工业株式会社Treating device and image forming deviceCN101934632BJun 29, 2010May 14, 2014海德堡印刷机械股份公司Element for pressing cleaning cloth at printing form cylinder of printing machineEP0741034A2Dec 29, 1995Nov 6, 1996Baldwin Graphic Systems, IncCleaning system and process for making same employing reduced air cleaning fabricWO2000029216A1 *Nov 19, 1999May 25, 2000Baldwin Graphic System IncCylinder cleaning device* Cited by examinerClassifications U.S. Classification101/425, 15/256.51, 399/343International ClassificationB41F35/06, B41F35/00Cooperative ClassificationB41F35/00, B41P2235/246European ClassificationB41F35/00Legal EventsDateCodeEventDescriptionMay 7, 2003FPAYFee paymentYear of fee payment: 12May 24, 1999FPAYFee paymentYear of fee payment: 8May 15, 1995FPAYFee paymentYear of fee payment: 4Apr 4, 1989ASAssignmentOwner name: B-J TRADING LIMITED, 16-5, HIRANO 2-CHOME, KOHTO-KFree format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNORS:HARA, AKIRA;SUKIGARA, MITSUNORI;TAKAGI, TOSHISABURO;REEL/FRAME:005061/0009Effective date: 19890320RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
D:\work1\data\c4\downloaded\c4-en.tfrecord-00604-of-11264.json.gz.tmp
20,616
[11] Barry A O, Koran Z, Kaliaguine S. Journal of Applied Polymer Science, 1990, 39: 31. [12] WANG Xiao-qing, FEI Ben-hua, REN Hai-qing(王小青, 费本华, 任海青). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2009,29(5):1272. [13] Pandey K K. Polymer Degradation and Stability, 2005, 90: 9.
D:\work1\data\c4\downloaded\c4-en.tfrecord-00604-of-11264.json.gz.tmp
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An electrolysis cell for the reduction of carbon dioxide was prepared having a 0.05 Ft2 cathode of nickel phthalocyanine and teflon in a mixture of 85% to 15% by weight pressed onto the electrolyte. In addition a secondary cathode was utilized in the form of 6-40 mesh 316 stainless steel screens electroplated with indium. In addition an Indium plate was tack welded to the fluid distribution plate formed from the collector plate to promote fluid turbulence in the carbon dioxide flow and improve the contact with the two cathodes. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS3585079 *Nov 14, 1968Jun 15, 1971Siemens AgFuel cell electrodes having a polymeric metal-containing or metal-free phthalocyanine catalystUS3773878 *Feb 16, 1971Nov 20, 1973Bosch Gmbh RobertMethod of producing self-breathing composite electrode for fuel cellsUS3992271 *Mar 3, 1975Nov 16, 1976General Electric CompanyMethod for gas generationUS4179350 *Sep 5, 1978Dec 18, 1979The Dow Chemical CompanyCatalytically innate electrode(s)US4187350 *Sep 5, 1978Feb 5, 1980The Dow Chemical CompanyPorous catalyzed electrode provision and techniqueUS4252875 *Apr 14, 1980Feb 24, 1981Honeywell Inc.Electro-catalysts for the cathode(s) to enhance its activity to reduce SoCl2 in Li/SoCl2 batteryUS4294608 *Mar 27, 1980Oct 13, 1981General Electric CompanyCatalytic alloysUS4380576 *Dec 31, 1981Apr 19, 1983Toshiba Battery Co., Ltd.Air cellUS4405693 *Oct 5, 1981Sep 20, 1983Honeywell Inc.High rate metal-sulfuryl chloride batteriesUS4407907 *Nov 30, 1981Oct 4, 1983Tokyo Shibaura Denki Kabushiki KaishaAir electrodeUS4510214 *Aug 16, 1983Apr 9, 1985Tracer Technologies, Inc.Electrode with electron transfer catalystUS4520086 *Feb 1, 1984May 28, 1985The United States Of America As Represented By The United States Department Of EnergyRechargeable solid polymer electrolyte battery cellUS4556614 *Nov 4, 1982Dec 3, 1985Compagnie Generale D'electriciteMethod of producing a polymer based solid electrolyte for an electrochemical cellUS4584251 *Dec 12, 1984Apr 22, 1986Ciba-Geigy CorporationSolid electrolyte cell and iodine-doped metal complexes as the cathode materialUS4609441 *Dec 18, 1985Sep 2, 1986Gas Research InstituteElectrochemical reduction of aqueous carbon dioxide to methanolUS4710437 *Jan 13, 1986Dec 1, 1987Honeywell Inc.High rate metal oxyhalide cells* Cited by examinerNon-Patent CitationsReference1 *A. H. A. Tinnemans, T. P. M. Koster, D. H. M. W. Thewissen, A. Mackor; Tetraaza Macrocylic Cobalt (II) and Nickel (II) Complexes as Electron Transfer Agents in the Photo(Electro) Chemical and Electrochemical Reduction of Carbon Dioxide; Mar. 1984.2A. H. A. Tinnemans, T. P. M. Koster, D. H. M. W. Thewissen, A. Mackor; Tetraaza-Macrocylic Cobalt (II) and Nickel (II) Complexes as Electron-Transfer Agents in the Photo(Electro) Chemical and Electrochemical Reduction of Carbon Dioxide; Mar. 1984.3 *M. Ulman, B. Avrian Blajeni, M. Halmann; Fuel from CO 2 : An Electrochemical Study; Apr. 1984.4M. Ulman, B. Avrian-Blajeni, M. Halmann; Fuel from CO2 : An Electrochemical Study; Apr. 1984.5 *Ronald Cook, Robert C. MacDuff, Anthony F. Sammelk;/ Ambient Temperature Gas Phase CO 2 Reduction to Hydrocarbons at Solid Polymer Electrolyte Cells; Jun. 1988.6Ronald Cook, Robert C. MacDuff, Anthony F. Sammelk;/ Ambient Temperature Gas Phase CO2 Reduction to Hydrocarbons at Solid Polymer Electrolyte Cells; Jun. 1988.7 *Solid Polymer Electrolyte Technology for Carbon Dioxide Removal Reduction; Jan. 1983.* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS5795453 *Jan 23, 1996Aug 18, 1998Gilmartin; Markas A. T.Electrodes and metallo isoindole ringed compoundsUS5830341 *Jan 23, 1996Nov 3, 1998Gilmartin; Markas A. T.Electrodes and metallo isoindole ringed compoundsUS8277631 *May 5, 2008Oct 2, 2012Principle Energy Solutions, Inc.Methods and devices for the production of hydrocarbons from carbon and hydrogen sourcesUS8313634Nov 20, 2012Princeton UniversityConversion of carbon dioxide to organic productsUS8500987Jul 29, 2010Aug 6, 2013Liquid Light, Inc.Purification of carbon dioxide from a mixture of gasesUS8524066Sep 3, 2010Sep 3, 2013Liquid Light, Inc.Electrochemical production of urea from NOx and carbon dioxideUS8562811Mar 9, 2012Oct 22, 2013Liquid Light, Inc.Process for making formic acidUS8568581Nov 30, 2011Oct 29, 2013Liquid Light, Inc.Heterocycle catalyzed carbonylation and hydroformylation with carbon dioxideUS8592633Jul 5, 2012Nov 26, 2013Liquid Light, Inc.Reduction of carbon dioxide to carboxylic acids, glycols, and carboxylatesUS8604398Nov 10, 2010Dec 10, 2013SDCmaterials, Inc.Microwave purification processUS8652992Dec 7, 2010Feb 18, 2014SDCmaterials, Inc.Pinning and affixing nano-active materialUS8658016Jul 5, 2012Feb 25, 2014Liquid Light, Inc.Carbon dioxide capture and conversion to organic productsUS8663447Nov 19, 2012Mar 4, 2014Princeton UniversityConversion of carbon dioxide to organic productsUS8668803Dec 14, 2010Mar 11, 2014SDCmaterials, Inc.Sandwich of impact resistant materialUS8669202Feb 23, 2011Mar 11, 2014SDCmaterials, Inc.Wet chemical and plasma methods of forming stable PtPd catalystsUS8679433Aug 17, 2012Mar 25, 2014SDCmaterials, Inc.Coated substrates for use in catalysis and catalytic converters and methods of coating substrates with washcoat compositionsUS8721866Jul 29, 2010May 13, 2014Liquid Light, Inc.Electrochemical production of synthesis gas from carbon dioxideUS8759248Nov 19, 2012Jun 24, 2014SDCmaterials, Inc.Method and system for forming plug and play metal catalystsUS8803025Dec 10, 2010Aug 12, 2014SDCmaterials, Inc.Non-plugging D.C. plasma gunUS8821786Dec 15, 2010Sep 2, 2014SDCmaterials, Inc.Method of forming oxide dispersion strengthened alloysUS8828328Dec 15, 2010Sep 9, 2014SDCmaterails, Inc.Methods and apparatuses for nano-materials powder treatment and preservationUS8845877Jul 29, 2010Sep 30, 2014Liquid Light, Inc.Heterocycle catalyzed electrochemical processUS8845878Mar 6, 2013Sep 30, 2014Liquid Light, Inc.Reducing carbon dioxide to productsUS8859035Dec 7, 2010Oct 14, 2014SDCmaterials, Inc.Powder treatment for enhanced flowabilityUS8865611Sep 13, 2013Oct 21, 2014SDCmaterials, Inc.Method of forming a catalyst with inhibited mobility of nano-active materialUS8877357Dec 14, 2010Nov 4, 2014SDCmaterials, Inc.Impact resistant materialUS8893651May 8, 2008Nov 25, 2014SDCmaterials, Inc.Plasma-arc vaporization chamber with wide boreUS8906316May 31, 2013Dec 9, 2014SDCmaterials, Inc.Fluid recirculation system for use in vapor phase particle production systemUS8906498Dec 14, 2010Dec 9, 2014SDCmaterials, Inc.Sandwich of impact resistant materialUS8932514Dec 7, 2010Jan 13, 2015SDCmaterials, Inc.Fracture toughness of glassUS8961774Nov 30, 2011Feb 24, 2015Liquid Light, Inc.Electrochemical production of butanol from carbon dioxide and waterUS8969237Jan 27, 2014Mar 3, 2015SDCmaterials, Inc.Coated substrates for use in catalysis and catalytic converters and methods of coating substrates with washcoat compositionsUS8986533May 15, 2012Mar 24, 2015Princeton UniversityConversion of carbon dioxide to organic productsUS8992820Dec 7, 2010Mar 31, 2015SDCmaterials, Inc.Fracture toughness of ceramicsUS9023754Jul 30, 2013May 5, 2015SDCmaterials, Inc.Nano-skeletal catalystUS9089840Jun 18, 2013Jul 28, 2015SDCmaterials, Inc.Method and system for forming plug and play oxide catalystsUS9090976Dec 30, 2011Jul 28, 2015The Trustees Of Princeton UniversityAdvanced aromatic amine heterocyclic catalysts for carbon dioxide reductionUS9126191Dec 7, 2010Sep 8, 2015SDCmaterials, Inc.Advanced catalysts for automotive applicationsUS9132404May 9, 2008Sep 15, 2015SDCmaterials, Inc.Gas delivery system with constant overpressure relative to ambient to system with varying vacuum suctionUS9149797Dec 10, 2010Oct 6, 2015SDCmaterials, Inc.Catalyst production method and systemUS9156025Mar 13, 2013Oct 13, 2015SDCmaterials, Inc.Three-way catalytic converter using nanoparticlesUS9180423May 8, 2008Nov 10, 2015SDCmaterials, Inc.Highly turbulent quench chamberUS9186663Aug 26, 2013Nov 17, 2015SDCmaterials, Inc.Method and system for forming plug and play metal compound catalystsUS9216398Jan 27, 2014Dec 22, 2015SDCmaterials, Inc.Method and apparatus for making uniform and ultrasmall nanoparticlesUS9216406Feb 7, 2014Dec 22, 2015SDCmaterials, Inc.Wet chemical and plasma methods of forming stable PtPd catalystsUS9222179Jun 21, 2013Dec 29, 2015Liquid Light, Inc.Purification of carbon dioxide from a mixture of gasesUS9302260Apr 26, 2013Apr 5, 2016SDCmaterials, Inc.Method and system for forming plug and play metal catalystsUS9308524Sep 12, 2014Apr 12, 2016SDCmaterials, Inc.Advanced catalysts for automotive applicationsUS9309599Sep 19, 2013Apr 12, 2016Liquid Light, Inc.Heterocycle catalyzed carbonylation and hydroformylation with carbon dioxideUS9332636Feb 10, 2014May 3, 2016SDCmaterials, Inc.Sandwich of impact resistant materialUS20070021734 *Jul 12, 2006Jan 25, 2007Sai BhavarajuBioelectro-osmotic engine fluid delivery deviceUS20080277092 *May 8, 2008Nov 13, 2008Layman Frederick PWater cooling system and heat transfer systemUS20080283411 *May 5, 2008Nov 20, 2008Eastman Craig DMethods and devices for the production of Hydrocarbons from Carbon and Hydrogen sourcesUS20100187123 *Jan 29, 2010Jul 29, 2010Bocarsly Andrew BConversion of carbon dioxide to organic productsUS20110114501 *May 19, 2011Kyle TeameyPurification of carbon dioxide from a mixture of gasesUS20110114502 *Jul 29, 2010May 19, 2011Emily Barton ColeReducing carbon dioxide to productsUS20110114503 *May 19, 2011Liquid Light, Inc.ELECTROCHEMICAL PRODUCTION OF UREA FROM NOx AND CARBON DIOXIDEUS20110114504 *May 19, 2011Narayanappa SivasankarElectrochemical production of synthesis gas from carbon dioxideUS20110143930 *Jun 16, 2011SDCmaterials, Inc.Tunable size of nano-active material on nano-supportUS20110226632 *Sep 22, 2011Emily Barton ColeHeterocycle catalyzed electrochemical processCN1924100BAug 29, 2006Dec 29, 2010华北电力大学Thermoelectricity united supplying method for simultaneous preparing H2 and FeCO3 and apparatus thereofWO2008134871A1 *May 5, 2008Nov 13, 2008Principle Energy Solutions, Inc.Production of hydrocarbons from carbon and hydrogen sources* Cited by examinerClassifications U.S. Classification205/338, 204/263, 205/440, 205/462, 205/448, 205/450International ClassificationC25B3/04, C25B9/10Cooperative ClassificationC25B9/10, C25B3/04European ClassificationC25B3/04, C25B9/10Legal EventsDateCodeEventDescriptionMar 31, 1989ASAssignmentOwner name: UNITED TECHNOLOGIES CORPORATION, HARTFORD, CONNECTFree format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:MOLTER, TRENT M.;REEL/FRAME:005058/0998Effective date: 19890322Oct 12, 1993FPAYFee paymentYear of fee payment: 4Oct 14, 1997FPAYFee paymentYear of fee payment: 8Nov 20, 2001REMIMaintenance fee reminder mailedDec 13, 2001FPAYFee paymentYear of fee payment: 12Dec 13, 2001SULPSurcharge for late paymentYear of fee payment: 11RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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3. It is Intended that she will sail within three week from the date of my last advice of the 12th june . 该轮定于自6月12日我最后一次通知之日起,三周内开航。 4. If the non-negotiable sea waybill contains the indication "intended vessel" or similar qualification in relation to the name of the vessel, an on board notation indicating the date of shipment and the name of the actual vessel is required.
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6. An application shall not be refused solely on the ground that intended use has not taken place before the expiry of a period of three years from the date of application. 不得仅以自申请日起3年期满后商标未按原意使用为由拒绝该申请。 7. The applicant is required to submit the completed application form at least 2 weeks and at most 3 months in advance of the intended date of visit. Visits will be arranged on a first-come-first-served basis. 申请人须于距离拟定参观日期三个月至两星期前递交申请表。申请将根据先到先得办法作出安排。 -- 来源 -- 英汉 - 翻译样例 - 应用 好评(10) 差评(3)
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Luke Greenwood, Lyndon Man The investment performances are denominated in GBP. US/HK dollar-based investors are therefore exposed to fluctuations in exchange rates.Investment involves risks. Past performance is not indicative of future performance. Investors should read the relevant prospectus for details, including the risk factors and product features. This material has not been reviewed by the Securities and Futures Commission and is issued by Invesco Asset Management Asia Limited (景順投資管理亞洲有限公司).
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Los 20 mejores apartamentos vacacionales para alquilar en Wellington County - Airbnb Conviértete en anfitriónAyudaRegístrateInicia sesiónWellington County · En cualquier momento · 1 huéspedWellington CountyEn cualquier momento1 huéspedDóndeEn cualquier momento1 huéspedTipo de habitaciónRango de preciosReserva inmediataPolítica de reembolsoMás filtros164 Alquileres de apartamentosYou will love staying at The Cellar Suite. We are the only suite with a beautiful river view. We are located downtown and close to shopping. We are a 5 min walk away from the famous Elora Gorge. 2km from Elora race track and slots. My place is a relaxing/romantic getaway for couples. Or for solo adventurers, and business travellers.This apartment is completely private. There are no shared areas.该公寓是美丽的,完美的位置,视图愉快。一个伟大的小接应点。Jan2016-08-29T00:00:00ZThis was an amazingly lucky find! This place was just steps from Riverfest and close to so many good restaurants, cafes and shopping, as well as being close to the Elora Gorge and Convservation Quarry area. The place itself was better than your average 4 star hotel. Great kitchen, a huge main bedroom with big windows and a nice view of the river. This is a perfect getaway place for a couple or a very comfortable place for a small family to stay and enjoy what the local area has to offer. Janet our host was attentive and pro-active in making sure we had what we needed, and she was quick to respond to our questions. Everything went better than expected!Joseph2016-08-22T00:00:00ZI see now that the description of 'use of patio' has been omitted. The posted photo is misleading ie a patio table and chair. We expected to be able to walk out on the patio from our room at our convenience. The host should have stated that we had to leave our suite, walk to the main street then down and around to a shared public restaurant patio. Also the shower was leaking and host said husband would fix it- was still leaking when we leftJan2017-05-22T00:00:00Z什么是绝对可爱的地方!珍妮特和她的丈夫是优秀的主机。他们是美妙的餐厅酒窖的所有者,就在单元的下方。我们的住宿是精美的,我们的用餐体验是令人愉快的。我期待着更多的参观埃洛拉!谢谢! :-)KiKi2016-08-06T00:00:00ZThis was a beautiful location with a terrific view. The rooms were spotless and it felt very much like homeKeith2017-02-22T00:00:00Z我们有一个非常好的留在埃洛拉,我们的套件是完美的,位置很好,我们的主人珍妮特在那里有我们需要的一切。Joanne2016-10-08T00:00:00Z我们十分享受我们在酒窖套房住宿。珍妮特是现成的任何问题,并没有真的没有问题。一切都被描述和位置非常好。肯定会推荐!Cathy2016-08-29T00:00:00ZJanet's place is exactly as advertised. We were looking for a nice place in Elora for a weekend getaway. The bedroom in the fully equipped apartment is only steps from the Grand River. Spectacular view! We got a note from Janet just as we arrived in town. The apartment is clean and nicely furnished. We had a bit of challenge with the always important TV converter. Janet's husband was up right away and showed us how to use it! Elora is beautiful town, and everything is in walking distance from the apartment. Recommended for sure! Brad and LindaBrad2017-02-26T00:00:00ZTipo de habitaciónHabitación privadaTipo de propiedadApartamentoCapacidad3DormitoriosElora, Ontario, CanadáThe Cellar SuitePrecio69€ The Cellar SuiteHabitación privada · 2 camas · Totalmente reembolsable21 evaluacionesA cheerful two bedroom apartment located downtown historic Fergus. Only a short walk to the beautiful Grand River and Fergus Falls. Also conveniently located right near local restaurants, pubs, cafes, and other small shops. An ideal place to stay for small families, couples, solo adventurers, and business travelers. (Unit number is 2 main floor access)Guests have access to their own well equipped kitchen which includes a stove, microwave, fridge/freezer, and storage space.Our apartment is located in a friendly neighborhood right downtown Fergus. You can take a relaxing walk in a few quite parks located nearby, or stop in at the Brew House and enjoy a refreshing drink on the patio overlooking the Grand River.Tipo de habitaciónCasa/apto. enteroTipo de propiedadApartamentoCapacidad4DormitoriosFergus, Ontario, CanadáDowntown Two- Bedroom!Precio69€ Downtown Two- Bedroom!Casa/apto. entero · 2 camas · Totalmente reembolsableNUEVO2 evaluacionesBasement apartment with sliders onto the back deck. One very large bedroom with work area. Queen size bed with feather duvet and luxurious sheets. Sofa bed in the livingroom with new mattress. Galley kitchen with breakfast bar with 3 stools. 40 inch tv with cable hookup. Wifi. Movies available for viewing. Beautiful park like yard with koi pond. Multiple decks to accomodate guests and owners who live on premises. Private entrance. Hot tub available by special request at additional cost.Tipo de habitaciónCasa/apto. enteroTipo de propiedadApartamentoCapacidad4DormitoriosFergus, Ontario, CanadáRavine RetreatPrecio67€ Ravine RetreatCasa/apto. entero · 2 camasNUEVO1 evaluaciónLarge, bright 2 bedroom apartment. Separate entrance with 2 parking spots on a quiet, family street. Access to back yard and deck. 5 minute walk to downtown, park, pool, splash pad and arena. Kid friendly. Bell TV and free WIFI.Fully functional kitchen, dining room and living room. 2 large bedrooms. Toys and board games. Full bathroom with stand up shower.Family friendly, very quiet neighborhood. Close to everything. Nail salon on premise. To book appointment go to "Your Nails" on Faceb_okGreg and Amanda are very good host. My friends and I had a great time. The rooms are clean and very comfortable. We wish to stay more longer next time. 丸子2017-05-21T00:00:00ZTipo de habitaciónCasa/apto. enteroTipo de propiedadApartamentoCapacidad7DormitoriosArthur, Ontario, Canadá2 Bedroom Apartment in quiet neighbourhoodPrecio104€ 2 Bedroom Apartment in quiet neighbourhoodCasa/apto. entero · 4 camas · Totalmente reembolsable3 evaluacionesPrivate beautiful one bed-room apartment with own driveway and garden patio beside century home in old downtown Fergus, blocks from Grand River. King-size bed, full kitchen, bathroom, sofabed, internet. 75 minutes Toronto,5 Elora, 25 GuelphNestled beside a century stone house in the old downtown of Fergus, Southern Ontario, this self-contained apartment is a home away from home. Fully furnished and private with its own driveway, parking and garden patio, there is a one bedroom apartment with gas fireplace, king-size bed, modern bathroom and equipped kitchen with stove, fridge and microwave, all for you. A queen pull-out couch in the living room can hold two extra. No cable tv but there is a flatscreen monitor with blueray disc player, Netflicks and You Tube that compliments Cherry Hill Video’s wide selection on St Andrew’s Street within walking distance. All the stone and river centred town is two blocks away. You have your own key. Come and go as you please. Walk to eat at one of the local pubs and restaurants or drive to 5 minutes to Elora for more choice, the Gorge and the Festival. $100 a night (minimum two nights), $600 a week. No breakfast but you can shop for your choice of local produce at Frabert’s or the Elora Farmers’ Market on Saturdays to produce your own gourmet meal. There is coffee, tea, fresh milk and basic condiments on hand. A community bus service runs to Elora and Guelph if you wish to park your car. And then there are the walking or bike trails.... just a block away. Being in a quiet historic river-run town and near all sorts of cultural, antique and natural attractions, Crann Mor is an ideal place for renewal.Fergus is a quaint stone town over the Grand River with resturants, pubs, theatre, stores, and video within 5 minutes walk. The Highland Games, Elora Festival and local walking trails are within a few minutes drive. Our street is quiet, with several parks just a few houses away. It is the best of both worlds, town comfort and country quiet.Crann Mor is like a tiny sanctuary perfect for some serious R & R. The neighbourhood, full of lovely 19th century homes, is quiet and yet just a few blocks away from the downtown core. It has the best of both worlds. The generously sized and private patio out back adds lots of value to this listing. Eimear was graciously flexible about my arrival time and the lockbox expedites arrival and departure. Well equipped kitchen--with breakfast items and more waiting for me on the counter! The bathroom is new and in pristine condition. No AC but the ceiling fan in the bedroom kept me cool. A one of a kind place and a very accommodating host! Thanks Eimear! Julie2016-08-28T00:00:00ZWe just loved this apartment. Fergus is a very pretty town and Eimear's residence fits right in. Evan2016-09-12T00:00:00ZVery convenientSusan2016-07-03T00:00:00ZComfortable, well located apartment in a lovely town. Eimear's messages were friendly and helpful and the kitchen was well stocked with the basics, as well as having a couple of special things for breakfast (including for our little boy - a really nice touch).Bryn and Rhiannon2016-08-08T00:00:00ZMy partner & I along with another couple had a lovely stay at Eimear's cozy B£B. The neighbourhood was very quiet, and our part of the home private & separate with outdoor space as well! We also loved the fact we had cooking facilities as we were there for 2 nights. We had a small blip in commutation as Eimear was out of town prior to our arrival but did manage to connect before our stay. Overall a wonderful place to be and relax in Fergus ! Dawn2015-08-10T00:00:00ZLovely spot, neighbourhood and location. Felt very warmly welcomed. Took a long walk by the river on a delightful trail. Cute town.Blake2016-03-22T00:00:00ZEimear's place was the ideal place to stay for some R&R! The apartment is cozy and has everything you need to cook for yourself, though we really enjoyed visiting some nearby restaurants and pubs...all within easy walking distance! It also provides a great location for day-tripping around the Elora, St. Jacobs area. We even made the short trek to the Mc Michael Gallery in Kleinburg. Thanks, Eimear!Helen2017-03-18T00:00:00ZGreat little apartment! Cozy, clean and quiet in the middle of Fergus. The Bredalbane Inn down the street had great food, and the neighbourhood was very pretty. I have a new little niece in Elora (nearby) so I will be staying with Eimear again! Christopher2015-11-10T00:00:00ZTipo de habitaciónCasa/apto. enteroTipo de propiedadApartamentoCapacidad2DormitoriosFergus, Ontario, CanadáCrann Mor (Big Tree in Gaelic)Precio69€ Crann Mor (Big Tree in Gaelic)Casa/apto. entero · 1 cama · Totalmente reembolsable25 evaluacionesOne of four bedrooms sharing a common living area and kitchen. Private washroom, free parking and laundry. Spruce Street very convenient location for shopping and food. Very close to Laurier campus. Shared with 3 other 5th year U of Waterloo students.Tipo de habitaciónHabitación privadaTipo de propiedadApartamentoCapacidad1DormitoriosWaterloo, Ontario, CanadáCozy Waterloo BedroomPrecio14€ Cozy Waterloo BedroomHabitación privada · 1 cama · Totalmente reembolsableNUEVOAn eloquent yet comfortable apartment equipped with everything you need to ensure a pleasurable stay! The entire unit is kept very clean and tidy so that you can relax and really feel at home. Coffee, tea, and a light breakfast will be provided.
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The place is great for food fanatics! With an entire mini-fridge, a lot of pantry space, and a vast array of kitchen supplies, you are equipped to make just about anything in our home! A great location making it very easy to get around town!Everything you may need is relatively nearby! The apartment building as a whole is very quiet so no need to worry about other residents.Tipo de habitaciónHabitación privadaTipo de propiedadApartamentoCapacidad2DormitoriosWaterloo, Ontario, CanadáClean, private room in an elegant, friendly spacePrecio22€ Clean, private room in an elegant, friendly spaceHabitación privada · 1 cama · Totalmente reembolsableNUEVOA private quiet room on the 2nd floor, with a twin bed, night stand, closet and desk. Located in the heart Waterloo. Close to UW, Uptown, Waterloo Park, Memorial Recreation Complex, Westmount Place. High-speed WIFI. With a garage. 30 meters from the bus stop. So EASY to find the address.Ziming is very nice and welcoming. He even offered me food on multiple occasions. The location is great, about 10-15 minutes away from the University of Waterloo. Right across the street is a nice park which directly leads to the university as well.Ben2016-07-25T00:00:00ZZiming is a very friendly person. I went there in the morning without having breakfast. He invited me to breakfast and always provide me with lots of necessity I need. A wonderful host I believe家益2016-07-17T00:00:00ZVery nice and accommodating host! Quick to reply to all my inquiries. Warm welcome and easy to communicate. Kai2016-07-27T00:00:00ZI had an excellent experience. It was right near the university of waterloo. The house was quiet and clean. Thank you very much.Chris2017-04-27T00:00:00ZNice, welcoming and very helpful host. I enjoyed my short time here.Atishay2016-08-28T00:00:00ZZiming was a very warm welcoming host. The place was clean. I can say that the quality of the accommodation was worth much more than the actual price. I enjoyed my stay there. Jeff2017-05-26T00:00:00ZTipo de habitaciónHabitación privadaTipo de propiedadApartamentoCapacidad1DormitoriosWaterloo, Ontario, CanadáNearby the University of WaterlooPrecio16€ Nearby the University of WaterlooHabitación privada · 1 cama · Totalmente reembolsable8 evaluacionescozy atmosphere, close to the main street of Waterloo - minutes from uptown.Tipo de habitaciónHabitación privadaTipo de propiedadApartamentoCapacidad2DormitoriosWaterloo, Ontario, CanadáLarge Private Room in WaterlooPrecio28€ Large Private Room in WaterlooHabitación privada · 1 cama · Totalmente reembolsableNUEVOHi there, thank you for viewing our place! This is an open concept modern apartment on the lower level of a cute bungalow with private entrance. The spacious and cozy apartment provides you with a king sized bed, a comfy living space, and your own kitchen and laundry. Located close to downtown Guelph, the place is steps away from supermarkets, shops, restaurants, public transport and parks.Please note that we do have a dog living upstairs. He has always been separated from the lower level space. You might still hear the pup saying hi when you arrive/walk up and down the stairs, but he is pretty quiet in general.Very good . Almost all ready, in addition to food and toothbrush. No one disturb. Only have their own space. Very good. Guppy2017-01-19T00:00:00ZGreat apartment, within 5 min walk to transit. Easy to get to downtown and such. Nice quiet neighbourhood. Hosts are also great communicators. Highly recommended.Jean-Guy2017-03-04T00:00:00ZSuper clean, simplistic space.Diane2017-03-11T00:00:00Z喜欢我们的住宿。宽敞,安静,私密和亲密乘坐出租车几乎所有圭尔夫。Daniel2016-11-19T00:00:00Z迟到和早一晚,但留下,这是一个干净,很夜间睡眠。谢谢Dan2016-12-27T00:00:00ZIt was such a beautiful place and for so cheap. Really nice furniture and had all the necessities you need. Easy to check in and out. Highly recommended staying here. Shilpa2017-02-05T00:00:00Z10/10Edward2016-11-26T00:00:00ZAlex's place is great. Clean, spacious and a comfy bed! Communication was friendly and fast. It was a tad chilly when I arrived and he promptly adjusted for me. Excellent stay and I'd book again.Dusty2017-04-20T00:00:00ZTipo de habitaciónCasa/apto. enteroTipo de propiedadApartamentoCapacidad2DormitoriosGuelph, Ontario, CanadáSpacious and Private ApartmentPrecio40€ Spacious and Private ApartmentCasa/apto. entero · 1 cama · Totalmente reembolsable46 evaluacionesOur place is very close to downtown, groceries, public transport, & bus station. It's a short bus ride (or half hour walk) to the university. You’ll love our place because of the location, fantastic neighbourhood, the ambient and peaceful decor, our respectful hospitality and our cats. Our apartment is good for couples, solo adventurers, and business travellers.Our apartment is a two-bedroom unit on the main floor of a century home in the historical district of Guelph. The lovely room you'll be renting is 9' x 16,' and includes full bed, workspace, reading chair, TV (with Netflix), full bookcase, full closet, WiFi, and access to printer for (very) light printing needs.We're located in the most desirable neighbourhood in Guelph. It is a peaceful area with lots of historic houses and old growth trees. It has an excellent park nearby (Exhibition Park) and is very close to lovely walking trails by the river. We are only a 5 minute walk to nice shops, restaurants, and amenities downtown. We have an excellent small grocery store with many gourmet options and nice take-out food that is only 500m away.优越的地理位置,优美的社区,房子漂亮了。Patrick2017-05-10T00:00:00Z我曾在斯蒂和Doug的地方一个伟大的住宿。一切都干净,提供了所有的基本设施,而且位置是中央商业区。入住平滑,斯蒂和Doug总是迅速作出反应。强烈推荐给任何人前往圭尔夫!Charlie2017-02-15T00:00:00Z在一个伟大的位置可爱的地方。道格是非常有益和好客。Catherine 2017-02-26T00:00:00ZGreat place for accommodation! I really enjoyed the time I spent living in Christi and Doug's place, everything is so neat and tidy and very well organized. The room is spacious but cozy, and even better than depicted in the photos. The house is located in one of the most pretty neighbourhoods in Guelph, just a little walk from Downtown where you'll find all kind stores, restaurants and bars. I only had the chance to meet Doug and he was very welcoming, polite, respectful of my privacy and so helpful when I needed information of any kind regardless Guelph and other places in Canada. I would totally recommend staying with them if your interested in visiting Guelph or staying there a couple of days. If you're not much of a cat person this may not be the option for you since they're both really sociable and loving and will be visiting you quite often.Miri2017-05-01T00:00:00ZChristi and Doug's place was very comfortable. I spent almost all of my free time curled up in the comfortable bed watching netflix. I would definitely recommend this place for a weekend business trip.Katlyn2017-05-07T00:00:00Z房间在斯蒂&Doug的很适合我的需求 - 干净,舒适,超静音。我只遇到了道格,谁是很可爱和认真。我参观,并给我倒了一杯茶后,他很尊重我的隐私。一定会再下一次呆在那里,我不得不通宵在圭尔夫区!Kat2017-03-05T00:00:00ZDoug is a very nice guy, very organized. The place is great, for sure I recommend!aline2017-05-08T00:00:00ZGreat and cozy place to stay. Nicely located in the historic part of Guelph, close to shops and restaurants. Doug was a friendly and accommodating host. Would highly recommend! Erin2017-02-01T00:00:00ZTipo de habitaciónHabitación privadaTipo de propiedadApartamentoCapacidad2DormitoriosGuelph, Ontario, CanadáBeautiful Bedroom & Office DowntownPrecio32€ Beautiful Bedroom & Office DowntownHabitación privada · 1 cama · Totalmente reembolsable12 evaluaciones Aquí está su acogedor espacio privado para empezar sus aventuras KW! cama de lujo. Su propio espacio privado de estar / dormitorio, baño y cocina. Estacionamiento gratis. Cerca de las universidades, el norte de Waterloo, el parque de Waterloo, y autobuses. Boutique hotel de style❤ This charming space comfortably fits two people in the comfy queen bed (with additional space on the pull out sofa full size) and is perfect for singles and couples. The entire level is yours. We are usually upstairs if you need us, but after welcoming you we will give you all the privacy you want. You can also enjoy the outdoors on our roomy veranda with comfy couch and chairs. Around the yard we have a food forest (help yourself), a small pond with goldfish, a trampoline (yes, even adults can use this!), zip line (and yes...Adults can use this too!!), and a large play structure. A perfect home base for your Waterloo region adventures or if you're commuting a nice place to use during the week! Ubicado en el Viejo Westmount, este es uno de los más buscados después de los barrios de Waterloo. Un montón de árboles maduros hacen para agradables paseos. Situado frente a una escuela primaria, usted tendrá acceso a un gran espacio verde y campos de juego naturales. A pocos pasos se encuentra Westmount Golf y Country Club, y en el invierno se puede raquetas de nieve o esquí de fondo allí. Somos un salto, salto y salto desde el norte de Waterloo, donde se puede disfrutar de los muchos restaurantes, tiendas de moda, y centro comercial local. Belmont Village también es un gran lugar para disfrutar de un montón de diferentes restaurantes y yoga caliente. Estamos a 10 minutos a pie de Valor Mart una tienda de comestibles PC o Vincenzos, una tienda de comestibles especialidad favorito local! Varias líneas de autobús que llevan cerca, pero más cerca de la línea 8 le llevará a las universidades ya los centros comerciales en Waterloo y Kitchener. Great place! Clean, quiet and so, so welcoming. Erica goes above and beyond.Marie 2017-04-19T00:00:00ZThe place is so lovely. Very well equipped and comfortable. Erica is also SO nice! Definitely looking forward to staying there againGeraldina2017-01-20T00:00:00Z埃里卡是完美的主机。她是知识性,尊重,不得不高度重视的细节,如伟大的具有厨房用具,热调节和浴室用品。房间是华丽和精美的装饰。这确实感觉就像一个独立的公寓,有小惊喜对待开机!Reena2017-01-17T00:00:00Z埃里卡是一个梦幻般的主机,快速响应,并提出进/出非常容易检查。该公寓是干净的,准确的描述。伟大的邻居;一切都近在咫尺。Andrea2017-01-15T00:00:00ZErica is very nice, accommodating, and thoughtful (thank you for the treats!). The place is clean and comfortable. It's good for few days of stay. I, being someone interested with natural products, I really loves her selection (food/drink/bath).Celine Mae2017-05-21T00:00:00ZErica is a very lovely guest and she responds very quickly if anything goes wrong with the stay in her place. The house was very beautiful, clean and well-prepared upon the check-in. Mahshid2017-03-09T00:00:00Z埃里卡是一个梦幻般的主机。 我参加了非常苛刻的周末课程 - 很高兴能在漫长的一天结束返回到一个舒适的公寓 我很高兴与住宿和她很容易沟通。非常感谢欢迎我到你家。 Jonathan2017-01-22T00:00:00ZErika's suite is great. Everything I needed to enjoy my stay and weather the snow outside. The description is accurate, the bed comfy, and the family welcoming but discreet. Elspeth2017-03-15T00:00:00ZTipo de habitaciónCasa/apto. enteroTipo de propiedadApartamentoCapacidad4DormitoriosWaterloo, Ontario, CanadáCozy ApartmentPrecio35€ Cozy ApartmentCasa/apto. entero · 2 camas38 evaluaciones1 room available in a 2 person suite. Great if you'd like to study, watch shows, excersize, or just need a comfortable place to stay for the night.Kevin et Seamus sont des hôtes. La chambre est agréable, il est un choix parfait pour un séjour à court terme.Yuxi2017-05-21T00:00:00ZTipo de habitaciónHabitación privadaTipo de propiedadApartamentoCapacidad2DormitoriosWaterloo, Ontario, CanadáRoom in ICON close to Waterloo and LaurierPrecio31€ Room in ICON close to Waterloo and LaurierHabitación privada · 1 cama · Totalmente reembolsable9 evaluacionesProfessionally designed studio with private entrance on one acre treed property in the City! Close to University, downtown and the Speed River. This bright, spacious suite has a fully equipped kitchen with laundry. Beautiful granite breakfast bar with wine rack. Bedroom/living area divided with shoji screen. Electric fireplace with wall T.V.Very private and cozy. Appealing to guests looking for a modern space in a mature neighborhood. Nature lover's paradise on an acre property nestled in the woods.Mature neighbourhood with century trees and eclectic mix of homes on large properties. Prime location close to parks, river, University, museums, art gallery, downtown.Katharine and Curtis were very welcoming and the basement apartment was as lovely as pictured and well appointed in every way. The neighborhood is a good one and located nicely for walking to the riverfront park and ethnic restaurants. I look forward to staying in this bnb again on a future visit to Guelph.Deborah2016-03-26T00:00:00ZThank you Curtis and Katharine, I had a lovely time. The space was clean, beautifully appointed and well designed, perfect for the purpose. The grounds are nice, a little oasis close to the town. They are wonderful hosts, kind and thoughtful, very accommodating and genuinely nice people. I was given good directions for getting around the town and they made sure I was okay.Elsa2016-06-17T00:00:00ZJe suis très satisfait de mon séjour au Studio. Faire face à Curtis et Katharine était super facile. Ils étaient très sensibles et les plus approfondis fournissant des détails et des informations. Les chambres étaient très propres et modernes. J'avais absolument tout ce qu'il fallait. Aucun détail épargné. Le paquet accueil a été très réfléchi et Katharine a pris le temps de venir me saluer en personne qui a été apprécié. Il y avait même un espace de stationnement qui était super! Très bien situé, calme et facile à trouver, plus proche de tout ce dont vous avez besoin à Guelph. Merci pour le grand séjour! Jess2015-12-01T00:00:00ZL'appartement se sentait privé et sûr. Il y avait un minimum de bruit à l'étage. Il était rempli de tout ce que nous aurions pu besoin! Dans l'ensemble une grande expérience et un sous-sol studio magnifique!Kayla2016-03-20T00:00:00ZI had an excellent experience staying Katherine and Curtis' beautiful studio apartment. This was my first airbnb stay and on the basis of this I will definitely be looking for airbnb options above hotels. Katherine and Curtis made me very welcome and made sure I was comfortable and had everything I needed throughout my stay. The apartment has everything you could need for any length of stay and I will definitely be recommending to friends coming to stay in the Guelph area. I had no car for my stay so the location within easy walking distance (15-20 mins) to the downtown area was perfect. Overall a great experience!Mairead2016-02-13T00:00:00ZExcellent accommodations, excellent location. Ticked all the right boxes. Will be back.David2016-11-06T00:00:00ZThe studio is clean, stylish and very comfortable, and the bed was perfect. The location is lovely - quiet wooded community a few minute walk from downtown. Definitely would stay here again. Robert2016-10-30T00:00:00ZThe space is exactly as shown in the pictures. Very neat and clean with a fully equipped kitchen, large shower (really, really nice!), full size bed that was very comfortable and the host even has a television with Netflix! The home is absolutely lovely, lots of parking and the wifi was fast - always appreciated when I am away on business. Shopping is very near and there are even places to go for a power walk. Very safe neighborhood and even their cat buzzed by outside in the mornings for good morning scratch. A really nice, quiet place to stay!Sidonia2016-10-28T00:00:00ZTipo de habitaciónCasa/apto. enteroTipo de propiedadApartamentoCapacidad2DormitoriosGuelph, Ontario, CanadáModern Studio SpacePrecio63€ Modern Studio SpaceCasa/apto. entero · 1 cama · Totalmente reembolsable49 evaluaciones San tranquila, a pasos de LRT y las comodidades, justo en el corazón de la ciudad. El nivel superior de una casa del siglo. entrada privada. Todo incluido. Si usted aprecia ubicación y carácter, este es el lugar adecuado para usted. Un endroit génial pour vivre. Lucinda était un hôte! Va sûrement recommander sa place à d'autres, mes amis et ma famille aussi! L'endroit est propre, confortable et incroyable. Lucinda m'a accueilli et ma famille avec les fleurs que j'aime, tulipes !!!! woah comme ce fut une surprise pour moi qui m'a fait sentir heureux. Je suis submergé de rester ici !!! Merci Lucinda ... Beaucoup d'amour!Neha2017-03-31T00:00:00ZLucinda's place is perfect in every possible way. Very clean, cozy, good temperature (no matter the weather), has anything you could ever need (and more) and great location. My parents absolutely loved staying there, and I think it is one of the best airbnb I've ever stayed. Lucinda is an amazing host, always there for you if you need her, extremely helpful and kind. I totally recommend this place to anyone visiting Waterloo. If my parents come back, I will for sure host them again in Lucinda's place! Thank you Lucinda! Júlia2017-05-15T00:00:00ZThis place was easily among our favourite airbnb stays - the flat is cozy, comfortable, and clean, and Lucinda is a lovely host who went above and beyond :) can wholeheartedly recommend staying here!Katja2017-05-01T00:00:00ZTipo de habitaciónCasa/apto. enteroTipo de propiedadApartamentoCapacidad3DormitoriosWaterloo, Ontario, CanadáUptown WaterlooPrecio50€ Uptown WaterlooCasa/apto. entero · 1 cama · Totalmente reembolsable4 evaluacionesThis unit is a centrally located, private apartment ideal for one or two guests for short, or longer term stays. Close to Downtown and a sprawling park- this unit is ideal for folks who want a tiny home feel with its amazing loft bedroom!The Cozy Loft Bedroom has a Queen size bed. There is lots of storage space if staying longer. The apartment comes fully furnished with a kitchen set, bedding, and towels.
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Patent US5166531 - Leaf-end configuration for multileaf collimator - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsA multileaf collimator for use in therapeutic radiology treatment systems for producing irregular shaped radiation fields in order to shield normal tissue or critical organs. A multileaf collimator following the present invention includes leaves designed such that the collimator exhibits penumbra which...http://www.google.com/patents/US5166531?utm_source=gb-gplus-sharePatent US5166531 - Leaf-end configuration for multileaf collimatorAdvanced Patent SearchTry the new Google Patents, with machine-classified Google Scholar results, and Japanese and South Korean patents.Publication numberUS5166531 APublication typeGrantApplication numberUS 07/740,164Publication dateNov 24, 1992Filing dateAug 5, 1991Priority dateAug 5, 1991Fee statusPaidPublication number07740164, 740164, US 5166531 A, US 5166531A, US-A-5166531, US5166531 A, US5166531AInventorsCalvin J. HuntzingerOriginal AssigneeVarian Associates, Inc.Export CitationBiBTeX, EndNote, RefManPatent Citations (6), Non-Patent Citations (4), Referenced by (69), Classifications (13), Legal Events (7) External Links: USPTO, USPTO Assignment, EspacenetLeaf-end configuration for multileaf collimator Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS3227880 *Aug 29, 1963Jan 4, 1966Bbc Brown Boveri & CieCollimator for beams of high-velocity electronsUS4157475 *Dec 22, 1977Jun 5, 1979Applied Radiation CorporationElectron accelerator comprising a target exposed to the electron beamUS4534052 *Apr 4, 1983Aug 6, 1985C.G.R. - MevBlock for partially limiting a radiation beam, and a collimator comprising such blocksUS4672212 *Feb 28, 1985Jun 9, 1987Instrument Ab ScanditronaxMulti leaf collimatorUS4868843 *Jul 10, 1987Sep 19, 1989Varian Associates, Inc.Multileaf collimator and compensator for radiotherapy machinesUS5012506 *Oct 7, 1988Apr 30, 1991U.S. Philips CorporationMultileaf collimator* Cited by examinerNon-Patent CitationsReference1Maleki, N. et al., "Analysis of the Field Defining Properties of a Multi-Leaf Collimator", Medical Physics, vol. 10, No. 4, (abstract), Jul./Aug. 1983.2 *Maleki, N. et al., Analysis of the Field Defining Properties of a Multi Leaf Collimator , Medical Physics, vol. 10, No. 4, (abstract), Jul./Aug. 1983.3Sutherland, W. H. et al., "Design Principles of Telecobalt Collimators", Physics in Medicine and Biology, 22, 1189-1196 (1977).4 *Sutherland, W. H. et al., Design Principles of Telecobalt Collimators , Physics in Medicine and Biology, 22, 1189 1196 (1977).* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS5343048 *Feb 1, 1993Aug 30, 1994Siemens AktiengesellschaftContour collimator for radiation therapyUS5591983 *Jun 30, 1995Jan 7, 1997Siemens Medical Systems, Inc.Multiple layer multileaf collimatorUS5668371 *Oct 1, 1996Sep 16, 1997Wisconsin Alumni Research FoundationMethod and apparatus for proton therapyUS5757881 *Jan 6, 1997May 26, 1998Siemens Business Communication Systems, Inc.Redundant field-defining arrays for a radiation systemUS5889834 *Sep 27, 1996Mar 30, 1999Brainlab Med. Computersysteme GmbhBlade collimator for radiation therapyUS5892238 *May 2, 1997Apr 6, 1999Bionix Development Corp.Radiation therapy shielding assemblyUS5907157 *Jan 30, 1997May 25, 1999Jeol Ltd.Method and apparatus for preparing specimenUS6041101 *Aug 17, 1998Mar 21, 2000Radionics, Inc.Jaw and circular collimatorUS6052430 *Sep 25, 1997Apr 18, 2000Siemens Medical Systems, Inc.Dynamic sub-space intensity modulationUS6052436 *Jul 15, 1998Apr 18, 2000Bionix Development CorporationRadiation therapy device employing cam pin and cam groove guiding system for controlling movement of linear multi-leaf collimator leavesUS6060718 *Feb 26, 1998May 9, 2000Eaton CorporationIon source having wide output current operating rangeUS6266393Sep 28, 1998Jul 24, 2001Moshe Ein-GalMultiple layer multileaf collimatorUS6278766 *Jan 25, 2000Aug 21, 2001Sherwood Services AgJaw and circular collimatorUS6320938Oct 28, 1998Nov 20, 2001F & L Medical ProductsMethod of X-ray protection during diagnostic CT imagingUS6322249 *Jan 28, 2000Nov 27, 2001Siemens Medical Solutions Usa, Inc.System and method for automatic calibration of a multileaf collimatorUS6388816 *Feb 22, 2001May 14, 2002Elekta AbMulti-leaf collimatorUS6459769Apr 28, 2000Oct 1, 2002Sherwood Services AgMovable miniature multi-leaf collimatorUS6600810Aug 10, 1998Jul 29, 2003Siemens Medical Solutions Usa, Inc.Multiple layer multileaf collimator design to improve resolution and reduce leakageUS6730924Jan 12, 2000May 4, 2004Deutsches Krebsforschungszentrum Stiftung Des Oeffentlichen RechtsCollimator for limiting a bundle of high-energy raysUS6853705Mar 28, 2003Feb 8, 2005The University Of North Carolina At Chapel HillResidual map segmentation method for multi-leaf collimator-intensity modulated radiotherapyUS7095823 *Jul 7, 2004Aug 22, 2006Elekta Ab (Publ)Multi-leaf collimatorUS7397903 *Nov 20, 2003Jul 8, 2008Ge Medical Systems Global Technology Company, LlcCollimator and radiation irradiatorUS7507975Oct 30, 2006Mar 24, 2009Varian Medical Systems, Inc.System and method for high resolution radiation field shapingUS7541905Jan 19, 2007Jun 2, 2009Massachusetts Institute Of TechnologyHigh-field superconducting synchrocyclotronUS7558378Sep 4, 2007Jul 7, 2009Siemens AktiengesellschaftMultileaf collimatorUS7656258Aug 9, 2006Feb 2, 2010Massachusetts Institute Of TechnologyMagnet structure for particle accelerationUS7696847Apr 17, 2009Apr 13, 2010Massachusetts Institute Of TechnologyHigh-field synchrocyclotronUS7728311Nov 17, 2006Jun 1, 2010Still River Systems IncorporatedCharged particle radiation therapyUS8003964Oct 11, 2007Aug 23, 2011Still River Systems IncorporatedApplying a particle beam to a patientUS8067751Feb 11, 2009Nov 29, 2011Varian Medical Systems, Inc.System and method for high resolution field shapingUS8344340Nov 20, 2008Jan 1, 2013Mevion Medical Systems, Inc.Inner gantryUS8581523Nov 30, 2007Nov 12, 2013Mevion Medical Systems, Inc.Interrupted particle sourceUS8791656May 31, 2013Jul 29, 2014Mevion Medical Systems, Inc.Active return systemUS8907311Nov 22, 2011Dec 9, 2014Mevion Medical Systems, Inc.Charged particle radiation therapyUS8916843Jun 25, 2012Dec 23, 2014Mevion Medical Systems, Inc.Inner gantryUS8927950Sep 27, 2013Jan 6, 2015Mevion Medical Systems, Inc.Focusing a particle beamUS8933650Nov 30, 2007Jan 13, 2015Mevion Medical Systems, Inc.Matching a resonant frequency of a resonant cavity to a frequency of an input voltageUS8941083Aug 18, 2011Jan 27, 2015Mevion Medical Systems, Inc.Applying a particle beam to a patientUS8952634Oct 22, 2009Feb 10, 2015Mevion Medical Systems, Inc.Programmable radio frequency waveform generator for a synchrocyclotronUS8970137Nov 8, 2013Mar 3, 2015Mevion Medical Systems, Inc.Interrupted particle sourceUS9155186Sep 27, 2013Oct 6, 2015Mevion Medical Systems, Inc.Focusing a particle beam using magnetic field flutterUS9185789Sep 27, 2013Nov 10, 2015Mevion Medical Systems, Inc.Magnetic shims to alter magnetic fieldsUS9192042Sep 27, 2013Nov 17, 2015Mevion Medical Systems, Inc.Control system for a particle acceleratorUS9301384Sep 27, 2013Mar 29, 2016Mevion Medical Systems, Inc.Adjusting energy of a particle beamUS9452301Nov 17, 2014Sep 27, 2016Mevion Medical Systems, Inc.Inner gantryUS9545528Sep 27, 2013Jan 17, 2017Mevion Medical Systems, Inc.Controlling particle therapyUS20040013237 *Sep 19, 2001Jan 22, 2004Brown Kevin JohnRadiotherapy apparatus and collimator set thereforUS20050008123 *Jul 7, 2004Jan 13, 2005Department Of Radiotherapy University Hospital UtechtMulti-leaf collimatorUS20050059879 *Sep 16, 2003Mar 17, 2005Robert SutherlandLocalization of a sensor device in a bodyUS20070086576 *Nov 20, 2003Apr 19, 2007Zhao YangCollimator and radiation irradiatorUS20070171015 *Jan 19, 2007Jul 26, 2007Massachusetts Institute Of TechnologyHigh-Field Superconducting SynchrocyclotronUS20080063147 *Sep 4, 2007Mar 13, 2008John JuschkaMultileaf collimatorUS20080073591 *Oct 30, 2006Mar 27, 2008Stephen MohrSystem and method for high resolution radiation field shapingUS20090084984 *Jan 29, 2008Apr 2, 2009Siemens Medical Solutions Usa, Inc.Irradiation system and methodUS20090206967 *Apr 17, 2009Aug 20, 2009Massachusetts Institute Of TechnologyHigh-Field SynchrocyclotronCN100464377COct 23, 2001Feb 25, 2009深圳市一体智能技术有限公司Blade regulating method of multi-blade collimator and multi-blade collimatorCN100569316CJul 7, 2004Dec 16, 2009埃莱克特公司Multi-leaf collimatorCN104795122A *May 28, 2014Jul 22, 2015上海联影医疗科技有限公司Collimator, radiation system, and collimator blade selection methodDE19905823C1 *Feb 12, 1999Jun 8, 2000Deutsches KrebsforschCollimator for high energy radiation, e.g. for the treatment of tumors, comprises numerous opposing scree sections made of radiation absorbing materialEP2020006A2 *Apr 3, 2007Feb 4, 2009Varian Medical Systems Technologies, Inc.System and method for high resolution radiation field shapingEP2020006A4 *Apr 3, 2007Jun 29, 2011Varian Med Sys IncSystem and method for high resolution radiation field shapingEP2095373A1 *Dec 7, 2007Sep 2, 2009C-Rad Innovation ABCollimatorEP2095373A4 *Dec 7, 2007Jul 18, 2012C Rad Innovation AbCollimatorWO2002031837A1 *Sep 19, 2001Apr 18, 2002Elekta Ab (Publ)Radiotherapy apparatus and collimator set thereforWO2005004987A1 *Jul 7, 2004Jan 20, 2005Elekta Ab (Publ)Multi-leaf collimatorWO2005036124A2Aug 25, 2004Apr 21, 2005Varian Medical Systems Technologies, Inc.Localization of a target using in vivo markersWO2014111869A2 *Jan 16, 2014Jul 24, 2014Panacea Medical Technologies Pvt. LtdAn apparatus to deliver conformal radiotherapy using external beam cobalt 60WO2014111869A3 *Jan 16, 2014Nov 13, 2014Panacea Medical Technologies Pvt. LtdAn apparatus to deliver conformal radiotherapy using external beam cobalt 60WO2015063232A3 *Oct 30, 2014Jun 25, 2015Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V.Diaphragm system for a radiation source, and device and method for recording a projection image and for determining a relative position between a radiation source and a radiation detector* Cited by examinerClassifications U.S. Classification250/505.1, 378/150, 378/152International ClassificationA61N5/10, G21K1/04Cooperative ClassificationG21K1/046, G21K1/04, A61N5/1042, A61N5/1036, A61N5/1045European ClassificationG21K1/04M, A61N5/10D, G21K1/04Legal EventsDateCodeEventDescriptionNov 18, 1991ASAssignmentOwner name: VARIAN ASSOCIATES, INC. A CORPORATION OF DE, CAFree format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:HUNTZINGER, CALVIN J.;REEL/FRAME:005919/0896Effective date: 19910805May 23, 1996FPAYFee paymentYear of fee payment: 4May 23, 2000FPAYFee paymentYear of fee payment: 8Sep 25, 2003ASAssignmentOwner name: VARIAN MEDICAL SYSTEMS TECHNOLOGIES, INC., CALIFORFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:VARIAN MEDICAL SYSTEMS, INC.;REEL/FRAME:014027/0459Effective date: 20030925Sep 26, 2003ASAssignmentOwner name: VARIAN MEDICAL SYTEMS, INC., CALIFORNIAFree format text: CHANGE OF NAME;ASSIGNOR:VARIAN ASSOCIATES, INC;REEL/FRAME:014007/0490Effective date: 19990321May 24, 2004FPAYFee paymentYear of fee payment: 12Oct 13, 2008ASAssignmentOwner name: VARIAN MEDICAL SYSTEMS, INC., CALIFORNIAFree format text: MERGER;ASSIGNOR:VARIAN MEDICAL SYSTEMS TECHNOLOGIES, INC.;REEL/FRAME:021669/0848Effective date: 20080926RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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This is a home with a few (scarcely seen) very polite roommates. Common areas like the living room, kitchen, and back yard are communal and can be used as you like. All we ask is that you tidy up after yourself if you do. There are two toilets and one shower/bath which are separate rooms due to this being an old house. You are welcome to use the washer and dryer as well. 柯蒂斯是一个奇妙的主机!我无意中在他的公寓留给我的项目,他需要额外的努力把它带给我。沟通真的很棒,位置是惊人的为好。肯定会在他的位置再次入住。 This was my first time visiting San Francisco and I had a great time staying at Curtis' place. It's a private room with a shared bathroom and is located in a great area. Check-in and check-out was easy and Curtis is very responsive to any messages you send. Plenty of delicious restaurants just a short walk down the street and there's a farmer's market on Saturdays and Sundays. Other places (like the wharf or Golden Gate Park) are a short uber ride away. I would definitely stay here again!
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Patent US5957927 - Bone fixation device introducer - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inAdvanced Patent SearchPatentsA surgical tool for assisting the implantation of a bone fixation device is disclosed. The tool includes a bone fixation device holder for releaseably engaging a bone fixation device. The bone fixation device holder has at least one hole which is larger in diameter than the bone fixation device screws...http://www.google.com/patents/US5957927?utm_source=gb-gplus-sharePatent US5957927 - Bone fixation device introducerAdvanced Patent SearchPublication numberUS5957927 APublication typeGrantApplication numberUS 09/028,273Publication dateSep 28, 1999Filing dateFeb 24, 1998Priority dateFeb 24, 1998Fee statusPaidAlso published asDE69913318D1, DE69913318T2, EP1058520A1, EP1058520B1, WO1999043265A1Publication number028273, 09028273, US 5957927 A, US 5957927A, US-A-5957927, US5957927 A, US5957927AInventorsChristopher Michael Magee, Sean Hamilton KerrOriginal AssigneeSynthes (Usa)Export CitationBiBTeX, EndNote, RefManPatent Citations (24), Referenced by (61), Classifications (23), Legal Events (5) External Links: USPTO, USPTO Assignment, EspacenetBone fixation device introducer Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS3856016 *Nov 3, 1972Dec 24, 1974H DavisMethod for mechanically applying an occlusion clip to an anatomical tubular structureUS4471766 *May 22, 1979Sep 18, 1984Inbae YoonRing applicator with an endoscopeUS4502475 *Feb 22, 1983Mar 5, 1985The United States Of America As Represented By The Department Of Health And Human ServicesDrill guide for bone plate fixationUS4854302 *Nov 12, 1987Aug 8, 1989Welch Allyn, Inc.Video equipped endoscope with needle probeUS4923471 *Oct 17, 1989May 8, 1990Timesh, Inc.Bone fracture reduction and fixation devices with identity tagsUS4959065 *Jul 14, 1989Sep 25, 1990Techmedica, Inc.For use in bone fracturesUS4994910 *Jul 6, 1989Feb 19, 1991Acuimage CorporationModular endoscopic apparatus with probeUS5199417 *Dec 21, 1990Apr 6, 1993Circon CorporationEndoscope having a deflectable distal section and a semi-rigid proximal sectionUS5334150 *Nov 17, 1992Aug 2, 1994Kaali Steven GVisually directed trocar for laparoscopic surgical procedures and method of using sameUS5373840 *Oct 2, 1992Dec 20, 1994Knighton; David R.Endoscope and method for vein removalUS5377668 *Apr 12, 1993Jan 3, 1995Optimed Technologies, Inc.Fiberscopic instrumentUS5423826 *Oct 29, 1993Jun 13, 1995Danek Medical, Inc.Anterior cervical plate holder/drill guide and method of useUS5558669 *Jun 22, 1995Sep 24, 1996Reynard; MichaelFiber optic sleeve for surgical instrumentsUS5569160 *Mar 21, 1995Oct 29, 1996United States Surgical CorporationOptical trocarUS5641287 *Oct 25, 1994Jun 24, 1997Gittleman; Neal B.Dental tool guidance template and methodUS5658236 *Mar 21, 1995Aug 19, 1997United States Surgical CorporationOptical trocarUS5667475 *Nov 28, 1994Sep 16, 1997Etb Endoskopische Technik Gmbh BerlinEndoscopic deviceUS5667478 *Nov 6, 1992Sep 16, 1997Clarus Medical Systems, Inc.Surgical instrument with stick-on fiber-optic viewing system and method of usingUS5690631 *Sep 11, 1996Nov 25, 1997Walter Lorenz Surgical, Inc.Multi-configurable plating systemUS5700267 *Aug 15, 1996Dec 23, 1997Kinetikos Medical IncorporatedMethod for repairing bone fractures using bone-lock systemUS5700275 *Apr 25, 1996Dec 23, 1997United States Surgical CorporationArticulating endoscopic surgical instrumentUS5702463 *Feb 20, 1996Dec 30, 1997Smith & Nephew Inc.Tibial prosthesis with polymeric liner and liner insertion/removal instrumentUS5725523 *Mar 29, 1996Mar 10, 1998Mueller; Richard L.Lateral-and posterior-aspect method and apparatus for laser-assisted transmyocardial revascularization and other surgical applicationsUS5732992 *Dec 26, 1996Mar 31, 1998Exactech, IncorporatedMedical appliance tool providing one hand actuation* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS6440136May 24, 2000Aug 27, 2002Medtronic Ps Medical, Inc.Apparatus for attaching to boneUS6524238Dec 20, 2000Feb 25, 2003Synthes UsaUniversal handle and method for useUS6602257 *Jun 24, 2002Aug 5, 2003Jeffrey J. ThramannCervical plateUS6652533Sep 20, 2001Nov 25, 2003Depuy Acromed, Inc.Medical inserter tool with slaphammerUS6656190 *Mar 13, 2001Dec 2, 2003Spinevision S. A.Implant prehension deviceUS6692503Jul 17, 2001Feb 17, 2004Sdgi Holdings, IncSystem and method for securing a plate to the spinal columnUS6699253Sep 21, 2001Mar 2, 2004Codman & Shurtleff, IncSelf centering bone drillUS6709439Oct 30, 2001Mar 23, 2004Depuy Spine, Inc.Slaphammer toolUS6755841Dec 7, 2001Jun 29, 2004Depuy Acromed, Inc.Medical installation toolUS6840943Sep 21, 2001Jan 11, 2005Codman & Shurtleff, IncInstrument and method for applying surgical fastenersUS7001333Dec 10, 2002Feb 21, 2006Hamel Ross JSurgical retractor systemUS7077843Aug 1, 2003Jul 18, 2006Lanx, LlcCervical plateUS7081119Jul 30, 2004Jul 25, 2006Hfsc CompanyDrill guide assembly for a bone fixation deviceUS7175623Sep 1, 2004Feb 13, 2007Lanx, LlcCervical plate with backout protectionUS7229446 *May 28, 2003Jun 12, 2007Stryker Leibinger Gmbh & Co., KgTool system for adapting a bone plateUS7252673Sep 10, 2003Aug 7, 2007Warsaw Orthopedic, Inc.Devices and methods for inserting spinal implantsUS7341587Nov 20, 2003Mar 11, 2008Warsaw Orthopedic, Inc.Methods and devices for inserting and engaging vertebral implants in minimally invasive proceduresUS7357804Aug 13, 2003Apr 15, 2008Synthes (U.S.A.)Quick-release drill-guide assembly for bone-plateUS7517350 *Mar 1, 2004Apr 14, 2009Orthopediatrics Corp.Convertible threaded compression device and method of useUS7572276Jul 25, 2002Aug 11, 2009Warsaw Orthopedic, Inc.Minimally invasive instruments and methods for inserting implantsUS7588576Nov 29, 2004Sep 15, 2009Michael TeagueBone plate holder and screw guideUS7670341Dec 16, 2005Mar 2, 2010Depuy Products, Inc.Orthopaedic device with locking barrelUS7695480 *Sep 25, 2003Apr 13, 2010Medtronic, Inc.Ball and socket trajectory guideUS7708743Apr 29, 2005May 4, 2010Warsaw Orthopedic, Inc.Apparatus and method for positioning an implant during surgeryUS7731721Jul 16, 2003Jun 8, 2010Synthes Usa, LlcPlating system with multiple function drill guideUS7766825Oct 2, 2003Aug 3, 2010Synthes Usa, LlcRetractor with interchangeable retractor bladesUS7819877May 24, 2002Oct 26, 2010BePuy Products, Inc.Method and apparatus for endoscopic minimally invasive orthopaedic plating proceduresUS7985179Oct 6, 2006Jul 26, 2011Pioneer Surgical TechnologyRetraction apparatus and method of useUS8016829 *Feb 9, 2005Sep 13, 2011Depuy Spine, Inc.Systems and methods for spinal surgeryUS8016864Apr 11, 2007Sep 13, 2011Warsaw Orthopedic, Inc.Anterior implant for the spineUS8043298Apr 30, 2007Oct 25, 2011Stryker Leibinger Gmbh & Co., KgTool system for adapting a bone plateUS8097027Aug 5, 2009Jan 17, 2012Warsaw Orthopedic, Inc.Minimally invasive instruments and methods for inserting implantsUS8167919Jun 29, 2009May 1, 2012Warsaw Orthopedic, Inc.System and method for securing a plate to the spinal columnUS8211154Apr 6, 2009Jul 3, 2012Lanx, Inc.Bone plate assemblies with backout protection and visual indicatorUS8231627Jul 21, 2008Jul 31, 2012Acumed LlcInsertion tool for bone platesUS8262570May 29, 2009Sep 11, 2012Pioneer Surgical Technology, Inc.Retraction apparatus and method of useUS8317842 *Nov 30, 2007Nov 27, 2012Biomet C.V.Distal tibia plating systemUS8328808May 24, 2002Dec 11, 2012Biomet, C.V.Minimally invasive orthopaedic apparatus and methodsUS8377072Feb 6, 2006Feb 19, 2013Depuy Spine, Inc.Medical device installation toolUS8403933 *May 13, 2011Mar 26, 2013Synthes Usa, LlcLocking cap dispenserUS8419745 *Apr 23, 2010Apr 16, 2013Biomet C.V.Bone plate bender systemUS8486115Mar 13, 2009Jul 16, 2013Lanx, Inc.Spinal plate assemblies with backout protection cap and methodsUS8591522Mar 10, 2010Nov 26, 2013Medtronic, Inc.Ball and socket trajectory guideUS8652180Sep 27, 2011Feb 18, 2014Acumed LlcHandle assembly having a radiopaque region to facilitate positioning a bone plate on boneUS8652181Jul 6, 2006Feb 18, 2014Lanx, Inc.Cervical plateUS8778001Jun 12, 2007Jul 15, 2014Lanx, Inc.Cervical plateUS8845648Dec 30, 2004Sep 30, 2014Biomet C.V.Minimally invasive orthopaedic apparatus and methodsUS8900135 *Mar 5, 2012Dec 2, 2014Covidien LpSingle incision deployable platformUS8911443Sep 14, 2012Dec 16, 2014Biomet C.V.Plate holder for manipulating bone plateUS20090143825 *Nov 30, 2007Jun 4, 2009Robert GrahamDistal Tibia Plating SystemUS20110264100 *Apr 23, 2010Oct 27, 2011Sixto Jr RobertBone Plate Bender SystemUS20120253133 *Mar 5, 2012Oct 4, 2012Tyco Healthcare Group LpSingle Incision Deployable PlatformUS20120290012 *May 13, 2011Nov 15, 2012Henry RutledgeLocking cap dispenserUSRE43317Mar 29, 2006Apr 17, 2012Depuy Spine, Inc.Medical installation toolUSRE44835Dec 20, 2011Apr 8, 2014Depuy Synthes Products LlcMedical installation toolCN100515359CMay 1, 2003Jul 22, 2009华沙整形外科股份有限公司Minimally invasive instruments and methods for inserting implantsEP1275348A2 *Jun 26, 2002Jan 15, 2003DePuy Products, Inc.Apparatus for use in endoscopic minimally invasive orthopaedic plating proceduresWO2003002022A2 *May 24, 2002Jan 9, 2003Depuy Products IncMinimally invasive orthopaedic apparatus and methodsWO2003094741A2 *May 1, 2003Nov 20, 2003Sdgi Holdings IncMinimally invasive instruments and methods for inserting implantsWO2005030075A2 *Sep 23, 2004Apr 7, 2005Mark Stephen FreasBall and socket trajectory guideWO2005051247A2 *Nov 18, 2004Jun 9, 2005Roy K LimMethods and devices for inserting and engaging vertebral implants in minimally invasive procedures* Cited by examinerClassifications U.S. Classification606/99, 606/104, 606/301, 606/916, 606/289, 606/312International ClassificationA61B17/02, A61B17/56, A61B17/80, A61B17/17, A61B17/88Cooperative ClassificationY10S606/916, A61B17/0218, A61B17/80, A61B17/1728, A61B17/8042, A61B17/8071, A61B17/8085, A61B17/808European ClassificationA61B17/80J, A61B17/02E, A61B17/80, A61B17/17PLegal EventsDateCodeEventDescriptionFeb 24, 2011FPAYFee paymentYear of fee payment: 12Feb 6, 2009ASAssignmentOwner name: SYNTHES USA, LLC, PENNSYLVANIAFree format text: CHANGE OF NAME;ASSIGNOR:SYNTHES (U.S.A.);REEL/FRAME:022214/0552Effective date: 20081223Owner name: SYNTHES USA, LLC,PENNSYLVANIAMar 9, 2007FPAYFee paymentYear of fee payment: 8Jan 23, 2003FPAYFee paymentYear of fee payment: 4Jul 6, 1998ASAssignmentOwner name: SYNTHES (USA), PENNSYLVANIAFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:MAGEE, CHRISTOPHER MICHAEL;KERR, SEAN HAMILTON;REEL/FRAME:009313/0920Effective date: 19980702RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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on: April 07, 2013, 02:51:33 PM Hmmm.....did anyone managed to get the CD Dramas?Saw this at the Official Site but didn't remember anyone mentioning about it (or maybe I had missed it)=> http://www.toei-anim.co.jp/tv/seiya/goods.htmlWEBラジオ聖闘士星矢Ω DJCD 2巻発売日 : 2012年4月5日価格 : 3,150円(税込)発売元・販売元 : フロンティアワークス【収録内容】アニメイトTVで放送されたWEBラジオ聖闘士星矢ΩをCD化!第8回~16回放送分から名場面を集めました。パーソナリティである光牙役の緑川光さんによる新録解説付。 WEBラジオ聖闘士星矢Ω DJCD 1巻発売日 : 2012年3月2日価格 : 3,150円(税込)発売元・販売元 : フロンティアワークス【収録内容】アニメイトTVで放送されたWEBラジオ聖闘士星矢ΩをCD化!第1回~7回放送分から名場面を集めました。パーソナリティである光牙役の緑川光さんによる新録解説付。 ジャケットはこのCDのための描き下ろし!パーソナリティ:緑川光(光牙役)ゲストパーソナリティ:鈴木達央(栄斗役)、柿原徹也(龍峰役)、能登麻美子(アリア役)、雪乃五月(ユナ役) on: April 07, 2013, 01:38:30 PM
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The National Bureau of Statistics (abbr. NBS; simplified Chinese: 中华人民共和国国家统计局; traditional Chinese: 中華人民共和國國家統計局; pinyin: Zhōnghuá rénmín gònghéguó guójiā tǒngjìjú) is an agency within the State Council of the People's Republic of China charged with the collection and publication of statistics related to the economy, population and society of the People's Republic of China at national and local levels. 2 Other national statistical services
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OK God can do anything! Auto detect Submit translationCancel Important! You are about to add a translation to the sentence above. If you do not understand this sentence, click on "Cancel" to display everything again, and then click on the sentence that you understand and want to translate from. Please do not forget capital letters and punctuation! Thank you. 上帝什么都会!上帝甚麼都會!shàngdì shénme dōuhuì ! Für Gott ist nichts unmöglich! lo cevni cu kakne ro zo'e Bóg może wszystko! خۇدا ھەرنېمىنى قىلالايدۇ! Бог може все! La dio kapablas ĉion. À Dieu, rien n'est impossible ! Бог может всё! Бог может всё. ¡Para Dios, nada es imposible! 117 visitors online Terms of use Contact us Donate Blog Twitter Facebook
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INSERT INTO sites(host) VALUES('ihmc.edu.hk') 1045: Access denied for user 'www-data'@'localhost' (using password: NO) ihmc.edu.hk Estimated Worth $8,355 - MYIP.NET Website Information Description:聖母無玷聖心書院Immaculate Heart of Mary College School Year Opening Ceremony Our Lady of Sorrows Feast Day MassOrientation for F.1 Parents and StudentsLeadership Training Camp 2018School Year Ending CeremonyIHM’s Feast Day celebration 2018more
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Part No. PV72L8-32AWL PV74L8-32SWL PV75L8-32AWL PV75L8-32SWL PV70L8-32PWL PV75L8-32BWL PV75L8-32PWL PV70L8-32SWL PV71L8-32PWL PV70L8-32AWL PV70L8-32BWL PV71L8-32SWL PV72L8-32SWL PV74L8-32BWL PV74L8-32PWL PV71L8-32AWL PV74L8-32AWL PV71L8-32BWL PV72L8-32BWL PV72L8-32PWL MS3470L10-32BW MS3470L8-32BW MS3470L12-32BW MS3470L18-32BW MS3472A18-32AW MS3471L10-32AW MS3471L12-32AW MS3471L18-32AW MS3471L8-32AW PV71L10-32AWL PV71L10-32BWL PV71L10-32PWL PV71L12-32AWL PV71L12-32BWL PV71L12-32SWL PV71L14-32AWL PV71L14-32BWL PV71L14-32SWL PV71L12-32PWL PV71L14-32PWL PV71W8-32AWL PV71W12-32AWL PV71W14-32AWL MS3471W8-32AW MS3471W18-32AW PV71W10-32AWL MS3471W12-32AW MS3472A12-32AW MS3471W10-32AW MS3475W10-32PW MS3475W10-32AW MS3475W10-32BW MS3475W10-32SW MS3472A10-32BW MS3472A18-32BW MS3472A10-32AW MS3472A12-32BW MS3470W18-32BW MS3474W18-32BW MS3475W18-32BW MS3472W18-32BW MS3471W18-32BW MS3472L12-32BW PV72L14-32SWL PV72L14-32PWL PV72L14-32BWL PV72L14-32AWL PV72L12-32SWL PV72L12-32PWL PV72L12-32BWL PV72L12-32AWL PV72L10-32PWL PV72L10-32AWL PV72L10-32BWL MS3472L8-32BW MS3472L10-32BW MS3472L18-32BW PV72W10-32AWL PV72W10-32PWL PV72W14-32AWL PV72W12-32BWL PV72W8-32PWL PV72W8-32BWL PV72W10-32BWL PV72W12-32PWL PV72W1 Description Series 2 Connectors PV 光伏连接器系2 File Size 490.33K / 10 Page
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US20120164423 * 12 Sep 2011 28 Jun 2012 Industrial Technology Research Institute Organic/inorganic composite film and method for forming the same CN102532956A * 31 Dec 2010 4 Jul 2012 财团法人工业技术研究院 Organic dispersion of inorganic nano-platelets and method for forming the same WO2003012006A1 * 30 Jul 2002 13 Feb 2003 The Board Of Trustees Of The University Of Arkansas Colloidal nanocrystals with high photoluminescence quantum yields and methods of preparing the same
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BRIEF DESCRIPTION OF THE DRAWINGS [0021] FIG. 1 is a schematic illustration of a tracking or monitoring system of hazardous materials according to embodiments of the present invention. [0022] FIG. 2 is a schematic illustration of a tracking or monitoring system for nuclear gauges according to embodiments of the present invention. [0023] FIG. 3A is a schematic illustration of a conventional terrestrial communication system. [0024] FIG. 3B is a schematic illustration of a conventional satellite communication system. [0025] FIG. 3C is a schematic illustration of a conventional global positioning system. [0026] FIG. 4 is a map with geographically restricted use regions for monitoring the location or transport of hazmat items and/or nuclear gauges according to embodiments of the present invention. [0027] FIG. 5 is a map of a territorial or geographically segmented global monitoring system according to embodiments of the present invention. [0028] FIG. 6 is a block diagram of operations that can be used to carry out embodiments of the present invention. [0029] FIG. 7A is a side view of a nuclear measurement gauge with a tracking device integrated therein according to embodiments of the present invention. [0030] FIG. 7B is an end view of the device shown in FIG. 7A. [0031] FIG. 8A is a side view of a nuclear measurement gauge in a shipping container with the tracking device disposed on or in the shipping container according to embodiments of the present invention. [0032] FIG. 8B is an end view of the device and container shown in FIG. 8A. [0033] FIG. 9 is a schematic illustration of components of a nuclear gauge device having a radioactive source and tracking system according to embodiments of the present invention. [0034] FIG. 10 is a schematic illustration of an alternative configuration of a nuclear gauge device having a radioactive source and tracking system according to embodiments of the present invention. [0035] FIG. 11A is a block diagram of a data processing system suitable for incorporation into a nuclear measurement device according to embodiments of the present invention. [0036] FIG. 11B is a block diagram of a data processing system suitable for use as a tracking station according to embodiments of the present invention. [0037] FIG. 12 is a flowchart illustrating operations of a tracking station according to embodiments of the present invention. [0038] FIG. 13 is a flowchart illustrating operations of a nuclear measurement device incorporating embodiments of the present invention for remote monitoring. [0039] FIG. 14 is a flowchart illustrating operations of a nuclear measurement device incorporating to embodiments of the present invention for location tracking. [0040] FIG. 15 is a flowchart illustrating operations of a nuclear measurement device incorporating embodiments of the present invention for remote control. [0041] FIG. 16 is a flowchart illustrating operations of a nuclear measurement device incorporating embodiments of the present invention for tamper prevention. DESCRIPTION OF EMBODIMENTS OF THE INVENTION [0042] The present invention will now be described more fully hereinafter with reference to the accompanying figures, in which embodiments of the invention are shown. This invention, however, should not be construed as limited to the embodiments set forth herein. Like numbers refer to like elements throughout. In the block and schematic diagrams, broken lines indicate such operation or feature is optional unless stated otherwise. [0043] Nuclear gauges are the standard measurement devices used to obtain density and/or moisture measurements in construction or roadway projects. Nuclear density gauges operate using a relatively small radioactive source or sources that can generate a suitable detectable count and a detection system. When placed on test material, the photons from the nuclear source penetrate the test material. A fraction of the photons will interact with the material and scatter to the gauge base where they are detected by Geiger Mueller detectors. The number of photons scattered back and counted by the detector(s) is proportional to the density of the test material. Nuclear gauges, typically, can operate in either a backscatter or direct transmission mode. In the backscatter mode, the gauge is placed on the test material with the radioactive source and detectors in the same plane. In operation, the photons from the source penetrate the material from the surface and scatter to the detectors. In the direct transmission mode, the test material, a hole larger than the diameter of the source rod is formed in material (typically soil) and the source is inserted into the material at one or more predetermined depths. In the direct transmission mode, the material is located directly in the path between the source rod and the detectors. Examples of manufacturers of construction nuclear gauges include Humboldt Scientific, Inc. of Raleigh, N.C., Campbell Pacific Nuclear (CPN) of Martinez, Calif., Seaman Nuclear of Milwaukee, Wis., and Troxler Electronic Laboratories, Inc. of Research Triangle Park, N.C. See also U.S. Pat. Nos. 4,188,535; 4,525,854; 4,641,030; 4,701,868; 4,979,197; 4,701,868; 4,152,600; 4,587,623; 5,923,726; and 6,050,725, which discuss nuclear gauges, the contents of which are hereby incorporated by reference as if recited in full herein. [0044] Nuclear devices and gauges are also used in processing industries as described in the background, typically for automatic or semi-automatic control of process operations or assessment of targeted environments or material properties. See e.g., U.S. Pat. No. 6,206,108 (Drilling system); U.S. Pat. No. 6,073,488 (Capacitive liquid level sensor); and U.S. Pat. No. 5,957,773 (Measuring Grain characteristics), the contents of which are hereby incorporated by reference as if recited in full herein. [0045] The radioactive sources of the nuclear gauges can be divided into the following categories, gamma ray, neutron, beta, and x-ray. The design, size, configuration, and radioactive strength of the radioactive sources and/or detectors can vary in different applications, but nuclear gauges, generally, share a common feature, one or more radioactive sources that when used improperly or if unshielded or removed (intentionally or unintentionally) from its intended device, can expose the environment and/or people to unwanted radiation. [0046] Gamma ray gauges have been used as level gauges in the chemical industry and depend on having a source on one side of the holding tank and a detector on the other. Examples of radioactive gamma sources (for processing industry application and/or the construction industry gauges) include Cobalt-60 and Cesium-137. [0047] Examples of gamma ray based nuclear level gauges include systems which employ one or more of a point source-point detector, a line source-point detector, a line detector-point source, and a line detector-line source. Nominal size of tanks can be in the range of about 5 to 6 ft in diameter and 20 to 30 ft in depth. [0048] Neutrons have also been used in the pulp and paper industry to measure moisture content of wood chips based on neutron thermalization and detection of thermal neutrons. In addition, this industry can also use gamma ray gauges to determine when a tank is full of wood chips. X-rays are used in various industries to determine elemental composition through X-ray fluorescence. One exemplary processing industry that employs such devices is the coal industry. [0049] Fast neutrons have also been used to determine elemental composition though the process of neutron activation analysis. When a material is bombarded with a high flux of fast neutrons some are absorbed by an atom creating an unstable isotope. When this isotope decays it will emit a gamma ray which will be a signature of that particular element. By counting the different gamma rays from different decaying atoms the elemental composition of the material may be estimated. Beta particles are essentially electrons. These particles have been used to determine the thickness of aluminum in aluminum processing industries. [0050] Although particularly suitable for use with nuclear gauges that employ nuclear or radioactive materials, embodiments of the present invention may alternatively be used to track or monitor other devices that transport, house, use or carry hazardous materials (hazmat). Examples of such hazardous materials include, but are not limited to, radioactive energy sources, radioactive waste such as “spent” nuclear fuel rods, toxic or hazardous chemicals, biological toxins or medical waste, and the like. However, for ease of discussion, the description that follows will be discussed primarily with reference to nuclear gauge instruments that employ one or more radioactive sources. [0051] In the description that follows, the monitored device will be primarily discussed with respect to a nuclear gauge 10 for clarity and/or ease of description. However, the description is not limited thereto and the operation and/or features can apply to other containers or devices employing hazardous materials including, but not limited to, radioactive materials. [0052] Referring to FIG. 1, a monitoring system 5 can be used to establish the location of the nuclear gauge 10. The monitoring system 5 provides a wireless tracking and/or communication system between a remote tracking station 20 and a plurality of different nuclear gauges 10. The nuclear gauge 10 can be monitored during normal field use, storage at a storage site such as a distributor, regional or state warehouse, or OEM facility, or while being transported to and/or from a storage, distributor or OEM site (such as to a use or distributor location). The monitoring may be carried out at increased intervals when movement from either a known or previous location is detected or planned. The devices may be particularly prone to theft during transport. In addition, the carrier itself may be tracked or used as a relay station for the devices it carries. The system 5 may be configured to define virtual geographical fences 75 p to alert when a device travels outside its planned use district or transport corridor (FIGS. 4 and 5) as will be discussed further below. [0053] The monitoring can be carried out using any suitable tracking technology. For example, as shown in FIGS. 1 and 2, one or more of cellular or mobile telephone and/or global communication technology with mobile communications towers 30 and/or one or more satellites 40. The arrows in FIGS. 1 and 2 illustrate that communication can occur in several ways between the components. The monitoring can be intermittent, semi-continuous or substantially continuous. The remote tracking station 20 can be located at a single tracking site or at selected ones of multiple tracking sites. The remote tracking station 20 can be connected to a regional or global computer network such as the world wide web or internet. The remote tracking station 20 can be an automated network of computers that monitors a plurality of different nuclear gauges 10 and automatically generates an audible alert or transmits a warning to law enforcement offices when irregular activity is detected. [0054] Each nuclear gauge 10 can be assigned a unique identifier, such as an alphanumeric identifier or serial number, that correlates its ownership and product information in the monitoring system 5. The system 5 can be configured to obtain the geographic locational data at suitable intervals and provide hourly, daily, weekly, monthly or other summary records of the location of each nuclear gauge. The geographic data may be obtained automatically, for example, through the use of a global positioning system (GPS). At times of increased activity or interest, the interval can be adjusted to provide increased interrogation. Similarly, an increased number of interrogations can be instituted for gauges 10 located in high-risk regions or zones or when a particular user wants such increased surveillance. The summary records can be provided electronically in relatively real time to one or more recipient addresses and/or by project, owner, region, or other sort criteria of interest. In addition, for registered owners, inventories and locations of their particular gauges can be reported in desired regulatory reporting intervals and formats. [0055] If during polling or interrogation of a location of a particular nuclear gauge 10, no signal is received or detected, the system can immediately retry or retry to obtain a signal within a shortened polling period relative to its normal polling interval. The system can identify the last known location and the time and/or day at its last known location. The system may also automatically relay a telephone message and/or computer message to the registered owners and/or responsible personnel about the loss in signal and potential loss of the device itself. Thus, tracking on a fairly routine basis can give owners or enforcement agents more positional accuracy for devices that may have their monitoring circuitry intentionally (or accidentally) disabled. Examples of suitable location monitoring techniques will be discussed further below. [0056] Referring to FIG. 2, in certain embodiments, the system 5 can be configured with a wireless tracking and/or communication module 14 and a detector 12 (shown as a radioactive or Geiger counter) to obtain dynamic and/or active readings associated with the operative or physical state of the device 10 to confirm that the radioactive source 11 remains intact. In operation, the radioactive monitoring can be carried out by obtaining a radiation count during the locational interrogation by detecting and relaying the count of a detector 12 positioned in proximity to the radioactive source 11 via the wireless tracking and/or communication module 14 to one or more remote stations 20. For devices 10 that have on-board Geiger counters, the counters can be used to obtain the desired radioactive confirmation readings. In other embodiments, a supplemental Geiger counter or other suitable detection device 12 can be configured to obtain the desired confirmation data. Typically, about 100-200 counts per minute are generated during a background reading of a typical nuclear gauge. Thus a reading of 10-50 may indicate a portion of the radioactive source has been removed or stolen. For devices employing two different radioactive sources, two different detectors can be used, one for each, or a cumulative detection counter can be used to determine whether the appropriate amount of radiation is present corresponding to both sources. [0057] While FIG. 2 illustrates a radioactive material detection device, other hazardous material detection devices could also be utilized. For example, in certain applications, a pH sensor can be used to determine if the hazmat material is held in an undiluted form in the container. In other situations, a scale can be employed to indicate when the mass or volume has been decreased. Level sensors can be used for liquid based hazmat materials. Pressure gauges can be used when the material is enclosed under pressure. Other material property or physical sensors can be used as suited to the application and material being tracked. [0058] In certain embodiments, the device 10 may include displacement sensors such as transducers, scales, optic sensors, or infrared systems and the like that can be used to indicate when the radioactive source has been extricated or removed from a predefined space such as the boundary of the device. [0059] In particular embodiments, the device 10 can be configured so that it includes an anti-theft circuit (110, FIG. 9) that disables or destroys the operational usefulness of the device 10 if someone attempts to remove the radioactive source 11 from the device. This configuration may make it disadvantageous for a user to transfer radioactive sources 11 between gauges 10. Further, the anti-theft circuit can be configured to alert the remote location (and/or generate an audible local alert) when the radioactive source 11 moves beyond a predetermined distance in the device and/or moves outside the boundary of the device housing. In certain gauges, the radioactive source is expected to move certain distances in operation. Thus, the inactive count measurement and/or positional verification assessment can be configured to take these actions into consideration. [0060] In certain embodiments, the remote station 20 can be configured to control the operation of the nuclear gauge 10. As such, the local device 10 can be configured with an interface module that allows remote operational control of the device, such as activation or deactivation of the Geiger counter 12, power source, relay or dynamic or substantially real time measurement data, diagnostic information, calibration data, other data transfer, and the like. [0061] As will be discussed further below, the tracking circuitry or components can be provided as a kit of components of hardware and software that can be installed by users, can be integrated into the nuclear gauge itself (via the kit of components or at the OEM facility) and/or disposed within the shipping container (during shipping or transport). The tracking components can be positioned in various random locations within the device 10 so that the hardware is not positioned in a known or predictable location, thereby making it more difficult for someone to attempt to remove the tracking hardware or software from the device 10. [0062] As discussed above, embodiments of the present invention may incorporate both a communications device and a position determination device. The communications device may be wireless or wired, analog or digital and may include a satellite communications device, a wireless communications device, a wireless networking device, a wired communications device and/or a wired networking device. Similarly, the position determination device may be any suitable device for determining the position of the monitoring device, either within a localized geographic region, such as building, city, state or the like, or anywhere on the globe. Such position determining devices may be incorporated with the communications device or may be a separate device, such as a global positioning device, or may be a combination of a separate device and the communications device. [0063] In particular embodiments of the present invention, the communications device is a wireless communication device for operation in a wireless communication system. Wireless communication systems (networks) are commonly employed to provide voice and data communications to subscribers. For example, analog cellular radiotelephone systems, such as those designated AMPS, ETACS, NMT-450, and NMT-900, have long been deployed successfully throughout the world. Digital cellular radiotelephone systems such as those conforming to the North American standard IS-54 and the European standard GSM have been in service since the early 1990's. More recently, a wide variety of wireless digital services broadly labeled as PCS (Personal Communications Services) have been introduced, including advanced digital cellular systems conforming to standards such as IS-136 and IS-95, lower-power systems such as DECT (Digital Enhanced Cordless Telephone) and data communications services such as CDPD (Cellular Digital Packet Data). These and other systems are described in The Mobile Communications Handbook, edited by Gibson and published by CRC Press (1996). [0064] FIG. 3A illustrates a conventional terrestrial wireless communication system 320 that may implement any one of the aforementioned wireless communications standards. The wireless system may include one or more wireless mobile terminals (stations) 322 that communicate with a plurality of cells 324 served by base stations 326 and a mobile telephone switching office (MTSO) 328. Although only three cells 324 are shown in FIG. 3A, a typical cellular radiotelephone network may comprise hundreds of cells, and may include more than one MTSO 328 and may serve thousands of wireless mobile terminals 322. [0065] The cells 324 generally serve as nodes in the communication system 320, from which links are established between wireless mobile stations (terminals) 322 and a MTSO 328, by way of the base stations 326 servicing the cells 324. Each cell 324 will have allocated to it one or more dedicated control channels and one or more traffic channels. The control channel is a dedicated channel used for transmitting cell identification and paging information. The traffic channels carry the voice and data information. Through the communication system 320, a duplex radio communication link 330 may be effectuated between two wireless mobile stations 322 or between a wireless mobile station 322 and a landline telephone user 332 via a public switched telephone network (PSTN) 334. The function of the base station 326 is commonly to handle the radio communications between the cell 324 and the wireless mobile terminal 322. In this capacity, the base station 326 functions chiefly as a relay station for data and voice signals. [0066] As illustrated in FIG. 3B, in a celestial communication system, a satellite 342 may be employed to perform similar functions to those performed by a conventional terrestrial base station, for example, to serve areas in which population is sparsely distributed or which have rugged topography that tends to make conventional landline telephone or terrestrial cellular telephone infrastructure technically or economically impractical. A satellite radiotelephone system 340 typically includes one or more satellites 342 that serve as relays or transponders between one or more earth stations 344 and terminals 323. The satellite conveys radiotelephone communications over duplex links 346 to terminals 323 and an earth station 344. The earth station 344 may in turn be connected to the PSTN 334, allowing communications between satellite radiotelephones, and communications between satellite radio telephones and conventional terrestrial cellular radiotelephones or landline telephones. The satellite radiotelephone system 40 may utilize a single antenna beam covering the entire area served by the system, or, as shown, the satellite may be designed such that it produces multiple minimally-overlapping beams 348, each serving distinct geographical coverage areas 50 in the system's service region. The coverage areas 350 serve a similar function to the cells 324 of the terrestrial cellular system 320 of FIG. 3A. [0067] Such terrestrial or satellite communication systems may also be used for location determination. For example, the cell 324 in which the device resides may be determined. Similarly, triangulation between base stations 326 may also be accomplished, for example, based on the relative signal strength and/or signal delays associated with different base stations 326. [0068] For more localized communications wireless networking devices, such as an IEEE 802.11 wireless network adapter may be provided. Such wireless network communications may be carried out as if the monitoring device were connected directly to a network, such as an Internet Protocol (IP) network. Location determination in such a wireless network could also be determined, for example, by determining the wireless access point utilized by the device. Each wireless access point could then be associated with a geographic range of the wireless communications to the wireless access point to determine the location of the monitoring device. [0069] Embodiments of the present invention may also incorporate a global positioning system for use as the position determination device. Briefly, as illustrated in FIG. 3C, GPS is a space-based triangulation system using satellites 352 and computers 358 to measure positions anywhere on the earth. GPS was first developed by the United States Department of Defense as a navigational system. The advantages of this navigational system over other land-based systems are that it is not limited in its coverage, it provides continuous 24-hour coverage, regardless of weather conditions, and is highly accurate. While the GPS technology that provides the greatest level of accuracy has been retained by the government for military use, a less accurate service has been made available for civilian use. In operation, a constellation of 24 satellites 352 orbiting the earth continually emit a GPS radio signal 354. A GPS receiver 356, e.g., a radio receiver with a GPS processor, receives the radio signals from the closest satellites and measures the time that the radio signal takes to travel from the GPS satellites to the GPS receiver antenna. By multiplying the travel time by the speed of light, the GPS receiver can calculate a range for each satellite in view. Ephemeris information provided in the satellite radio signal typically describes the satellite's orbit and velocity, thereby generally enabling the GPS processor to calculate the position of the GPS receiver 356 through a process of triangulation. [0070] The startup of a GPS receiver typically requires the acquisition of a set of navigational parameters from the navigational data signals of four or more GPS satellites. This process of initializing a GPS receiver may often take several minutes. [0071] The duration of the GPS positioning process is directly dependent upon how much information a GPS receiver has initially. Most GPS receivers are programmed with almanac data, which coarsely describes the expected satellite positions for up to one year ahead. However, if the GPS receiver does not have some knowledge of its own approximate location, then the GPS receiver cannot find or acquire signals from the visible satellites quickly enough, and, therefore, cannot calculate its position quickly. Furthermore, it should be noted that a higher signal strength is needed for capturing the C/A Code and the navigation data at start-up than is needed for continued monitoring of an already-acquired signal. It should also be noted that the process of monitoring the GPS signal is significantly affected by environmental factors. Thus, a GPS signal which may be easily acquired in the open typically becomes harder to acquire when a receiver is under foliage, in a vehicle, or worst of all, in a building. [0072] As described in U.S. Pat. No. 6,295,023, the disclosure of which is incorporated herein by reference as if set forth fully herein, GPS and cellular communications techniques may be combined to facilitate rapid location determination. Such a combined technique may be beneficial so as to reduce power consumption by reducing the duration that a monitoring system needs to be powered to determine and provide location information. [0073] As will be appreciated by those of skill in the art, the particular communication device and/or position determination device utilized may depend on the use of the monitoring device. For example, if the device is utilized in a relatively small predefined geographic area, then a wireless network may be utilized for both communications and positions. However, if the device is to be used or transported over a large geographic area, then a cellular or satellite communication system may be used in combination with a GPS for position determination. Thus, the present invention should not be construed as limited to a particular communication device and/or positioning system. [0074] Furthermore, because the use of the monitoring device may change, the communications system and/or positioning system may be provided in a modular form such that differing communications and/or positioning systems may be interchanged. [0075] Referring now to FIGS. 4 and 5, in certain embodiments, the system 5 may be configured to define segmented regions or virtual geographical fences 75 p to alert when a device travels outside its planned use district or region 75 r and/or transport corridor 75 c. FIG. 4 illustrates two examples of segmented regions. The first perimeter of a geographical fence 75 p is illustrated in the exemplary map as defined along the west coast of the United States. That is, for equipment owned by the California DOT (“department of transportation”), coordinates may be defined that indicate when a gauge 10 or other hazmat material is moved outside its intended use region 75 r. Smaller segments within a district or larger or non-contiguous use regions can also be defined as the geographical virtual fence regions (not shown). The virtual geographical fences 75 p can be adjusted according to planned use schedules upon an authorized request to the remote station 20 by a user or allocation facility. [0076] FIG. 4 also illustrates that the fence 75 p can be set up to enclose a predefined shipping corridor 75 c for moving or transporting a device from point A to point B. In addition, the fence 75 p associated with the cumulative shipping corridor 75 c may be segmented and serially adjusted or advanced based on the transport rate, speed, and/or the pendency time expected in each of several adjacent regions to even more closely monitor when such the device fails to advance into the next territory of the expected region at the projected time (which may be particularly suitable for long-distance hauls). [0077] FIG. 5 illustrates a similar concept to that shown in FIG. 4. In this embodiment, the United States may be divided into a grid of pre-defined and/or adjustable fences 75 p such as with several adjacent or overlapping use regions and associated restricted virtual fences 75 p. Similarly, on a global perspective, each or selected countries may be set-up to indicate when devices are leaving or entering their borders (shown by the horizontal arrow positioned over Spain), or a border of particular interest. The grid of virtual geographical fences may be set-up to extend over waterways and airways and the like. [0078] While embodiments of the present invention have been described with reference to virtual fences covering relatively large geographic regions, such virtual fences could also be utilized for a particular path of transit or location of a device. With the availability of detailed maps of highway systems integrated with GPS devices, the particular path of travel of a device could be used as a starting point and boundaries defined around that path of travel that are relatively small such that a deviation from a projected path of travel beyond expected normal deviation could trigger an alert. Thus, the virtual fences according to embodiments of the present invention may vary in geographic scope based on the information available about the use or transport of the devices. [0079] FIG. 6 illustrates examples of operations that can be used to carry out embodiments of the present invention. An identifier can be assigned to a container of hazmat material (block 200). The identifier can, for example, be an alphanumeric indicia that represents a product type, type of hazardous material, manufacturer, product serial number, owner, shipping date, first field use or arrival date, and the like (block 205). The hazmat material can comprise a radioactive source (block 201). The hazmat material can include a radioactive material such as a gamma ray energy source operably associated with a nuclear gauge (block 202). The location of the hazmat material is tracked at desired intervals (block 210). The location can be tracked during shipping or transport to monitor whether it stays within a predetermined travel corridor (block 211). The location of the hazmat can be tracked during its normal intended service life in its intended operational use or storage container or device (block 212). Authorities are automatically alerted with hazmat material departs from a projected geographical location or region and/or when a monitored parameter of the hazmat material departs from a predetermined amount (block 220). The alert can be generated when at least one of the following events is detected: a radioactive count is reduced from a predetermined amount; the weight of the hazmat material is reduced from the original quantity; the hazmat material moves beyond a predetermined boundary or a distance within the housing, container or package (block 222). [0080] FIGS. 7A and 7B show an exemplary embodiment of a tracking device 14 integrated into the housing 10 h of a nuclear measurement gauge 10. As shown, the nuclear gauge 10 includes two radioactive sources 11, a gamma source 11 g and a neutron source 11 n. Each source 11 can include its own Geiger Mueller counter (not shown) as is conventional with this type of nuclear gauge 10. The tracking device 14 can comprise an antenna 14 a and electronic circuitry 14 c that interfaces with the operational control system of the device 10. The antenna 14 a can be of any suitable type sufficient to transmit and/or relay the tracking signal and configured to meet regulatory operational requirements. The antenna 14 a can be a retractable antenna, a stationary antenna, a flat antenna, a coil antenna, an antenna that is formed directly into the interior of the gauge housing or into the surface of the housing and the like (not shown). [0081] The tracking device 14 can include computer program code and circuitry 14 c that allows remote activation/deactivation or adjustment of certain operational parameters of the device 10 and/or tracking system 14 as well as transfer of desired data in substantially real-time using the remote communication system 14 w. For example, the device 10 can be configured to relay measurement or test data at the time it is taken to a desired remote site. This feature can allow inspection personnel with real time access to results and an associated precise location as to where the data was collected. The transfer of data can be made so that it is compatible with standard database programs. In addition or alternatively, the remote control interface can be used to place the tracking device 14 and/or nuclear gauge 10 in a “sleep mode” to preserve battery power during non-operative periods. The remote interface may also be used to deactivate, disable or functionally destroy the gauge 10 in the case of detected misuse by an operator. Other operational parameters of the nuclear gauge may also be controlled or obtained via the remote interface as desired (such as to obtain diagnostics or trouble shoot problems and the like). [0082] The tracking device 14 can be configured to disable the operation of the device 10 if there is an attempt to remove the radioactive source 11 from the device 10. The tracking device 14 can be configured with one or more anti-theft sensors (shown schematically as element 141 s in FIG. 10) that are in communication with the radioactive source(s) 11, whether held inside the housing 10 h, outside the housing, or on a desired surface of the housing 10 h. In certain embodiments, a plurality or redundant number of anti-theft sensors are concealed inside the housing at different, possibly random, locations from device to device, to inhibit easy removal or deactivation of the tracking system 14. [0083] Similarly, “red-herring” components may be used as well as the real components so that a potential thief will have to overcome these obstacles before being able to disable or dislodge the true tracking circuitry 14 c. The “red-herring” components can include an antenna and similar packing of the true components and be electrically connected to the tracking circuit 14 c with a monitoring line so that if a person chooses to remove the false equipment before the “real” tracking circuitry, an immediate alert can be generated. The anti-theft tracking can be based on one or a plurality of different physical or operational parameters including, but not limited to: radioactive counts, weight, movement of the source(s) 11 within or from the device housing 10 h, if a signal is obtained outside a defined fence segment 75 p (such as beyond an intended or projected use region 75 r or transport corridor 75 c), or if no signal is obtained after a predetermined (successive) number of interrogations fails to obtain a communication tracking signal. [0084] In other embodiments, the tracking device 14 can be configured to operate independently of the measurement device 10 itself. For example, the tracking device 14 can be configured as a self-contained system that can be positioned in or on the housing 10 h of the device. As such, the tracking system 14 can include its own power source and electronic circuitry 14 c that provides the wireless communication system 14 w to allow tracking of the location of the device 10. In certain embodiments, the system 14 can also include one or more Geiger Mueller counters (separate from those for measurement operation of the device 10 itself), displacement, weight or movement sensors to detect when the radioactive source(s) 11 are being removed from the housing 10 h and the like. [0085] FIGS. 8A and 8B illustrate the device 10 held inside a packaging or shipment container 100. In this embodiment, the tracking device 114 is held on or inside of the container 100. To inhibit external viewing of the location of the tracking device 114, the tracking device 114 can be held inside the container such as on an internal wall or inside packaging material in the container 100. Again, when inserting the device 114 into the container, different, possibly random, positioning may be desired from device 10 to device 10 or from container 100 to container 100. It may also be desirable to use two tracking devices 14, 114, one on the shipping container 100 and the other that remains with the device 10. The device on the container 114 may be reused for additional transports by returning it to a shipping site and reprogramming the system with a new serial number for tracking purposes. [0086] FIG. 9 illustrates one example of a nuclear gauge 10 with a tracking device 14. The tracking device 14 includes software and hardware components. As shown, the tracking device 14 includes the remote wireless communication system 14 w and the tracking circuit 14 c that includes a controller 110 with a tracking module 14 m. The tracking device 14 may also include a battery back-up and/or primary power source 14 p. The controller 110 can be a joint controller that is configured to control normal operation of the measurement device 10 as well as the tracking device 14 or may be a controller that is independent of the controller of the device 10 itself. If the tracking device 14 includes its own controller 110, then it may be configured to communicate with the device controller or act independently thereof. [0087] The tracking device 14 may also optionally include one or more of a source count comparator module 141 m, a remote control interface module 14I, and a remote warning/alert module 20M. The source count comparator module 141 m can actively or dynamically detect the number of counts in a monitoring period and compare it to predetermined threshold values that can confirm the radioactive source(s) 11 is still in the equipment 10. The active detection can be carried out concurrently or proximate in time to when the time the locational tracking interrogation is undertaken. Typically, the count detection can be carried out in a time period of less than one minute and typically in less than about 30 seconds to confirm that a suitable count is obtained (100-200 counts/min or 50-100 counts per 30 seconds). The data from the source count comparator module 141 m can be transmitted to the remote station 20 with the locational data. The remote control interface module 14I can be configured to allow the remote station 20 to control certain operational parameters of the device 10 and/or the tracking device 14. The remote warning/alert module 20M can be located in the local device 10 and/or at the remote station 20 (FIG. 1), to automatically generate an alert, such as an audible local alert and a remote alert that can be electronically or telephonically relayed to regulatory or interested parties, upon the detection of predetermined conditions associated with the location of the device 10 (such as outside a predetermined use or shipping zone) or a detected tampering of the source 11 in the device 10 (such as when the count is decreased from a projected value). [0088] FIG. 10 illustrates a nuclear gauge 10 with a tracking device 14 similar to that shown in FIG. 9. FIG. 10 further illustrates that the source count module 141 m can be alternatively configured to be a source displacement module and/or a source count module 141 m′. FIG. 10 also illustrates that the controller 14 c includes an anti-theft module 142 that disables the operation of the nuclear gauge 10 upon detection of predetermined conditions or parameters, typically using data from the source displacement and/or source count module 141 m′ to determine whether to activate the anti-theft module 142. The anti-theft module 142 can be configured to switch off the power source 13 or transmit a voltage or current sufficient to destroy a circuit in the controller or other circuitry in the device 10. The anti-theft module 142 can be configured to initiate the remote warning/alert module, to automatically generate an alert, such as an audible local alert and a remote alert that can be electronically or telephonically relayed to regulatory or interested parties, upon the detection of predetermined conditions associated with the location of the device 10 (such as outside a predetermined use or shipping zone) as noted above and/or upon one or more sensor based detection that the source 11 has been moved beyond certain predetermined boundaries in the device 10 or from the perimeter bounds of the device 10 or when the count is decreased from a projected value. [0089] For cellular telephone based tracking devices, the “on-board” tracking device 14 can be configured as a relatively miniaturized palm or pocket-sized device (with a circuit board being less on the order or less than about 4 inches�2 inches�1.2 inches) with a relatively low weight (less than about 6 ounces, typically about 3 ounces). The tracking device 14 can be configured to have a power requirement of between about 6-13.6 volts with a current draw of about 250 mA nominal with a current draw during transmit/receive of about 2 A maximum. The output can be configured as NMEA and the GPS receiver can be a 12-channel receiver. The locational accuracy is expected to be accurate to less than about 4 meters. [0090] For satellite based tracking devices, the “on-board” tracking device 14 can be configured to operate with an up-link frequency between about 148.000-150.050 MHz and a down-link frequency of between about 137.000-138.000 MHz. The transmit current can be on the order of about 2.5 A and the receive current at about 90 mA. The GPS receiver may have about 8 channels. Again the device may be relatively miniaturized with a circuit board that may be configured as about 5.9�3.5�1.3 inches. In other embodiments, the “on-board” tracking device 14 can comprise circuitry that combines the cell based and satellite technologies or other desired tracking technology. [0091] In particular embodiments, the tracking device can be configured to generate a remotely trackable beacon signal rather than allow interface or communications between the tracking device and/or the measurement or nuclear device 10 itself. It is contemplated that the tracking device may be mounted on or in the radioactive source itself to inhibit removal from the surface or container device and allow more precise tracking of the hazmat material apart from its intended use device. [0092] As will be appreciated by one of skill in the art, the present invention may be embodied as an apparatus, a method, data or signal processing system, or computer program product. Accordingly, the present invention may take the form of an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, certain embodiments of the present invention may take the form of a computer program product on a computer-usable storage medium having computer-usable program code means embodied in the medium. Any suitable computer-readable medium may be utilized including hard disks, CD-ROMs, optical storage devices, or magnetic storage devices. [0093] The computer-usable or computer-readable medium may be, but is not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, device, or propagation medium. More specific examples (a nonexhaustive list) of the computer-readable medium would include the following: an electrical connection having one or more wires, a portable computer diskette, a random access memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or Flash memory), an optical fiber, and a portable compact disc read-only memory (CD-ROM). Note that the computer-usable or computer-readable medium could even be paper or another suitable medium upon which the program is printed, as the program can be electronically captured, via, for instance, optical scanning of the paper or other medium, then compiled, interpreted or otherwise processed in a suitable manner if necessary, and then stored in a computer memory. [0094] Computer program code for carrying out operations of the present invention may be written in an object oriented programming language such as Java�, Smalltalk, Python, Labview, C++, or VisualBasic. However, the computer program code for carrying out operations of the present invention may also be written in conventional procedural programming languages, such as the “C” programming language or even assembly language. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer. In the latter scenario, the remote computer may be connected to the user's computer through a local area network (LAN) or a wide area network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet Service Provider). [0095] The flowcharts and block diagrams of certain of the figures herein illustrate the architecture, functionality, and operation of possible implementations of analysis models and evaluation systems and/or programs according to the present invention. In this regard, each block in the flow charts or block diagrams represents a module, segment, operation, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that in some alternative implementations, the functions noted in the blocks may occur out of the order noted in the figures. For example, two blocks shown in succession may in fact be executed substantially concurrently or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. [0096] FIGS. 11A and 11B are block diagrams of exemplary embodiments of data processing systems that illustrates systems, methods, and computer program products in accordance with embodiments of the present invention. In general, the data processing system of FIG. 11A may be incorporated in the nuclear gage 10 and the data processing system of FIG. 11B utilized as the tracking station 20. For example, the data processing system may provide some or all of the functionality of the controller 14C, the remote control interface 14I, the remote warning module 20M and/or the source count comparator module 141 m of FIGS. 9 and 10. Similarly, the data processing system may also provide some or all of the functionality of the anti-theft module 142 and/or the source displacement module 141 m′ of FIG. 10. Thus, the data processing systems may be configured to operate in conjunction with additional circuitry, such as communications devices, location tracking devices, sensors, switches or the like so as to locally and/or remotely monitor and/or control a nuclear gauge 10. [0097] As seen in FIGS. 11A and 11B, the processor 410 communicates with the memory 414 via an address/data bus 448. The processor 410 can be any commercially available or custom microprocessor. The memory 414 is representative of the overall hierarchy of memory devices containing the software and data used to implement the functionality of the data processing system. The memory 414 can include, but is not limited to, the following types of devices: cache, ROM, PROM, EPROM, EEPROM, flash memory, SRAM, and DRAM. [0098] As shown in FIGS. 11A and 11B, the memory 414 may include several categories of software and data used in the data processing system: the operating system 452; the application programs 454; the input/output (I/O) device drivers 458; a radioactive source location and/or activity tracking module 450 or 451; and the data 456. The tracking module 450 incorporated in the nuclear gauge 10 can include a dynamic comparator module to affirm that the radioactive source is still intact in the device. The tracking module 450 can be configured to track other hazardous materials as discussed above. [0099] In certain embodiments of the present invention where the data processing system is incorporated in the nuclear gauge 10, the tracking module 450 may carry out operations as described herein for monitoring, controlling and/or tracking the nuclear gauge 10. For example, the tracking module 450 can be configured to employ wireless mobile communication technology and/or GPS technology that defines the location of nuclear gauges being tracked over time. The tracking module 450 can be configured to relay its data to registered users or to the tracking station 20 that may allow registered users to access the tracking station 20 as a portal to obtain information about its equipment at any desired time, substantially continuous access 24-7. The tracking module 450 may also allow direct connection to the nuclear gauge 10, for example, by web enabling the data processing system that allows connection with the Internet or an intranet or by direct modem connection or the like to allow dynamic or periodic summary records of inventory and/or location of tracked devices or materials as desired. The tracking intervals can be programmably adjusted as well as any predetermined fences 75 p that are established upon initiation of the tracking service. [0100] In certain embodiments of the present invention where the data processing system (405 FIG. 11A, 406 FIG. 11B) is provided as the tracking station 20, the tracking module 451 may carry out operations as described herein for monitoring, controlling and/or tracking the nuclear gauge 10. Additionally, the tracking module 451 may also provide administrative functionality, such as transferring measurement data in conjunction with measurement location (GPS) to a central office, or providing summary reports, updates of software in the nuclear gauges, obtaining calibration data of the operational status of the device, or other such maintenance/administrative functions. For example, the tracking module 451 can be configured to employ wireless mobile communication technology to communication with a plurality of nuclear gauges 10 to track their locations, monitor their usage/status and/or control their operation. The tracking module 451 can be configured to relay its data to registered users or allow registered users to access the tracking station 20 as a portal to obtain information about the nuclear gauges 10 that are monitored, controlled and/or tracked at any desired time, for example, substantially continuous access 24 hours a day, 7 days a week. The tracking module 451 may also allow direct connection to particular ones of the nuclear gauges 10, for example, by web enabling the data processing system that allows connection with the Internet or an intranet or by direct modem connection or the like. The tracking module 451 may also maintain historical information about the use and/or location of tracked nuclear gauges 10 that may be provided to a user and/or may allow real time access tracked nuclear gauges 10. Additionally, periodically summary records of inventory and/or location of tracked devices or materials as desired may also be provided. The tracking module 451 may also provide automated alerts to users when a predefined condition of a nuclear gauge or gauges 10 is detected. The tracking intervals can be programmably adjusted as well as any predetermined fences 75 p may be established upon initiation of the tracking service and/or updated through the tracking module 451. [0101] The data 456 may include tracking data 462 which may include operational and/or location tracking information. As will be appreciated by those of skill in the art, the operating system 452 may be any operating system suitable for use with a data processing system, such as OS/2, AIX or OS/390 from International Business Machines Corporation, Armonk, N.Y., WindowsCE, WindowsNT, Windows95, Windows98, Windows2000, WindowsXP or Windows XT from Microsoft Corporation, Redmond, Wash., PalmOS from Palm, Inc., MacOS from Apple Computer, UNIX, FreeBSD, or Linux, proprietary operating systems or dedicated operating systems, for example, for embedded data processing systems. [0102] The I/O device drivers 458 typically include software routines accessed through the operating system 452 by the application programs 454 to communicate with devices such as I/O data port(s), data storage 456 and certain memory 414 components and/or the image acquisition system 420. The application programs 454 are illustrative of the programs that implement the various features of the data processing system and preferably include at least one application that supports operations according to embodiments of the present invention. Finally, the data 456 represents the static and dynamic data used by the application programs 454, the operating system 452, the I/O device drivers 458, and other software programs that may reside in the memory 414. [0103] While the present invention is illustrated, for example, with reference to the tracking module 450 or 451 being an application program in FIGS. 11A and 11B as will be appreciated by those of skill in the art, other configurations may also be utilized while still benefiting from the teachings of the present invention. For example, the module 450 or 451 may also be incorporated into the operating system 452, the I/O device drivers 458 or other such logical division of the data processing system. Thus, the present invention should not be construed as limited to the configuration of FIGS. 11A and 11B, which is intended to encompass any configuration capable of carrying out the operations described herein. [0104] In certain embodiments, the module 450 and/or 451 includes computer program code for defining geographic virtual fences for each of the tracked devices or for selected devices and comparing the location of the device (s) relative to the defined fences. The tracking module 450 and/or 451 may then automatically generate a warning or alert when the device departs from the respective region associated with its geographic virtual fence. The tracking module 450 and/or 451 physical data obtained dynamically during the locational monitoring to compare the physical data to predetermined data to confirm that the hazardous material and/or radioactive source is still in the device or container. [0105] While the present invention is illustrated, for example, with reference to particular divisions of programs, functions and memories, the present invention should not be construed as limited to such logical divisions. Thus, the present invention should not be construed as limited to the configurations shown in the figures but is intended to encompass any configuration capable of carrying out the operations described herein. [0106] FIG. 12 illustrates operations of a tracking station 20 according to certain embodiments of the present invention. Operations illustrated in FIG. 12 are for the monitoring, controlling and tracking location of a nuclear gauge, however, only portions of the operations of FIG. 12 need be carried out if only one or two of the functions of monitoring, controlling and/or tracking location are desired. Thus, a tracking station 20 according to embodiments of the present invention need not carry out all of the operations of FIG. 12. [0107] As seen in FIG. 12, if the operation carried out by the tracking station 20 is to control the operation of a nuclear gauge (block 500), the tracking station 20 connects to the device to be controlled (block 502) and obtains input for parameters that control the device (block 504). These control parameters are provided to the device over the connection (block 506). The connection to the device may, for example, be made by a landline, cellular or satellite telephony connection, a wireless network connection or a wired connection. Furthermore, the control of the device and obtaining of parameters may be carried out by providing a web browser interface to a user such that, for example, a CGI form is filled out by a user and the data from the CGI form provided to the device. The web browser interface may be provided by an applet, a servlet, HTML, WML or other such markup language or other techniques known to those of skill in the art. The web browser interface may be provided by the tracking station 20 directly or may be provided from the device through the tracking station, for example, if the device has an imbedded web server, such as a pico-server. Thus, the tracking station 20 may function as a web server that provided access to a back end service (the device) or may function as a gateway or proxy allowing access to the device through the tracking station 20. [0108] The control parameters provided to the device may also be automatically generated by the tracking station 20 based, for example, on status information obtained from the device or location information associated with the device. For example, parameters that disable the device may be provided to the device in the event that the location of the device is outside a desired range or if the status of the device indicates that the nuclear source has been tampered with. [0109] Returning to FIG. 12, if the operation carried out by the tracking station 20 is to monitor the status of a nuclear gauge (block 500), the tracking station 20 obtains the status information from the device (block 508). Optionally, the obtained status is displayed to a user (block 510), for example, by incorporating the status into a display of the tracking station 20 or by sending a web page to a remote user that contains the status information. The status information may be obtained from the device by querying the device or it may be automatically provided by the device to the tracking station 20. For example, the tracking station could periodically poll devices that it was tasked to monitor and request status information from the polled devices. If the device did not respond to the poll that information could also be reflected in the status information. Alternatively or in addition, the monitored devices could periodically send status information to the tracking station 20. The status information could also reflect if a device failed to send its status information at the predefined time. The status information obtained from the device may also include, as discussed above, information about the hazardous material associated with the device, information about the performance of the device, such as measurements of the nuclear gauge, administrative information such as the status of operational parameters of the device, including for example, the time period between the device sending status information, the charge of a battery associated with the device, communication parameters or the like. [0110] However the status is obtained, the status may be evaluated based on a predefined criteria to determine if the status is acceptable (block 512). For example, if the status is a radioactive count, the status may be compared to a count threshold to determine if the radioactive source has been removed from the monitored device. Similarly, if the status is a battery charge level, the level of charge of the battery could be evaluated to determine if the battery needs charging. If the status is not acceptable (block 512), an alert may be set based on the status information (block 514). The alert may include, for example, sending a status message to a user, such as highlighting the unacceptable status on a display or on a web page provided to the user. The status message could also be sent to a user as an e-mail or voice mail message, pager message, facsimile transmission or the like reflecting the unacceptable status. If the status is acceptable (block 512), the operations for setting an alert are bypassed. [0111] If the operation carried out by the tracking station 20 is to track the location of a nuclear gauge (block 500), the tracking station 20 obtains the location information from the device (block 516). Optionally, the obtained location information is displayed to a user (block 518), for example, by incorporating the location information into a display of the tracking station 20 or by sending a web page to a remote user that contains the location information. The location information may be obtained from the device by querying the device or it may be automatically provided by the device to the tracking station 20. For example, the tracking station could periodically poll devices that it was tasked to monitor and request location information from the polled devices. If the device did not respond to the poll that information could also be reflected in the location information. Alternatively or in addition, the monitored devices could periodically send location information to the tracking station 20. The location information could also reflect if a device failed to send its location information at the predefined time or upon occurrence of a predefined event. Examples of predefined events may include movement of the device, the device exiting a restricted geographic region or other such location based events. The location information could be information that identified an absolute location or a relative location. For example, the location information may be provided as GPS coordinates of a device or, where a restricted geographic region is defined for a device, the location information could indicate the relative location of the device with respect to the geographic region (i.e., whether the device was inside or outside the restricted geographic region). [0112] However the location information is obtained, the location information may be evaluated based on a predefined criteria to determine if the location information is acceptable (block 520). For example, the location information may be compared to acceptable locations for the device to determine if the device is in an authorized location. If the location information is not acceptable (block 520), an alert may be set based on the status information (block 514). The alert may include, for example, sending a message to a user, such as highlighting the unacceptable location information on a display or on a web page provided to the user. The message could also be sent to a user as an e-mail or voice mail message, pager message, facsimile transmission or the like reflecting the unacceptable location information. If the location information is acceptable (block 520), the operations for setting an alert are bypassed. [0113] While the operations illustrated in FIG. 12 have been described as being carried out by the tracking station 20, such operations could also be directly carried out by individual devices or containers of devices, such as the nuclear gauges 10, for example, by the data processing system. Thus, for example, an individual device could monitor its own status and/or location and if unacceptable directly notify a user as discussed above with reference to block 508 through 520. Accordingly, the operations of FIG. 12 should not be construed as limited to a tracking station 20. [0114] FIG. 13 illustrates operations that may be carried out by a data processing system for remote monitoring of a nuclear gauge 10 according to certain embodiments of the present invention. As seen in FIG. 13, the data processing system obtains the characteristics of the nuclear gauge 10 to be provided as the status information (block 530). As discussed above, these characteristics may include, for example, characteristics associated with the radioactive source 11, operational characteristics of the nuclear gauge 10 and/or monitored results of operation of the gauge. A connection is established to the tracking station 20 (block 532) and the information sent to the tracking station over the connection. Alternatively, or in addition, the information could be sent directly to a user terminal that may act as a tracking station in this regard. As discussed above, the connection may be a wired, wireless, celestial or terrestrial telephony connection and/or a wired or wireless network connection. Furthermore, the information may be provided, for example, by sending the raw data, summary data, data formatted as, for example, a web page, or other such formats for transmitting information from one data processing system to another. [0115] FIG. 14 illustrates operations of the data processing system (405, 406) for tracking the location of a nuclear gauge 10 according to certain embodiments of the present invention. As seen in FIG. 14, the data processing system obtains location information associated with the nuclear gauge (block 540), for example, through a GPS location determination. A connection is established to the tracking station (block 542) and the information is sent to the tracking station over the established connection (blocks 544 and 548). Alternatively, or in addition, the location information could be sent directly to a user terminal that may act as a tracking station in this regard. As discussed above, the connection may be a wired, wireless, celestial or terrestrial telephony connection and/or a wired or wireless network connection. Furthermore, the location information may be provided, for example, by sending the raw data, summary data, data formatted as, for example, a web page, or other such formats for transmitting information from one data processing system to another. [0116] As is further illustrated in FIG. 14, optionally, if the data processing system is unable to establish a connection to the tracking system (block 544), the location information may be stored for subsequent transmission (block 546). In this manner, if the nuclear gauge 10 is transport outside the range of the communication system used the location history of the nuclear gauge 10 may be stored and sent to the tracking station 20 when the nuclear gauge re-enters the range of the communication system. [0117] FIG. 15 illustrates operations of the data processing system for remote control of a nuclear gauge 10 according to certain embodiments of the present invention. As seen in FIG. 15, when a connection is established from the tracking station 20 (block 550), it is determined if the tracking station 20 is requesting status of the nuclear gauge 10 (block 552). If status is requested, the status is sent to the tracking station 20 (block 554). It is also determined if control information is provided by the tracking station 20 (block 556), and if so, the operational parameters of the nuclear gauge 10 are updated with the received control information (block 558). Such an update of operational parameters may include, for example, a verification of authority for such an update. Furthermore, the update may also include an update of the software of the nuclear gauge 10. Thus, the software may be updated remotely which may provide for updating multiple or remotely located nuclear gauges without having to physically visit each gauge. Operation of the nuclear gauge 10 would then be carried out utilizing the new operation parameters. [0118] Alternatively, or in addition, the connection may be established directly from a user terminal that may act as a tracking station in this regard. As discussed above, in either case, the connection may be a wired, wireless, celestial or terrestrial telephony connection and/or a wired or wireless network connection. [0119] FIG. 16 illustrates operations for tamper prevention of a nuclear gauge 10 according to certain embodiments of the present invention. As seen in FIG. 16, the nuclear source is monitored to determine if the source has been removed, moved or tampered with (block 580). If the source has been removed, moved inappropriately or tampered with (block 582), the circuitry of the nuclear gauge is disabled as described above (block 584). Optionally, a connection may be established to the tracking station 20 or user terminal (block 586) and the tracking station 20 notified of the tampering (block 588). [0120] While embodiments of the present invention have been described above with reference to restricted areas where notification is provided if a device leaves the restricted area, embodiments of the invention also include restricted areas where notification is provided if the device enters the restricted area. In such embodiments, the virtual fences may be viewed as keeping device out of the area rather than keeping devices within the defined area. [0121] The flowcharts, flow diagrams and block diagrams of FIGS. 9 through 16 illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products for processing of network initiated subsequent provisioning trigger requests according to embodiments of the present invention. In this regard, each block in the flow charts or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical act(s). It should also be noted that, in some alternative implementations, the acts noted in the blocks may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. [0122] The foregoing is illustrative of the present invention and is not to be construed as limiting thereof. Although a few exemplary embodiments of this invention have been described, those skilled in the art will readily appreciate that many modifications are possible in the exemplary embodiments without materially departing from the novel teachings and advantages of this invention. Accordingly, all such modifications are intended to be included within the scope of this invention as defined in the claims. In the claims, means-plus-function clauses, when used, are intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Therefore, it is to be understood that the foregoing is illustrative of the present invention and is not to be construed as limited to the specific embodiments disclosed, and that modifications to the disclosed embodiments, as well as other embodiments, are intended to be included within the scope of the appended claims. The invention is defined by the following claims, with equivalents of the claims to be included therein. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS3636323 *May 1, 1970Jan 18, 1972Atomic Energy CommissionGeographic position locatorUS4152600 *Oct 21, 1976May 1, 1979Troxler Electronic Laboratories, Inc.Nuclear radiation moisture gauge calibration standardUS4188535 *Nov 3, 1977Feb 12, 1980Hughart Robert PMethod and apparatus for monitoring density fluctuations in material flowing spirally within a hydrocycloneUS4525854 *Mar 22, 1983Jun 25, 1985Troxler Electronic Laboratories, Inc.Radiation scatter apparatus and methodUS4587623 *Apr 26, 1983May 6, 1986Troxler Electronic Laboratories, Inc.Method for recalibrating nuclear density gaugesUS4641030 *Dec 13, 1984Feb 3, 1987Troxler Electronic Laboratories, Inc.Apparatus and method for directly measuring the density of a thin layerUS4701868 *Dec 13, 1984Oct 20, 1987Troxler Electronic Laboratories, Inc.Apparatus and method for accurately measuring the density of materials with rough surfaces by radiation backscatterUS4766319 *Feb 12, 1987Aug 23, 1988Troxler Electronic Laboratories, Inc.Portable nuclear moisture-density gauge with low activity nuclear sourcesUS4876454 *Mar 3, 1987Oct 24, 1989National Radiological Protection BoardRadiation detectorUS4979197 *Feb 17, 1989Dec 18, 1990Troxler Electronic Laboratories, Inc.Nuclear radiation apparatus and method for dynamically measuring density of test materials during compactionUS5347274 *Sep 16, 1992Sep 13, 1994At/Comm IncorporatedHazardous waste transport management systemUS5825283 *Jul 3, 1996Oct 20, 1998Camhi; ElieSystem for the security and auditing of persons and propertyUS5923726 *Jun 12, 1997Jul 13, 1999Instrotek, Inc.Validation and calibration apparatus and method for nuclear density gaugesUS5957773 *Apr 2, 1997Sep 28, 1999Dekalb Genetics CorporationMethod and apparatus for measuring grain characteristicsUS5969595 *Jul 22, 1996Oct 19, 1999Trimble Navigation LimitedSecurity for transport vehicles and cargoUS6003809 *Feb 25, 1997Dec 21, 1999Honigsbaum; Richard F.Process and apparatus for discouraging countermeasures against a weapon transport deviceUS6050725 *Apr 16, 1999Apr 18, 2000Instrotek, Inc.Validation and calibration apparatus and method for nuclear density gaugeUS6073488 *Dec 10, 1998Jun 13, 2000Abb Research Ltd.Capacitive liquid level sensor with integrated pollutant film detectionUS6122601 *Feb 20, 1998Sep 19, 2000The Penn State Research FoundationCompacted material density measurement and compaction tracking systemUS6206108 *Oct 22, 1997Mar 27, 2001Baker Hughes IncorporatedDrilling system with integrated bottom hole assemblyUS6480147 *May 18, 2001Nov 12, 2002Jennifer DurstPortable position determining deviceUS20040073382 *Oct 11, 2002Apr 15, 2004Troxler Electronic Laboratories, Inc.Measurement device incorporating a locating device and a portable handheld computer device and associated apparatus, system and methodUS20040124977 *Mar 6, 2001Jul 1, 2004Peter BiffarRule based proximity and time based tracking system* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS7158028 *Feb 16, 2005Jan 2, 2007Bahador GhahramaniIntelligent multi purpose early warning system for shipping containers, components therefor and methods of making the sameUS7273172 *Jul 14, 2004Sep 25, 2007United Parcel Service Of America, Inc.Methods and systems for automating inventory and dispatch procedures at a staging areaUS7394363 *Dec 18, 2006Jul 1, 2008Bahador GhahramaniIntelligent multi purpose early warning system for shipping containers, components therefor and methods of making the sameUS7486174Mar 17, 2006Feb 3, 2009Skybitz, Inc.System and method for adaptive motion sensing with location determinationUS7498925Mar 17, 2006Mar 3, 2009Skybitz, Inc.System and method for reporting a status of an assetUS7508311 *Sep 13, 2006Mar 24, 2009Atomic Energy Council - Institute Of Nuclear Energy ResearchRadwaste warehouse area monitoring systemUS7574172 *Sep 25, 2001Aug 11, 2009Lincoln GlobalSystem and method to facilitate wireless wide area communication in a welding environmentUS7786876Aug 31, 2010Robert Ernest TroxlerLarge area position/proximity correction device with alarms using (D)GPS technologyUS7804394Sep 28, 2010Skybitz, Inc.System and method for reporting a status of an assetUS7848905Dec 7, 2010Troxler Electronic Laboratories, Inc.Methods, systems, and computer program products for locating and tracking objectsUS7898403May 7, 2007Mar 1, 2011Trimble Navigation LimitedDetecting construction equipment process failureUS7911329Mar 22, 2011Skybitz, Inc.System and method for adaptive motion sensing with location determinationUS7920066Jul 24, 2008Apr 5, 2011Robert Ernest TroxlerLarge area position/proximity correction device with alarms using (D)GPS technologyUS8004397Aug 23, 2011Trimble Navigation LimitedReceiving information pertaining to a construction projectUS8044792 *Oct 21, 2008Oct 25, 2011Hewlett-Packard Development Company, L.P.System and method for controlling remote sensorsUS8058987 *Apr 27, 2007Nov 15, 2011Skybitz, Inc.Satellite aided location tracking with user interfaceUS8112242Feb 7, 2012Troxler Electronic Laboratories, Inc.Paving-related measuring device incorporating a computer device and communication element therebetween and associated methodUS8126680Nov 12, 2010Feb 28, 2012Troxler Electronic Laboratories, Inc.Methods, systems, and computer program products for locating and tracking objectsUS8255358Aug 28, 2012Trimble Navigation LimitedSystem and method for providing asset management information to a customerUS8350692 *Sep 18, 2011Jan 8, 2013Hewlett-Packard Development Company, L.P.System and method for controlling remote sensorsUS8362900Jan 29, 2013Skybitz, Inc.Satellite aided location tracking with user interfaceUS8410423Jan 5, 2009Apr 2, 2013Troxler Electronic Laboratories, Inc.Nuclear gauges and related methods of assemblyUS8428913 *Apr 23, 2013Troxler Electronic Laboratories, Inc.Methods, systems, and computer program products for locating and tracking objectsUS8588728 *Jun 16, 2011Nov 19, 2013Sprint Spectrum L.P.Method and apparatus for enhanced adaptive idle mode and battery efficiency monitoringUS8600932May 16, 2011Dec 3, 2013Trimble Navigation LimitedTelematic asset microfluidic analysisUS8624723Feb 16, 2012Jan 7, 2014Robert Ernest TroxlerPosition and proximity detection systems and methodsUS8645176May 7, 2007Feb 4, 2014Trimble Navigation LimitedUtilizing historical data in an asset management environmentUS8666936May 7, 2007Mar 4, 2014Trimble Navigation LimitedSystem and method for asset managementUS8682605Feb 6, 2012Mar 25, 2014Troxler Electronic Laboratories, Inc.Paving related measuring device incorporating a computer device and communication element therebetween and associated methodUS8704658Jan 25, 2013Apr 22, 2014Skybitz, Inc.Satellite aided location tracking with user interfaceUS8716650 *Jan 5, 2009May 6, 2014Troxler Electronic Laboratories, Inc.Nuclear gauges and related methods of assemblyUS8952807 *Mar 26, 2012Feb 10, 2015Satellite Tracking Of People LlcActive wireless tag and auxiliary device for use with monitoring center for tracking individuals or objectsUS8954292Mar 11, 2013Feb 10, 2015Troxler Electronic Laboratories, Inc.Methods, systems, and computer program products for locating and tracking objectsUS8965841May 7, 2007Feb 24, 2015Trimble Navigation LimitedMethod for automatic asset classificationUS9007205Jun 1, 2011Apr 14, 2015Thermo King CorporationEmbedded security system for environment-controlled transportation containers and method for detecting a security risk for environment-controlled transportation containersUS9041561 *May 7, 2007May 26, 2015Trimble Navigation LimitedMethod for controlling power usage of a reporting deviceUS9063062Mar 7, 2012Jun 23, 2015Troxler Electronic Laboratories, Inc.Nuclear gauges and methods of configuration and calibration of nuclear gaugesUS9064421Sep 20, 2010Jun 23, 2015Skybitz, Inc.System and method for reporting a status of an assetUS9111234May 7, 2007Aug 18, 2015Trimble Navigation LimitedEnabling notifications pertaining to an assetUS9128179Mar 21, 2011Sep 8, 2015Skybitz, Inc.System and method for adaptive motion sensing with location determinationUS9218814 *Sep 25, 2010Dec 22, 2015Dianyuan XiongCross monitoring method and system based on voiceprint recognition and location trackingUS9298803Feb 3, 2014Mar 29, 2016Trimble Navigation LimitedSystem and method for asset managementUS20050197115 *Sep 25, 2001Sep 8, 2005Keith ClarkSystem and method to facilitate wireless wide area communication in a welding environmentUS20050216294 *Dec 22, 2004Sep 29, 2005Labow Paul D ECargo tracking system and methodUS20050261917 *Mar 12, 2004Nov 24, 2005Forget Shield Danielle RElectronic waste management systemUS20060009238 *Jun 3, 2004Jan 12, 2006Bart StancoPersonal communication devicesUS20060011721 *Jul 14, 2004Jan 19, 2006United Parcel Service Of America, Inc.Methods and systems for automating inventory and dispatch procedures at a staging areaUS20060220919 *Apr 1, 2005Oct 5, 2006Pitts Robert W JrSystem for Monitoring and Tracking One or More Radioactive SourcesUS20070057779 *Mar 17, 2006Mar 15, 2007Rich BattistaSystem and method for adaptive motion sensing with location determinationUS20070057818 *Mar 17, 2006Mar 15, 2007Rich BattistaSystem and method for reporting a status of an assetUS20080071416 *Sep 13, 2006Mar 20, 2008Atomic Energy Council-Institute Of Nuclear Energy ResearchComputerized inventory control systemUS20080084324 *May 7, 2007Apr 10, 2008Daniel John WallaceMethod for controlling power usage of a reporting deviceUS20080084332 *May 7, 2007Apr 10, 2008Michael RitterDetecting construction equipment process failureUS20080084333 *May 7, 2007Apr 10, 2008Mark ForrestReceiving information pertaining to a construction projectUS20080084334 *May 7, 2007Apr 10, 2008Paul BallewMethod for providing status information pertaining to an assetUS20080086320 *May 7, 2007Apr 10, 2008Paul BallewIntegrated asset managementUS20080086321 *May 7, 2007Apr 10, 2008Paul WaltonUtilizing historical data in an asset management environmentUS20080086322 *May 7, 2007Apr 10, 2008Daniel John WallaceMethod for automatic asset classificationUS20080086323 *May 7, 2007Apr 10, 2008Rob PetrieLimiting access to asset management informationUS20080086349 *Sep 17, 2007Apr 10, 2008Rob PetrieUnreported event status change determination and alertingUS20080086391 *May 7, 2007Apr 10, 2008Kurt MaynardImpromptu asset trackingUS20080086427 *May 7, 2007Apr 10, 2008Daniel John WallaceExternally augmented asset managementUS20080086428 *May 7, 2007Apr 10, 2008Daniel John WallaceMethod for enhancing revenue generation for a manufactured assetUS20080086497 *May 7, 2007Apr 10, 2008Daniel John WallaceEnabling notifications pertaining to an assetUS20080086508 *May 7, 2007Apr 10, 2008Paul BallewSystem and method for providing asset management information to a customerUS20080086509 *May 7, 2007Apr 10, 2008Daniel John WallaceSystem and method for asset managementUS20080086685 *May 7, 2007Apr 10, 2008James JankyMethod for delivering tailored asset information to a deviceUS20080262780 *May 19, 2008Oct 23, 2008Troxler Electronic Laboratories, Inc.Paving-Related Measuring Device Incorporating a Computer Device and Communication Element Therebetween and Associated MethodUS20090033506 *Sep 13, 2006Feb 5, 2009Atomic Energy Council-Institute Of Nuclear Energy ResearchRadwaste warehouse area monitoring systemUS20090135027 *Jan 28, 2009May 28, 2009Rich BattistaSystem and method for reporting a status of an assetUS20090250599 *Jan 5, 2009Oct 8, 2009Troxler Electronic Laboratories, Inc.Nuclear gauges and related methods of assemblyUS20090274275 *Jan 5, 2009Nov 5, 2009Troxler Electronic Laboratories, Inc.Nuclear gauges and related methods of assemblyUS20100045453 *Oct 21, 2008Feb 25, 2010David OrrSystem And Method For Controlling Remote SensorsUS20110010044 *Sep 20, 2010Jan 13, 2011Rich BattistaSystem and Method for Reporting a Status of an AssetUS20110224943 *Sep 15, 2011Rich BattistaSystem and Method for Adaptive Motion Sensing with Location DeterminationUS20120010855 *Jan 12, 2012David OrrSystem and method for controlling remote sensorsUS20120158354 *Feb 23, 2012Jun 21, 2012Troxler Electronic Laboratories, Inc.Methods, systems, and computer program products for locating and tracking objectsUS20120244879 *Sep 27, 2012Satellite Tracking Of People, LlcActive wireless tag and auxiliary device for use with monitoring center for tracking individuals or objectsUS20120249328 *Sep 25, 2010Oct 4, 2012Dianyuan XiongCross Monitoring Method and System Based on Voiceprint Recognition and Location TrackingUS20140305232 *Oct 8, 2013Oct 16, 2014Troxler Electronic Laboratories, Inc.Measurement device incorporating a computer deviceCN101845829A *May 6, 2010Sep 29, 2010中国核工业华兴建设有限公司Automatic monitoring and warning system for nuclear power plant concrete structure sedimentEP2160724A1 *Jun 9, 2008Mar 10, 2010Troxler Electronics LabsMethods,systems, and computer program products for locating and tracking objectsEP2160724A4 *Jun 9, 2008Nov 27, 2013Troxler Electronics LabsMethods,systems, and computer program products for locating and tracking objectsWO2006019418A2 *Mar 17, 2005Feb 23, 2006United Parcel Service Of America, Inc.Methods and systems for automating inventory and dispatch procedures at a staging areaWO2006019418A3 *Mar 17, 2005Aug 31, 2006United Parcel Service IncMethods and systems for automating inventory and dispatch procedures at a staging areaWO2008153998A1 *Jun 9, 2008Dec 18, 2008Troxler Electronics LabsMethods,systems, and computer program products for locating and tracking objects* Cited by examinerClassifications U.S. Classification340/539.13International ClassificationG08B1/08, G08B21/12, G01S5/02, G01S19/14Cooperative ClassificationG08B21/12, G01S5/02European ClassificationG01S5/02, G08B21/12Legal EventsDateCodeEventDescriptionMay 15, 2003ASAssignmentOwner name: INSTROTEK, INC., NORTH CAROLINAFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:HE, TIANQING;MUSE, PETER D.;REGIMAND, ALI;AND OTHERS;REEL/FRAME:014075/0438Effective date: 20030423Aug 1, 2006CCCertificate of correctionSep 12, 2006CCCertificate of correctionAug 7, 2009FPAYFee paymentYear of fee payment: 4Aug 7, 2013FPAYFee paymentYear of fee payment: 8RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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Silver City Garden Villa, No. 28 Donghai Middle Rd, Shinan District, Qingdao, China Ocean Life Apartments 青岛听海阁生活馆公寓 is a great place to stay in Qingdao. This property is located in Qingdao City Center district of Qingdao not far from Polar Ocean World. Qingdao city center is 4 km away.
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A plasma processing apparatus is most desirable for use as the oxide film-removing mechanism of the present invention. Needless to say, however, any type of mechanism may be employed as long as it can remove an oxide film from the surfaces of the electrodes of the semiconductor elements. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS5049816 *May 31, 1990Sep 17, 1991Texas Instruments IncorporatedSemiconductor substrate minority carrier lifetime measurementsUS5517126 *Jul 19, 1993May 14, 1996Tokyo Electron LimitedProbe apparatusUS5570032 *Aug 17, 1993Oct 29, 1996Micron Technology, Inc.Wafer scale burn-in apparatus and processUS5912555 *Apr 5, 1996Jun 15, 1999Tokyo Electron LimitedProbe apparatusUS5945834 *Feb 29, 1996Aug 31, 1999Matsushita Electric Industrial Co., Ltd.Semiconductor wafer package, method and apparatus for connecting testing IC terminals of semiconductor wafer and probe terminals, testing method of a semiconductor integrated circuit, probe card and its manufacturing methodJP6435926A * Title not available* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS6317647 *May 19, 1999Nov 13, 2001Tokyo Electron LimitedAlignerUS6441606 *Oct 17, 2000Aug 27, 2002Micron Technology, Inc.Dual zone wafer test apparatusUS6593748 *Jul 12, 2001Jul 15, 2003Advanced Micro Devices, Inc.Process integration of electrical thickness measurement of gate oxide and tunnel oxides by corona discharge techniqueUS6603325 *Aug 22, 2002Aug 5, 2003Fujitsu LimitedContactor for semiconductor devices, a testing apparatus using such contactor, a testing method using such contactor, and a method of cleaning such contactorUS6638778 *Feb 25, 2002Oct 28, 2003Advanced Micro Devices, Inc.Method for determining, tracking and/or controlling processing based upon silicon characteristicsUS6638779 *Mar 14, 2002Oct 28, 2003Hitachi, Ltd.Fabrication method of semiconductor integrated circuit device and testing methodUS6741446 *Mar 30, 2001May 25, 2004Lam Research CorporationVacuum plasma processor and method of operating sameUS6747467 *Nov 2, 2001Jun 8, 2004Tokyo Electron LimitedAssembly apparatus and method of contactorUS6771060Oct 22, 2001Aug 3, 2004Electroglas, Inc.Testing circuits on substratesUS6781394 *Oct 22, 2001Aug 24, 2004Electroglas, Inc.Testing circuits on substrateUS6781395May 23, 2003Aug 24, 2004Fujitsu LimitedContactor for semiconductor devices, a testing apparatus using such contactor, a testing method using such contactor, and a method of cleaning such contactorUS6782331 *Oct 24, 2001Aug 24, 2004Infineon Technologies AgGraphical user interface for testing integrated circuitsUS6812725 *Feb 27, 2002Nov 2, 2004Hitachi, Ltd.Semiconductor processing apparatus and wafer sensor moduleUS6861859Oct 22, 2001Mar 1, 2005Electroglas, Inc.Testing circuits on substratesUS6974710Sep 26, 2003Dec 13, 2005Renesas Technology Corp.Fabrication method of semiconductor integrated circuit device and testing methodUS7002337Jul 27, 2004Feb 21, 2006Electroglas, Inc.Testing circuits on substratesUS7091733Mar 31, 2004Aug 15, 2006Tokyo Electron LimitedReliability evaluation test apparatus, reliability evaluation test system, contactor, and reliability evaluation test methodUS7098649Jun 17, 2004Aug 29, 2006Electroglas, Inc.Testing circuits on substratesUS7138813Jul 25, 2003Nov 21, 2006Cascade Microtech, Inc.Probe station thermal chuck with shielding for capacitive currentUS7180284Oct 4, 2005Feb 20, 2007Electroglas, Inc.Testing circuits on substratesUS7206184Apr 27, 2004Apr 17, 2007Lam Research CorporationVacuum plasma processor and method of operating sameUS7221176 *Mar 14, 2005May 22, 2007Tokyo Electron LimitedVacuum prober and vacuum probe methodUS7221178 *Mar 17, 2006May 22, 2007Fuji Machine Mfg. Co., Ltd.Working system for circuit boardsUS7242206Jul 13, 2005Jul 10, 2007Tokyo Electron LimitedReliability evaluation test apparatus, reliability evaluation test system, contactor, and reliability evaluation test methodUS7259548Jan 7, 2005Aug 21, 2007Electroglas, Inc.Testing circuits on substrateUS7304490 *Nov 5, 2004Dec 4, 2007Solid State Measurements, Inc.In-situ wafer and probe desorption using closed loop heatingUS7337088Apr 25, 2002Feb 26, 2008Micron Technology, Inc.Intelligent measurement modular semiconductor parametric test systemUS7355420Aug 19, 2002Apr 8, 2008Cascade Microtech, Inc.Membrane probing systemUS7383147Jan 30, 2006Jun 3, 2008Micron Technology, Inc.Dynamically adaptable semiconductor parametric testingUS7405584 *May 3, 2007Jul 29, 2008Tokyo Seimitsu Co., Ltd.Prober and probe contact methodUS7420381Sep 8, 2005Sep 2, 2008Cascade Microtech, Inc.Double sided probing structuresUS7445945 *Aug 1, 2005Nov 4, 2008Advanced Micro Devices, Inc.Method and apparatus for dynamic adjustment of a sampling plan based on wafer electrical test dataUS7453260Jul 24, 2006Nov 18, 2008Electroglas, Inc.Testing circuits on substrateUS7457680Oct 18, 2006Nov 25, 2008Tokyo Electron LimitedConveyance method for transporting objectsUS7492172Apr 21, 2004Feb 17, 2009Cascade Microtech, Inc.Chuck for holding a device under testUS7492175Jan 10, 2008Feb 17, 2009Cascade Microtech, Inc.Membrane probing systemUS7492176 *Jul 11, 2007Feb 17, 2009Tokyo Seimitsu Co., Ltd.Prober and probe contact methodUS7498865 *Feb 19, 2004Mar 3, 2009Panasonic CorporationSemiconductor integrated circuit with reduced speed variationsUS7579854 *Nov 21, 2007Aug 25, 2009Suss Microtec Test Systems GmbhProbe station and method for measurements of semiconductor devices under defined atmosphereUS7656172Jan 18, 2006Feb 2, 2010Cascade Microtech, Inc.System for testing semiconductorsUS7681312Jul 31, 2007Mar 23, 2010Cascade Microtech, Inc.Membrane probing systemUS7688062Oct 18, 2007Mar 30, 2010Cascade Microtech, Inc.Probe stationUS7688091Mar 10, 2008Mar 30, 2010Cascade Microtech, Inc.Chuck with integrated wafer supportUS7688097Apr 26, 2007Mar 30, 2010Cascade Microtech, Inc.Wafer probeUS7723999Feb 22, 2007May 25, 2010Cascade Microtech, Inc.Calibration structures for differential signal probingUS7733106 *Sep 15, 2006Jun 8, 2010Formfactor, Inc.Apparatus and method of testing singulated diesUS7750652Jun 11, 2008Jul 6, 2010Cascade Microtech, Inc.Test structure and probe for differential signalsUS7759953Aug 14, 2008Jul 20, 2010Cascade Microtech, Inc.Active wafer probeUS7761983Oct 18, 2007Jul 27, 2010Cascade Microtech, Inc.Method of assembling a wafer probeUS7761986Nov 10, 2003Jul 27, 2010Cascade Microtech, Inc.Membrane probing method using improved contactUS7764072Feb 22, 2007Jul 27, 2010Cascade Microtech, Inc.Differential signal probing systemUS7876114Aug 7, 2008Jan 25, 2011Cascade Microtech, Inc.Differential waveguide probeUS7876115Feb 17, 2009Jan 25, 2011Cascade Microtech, Inc.Chuck for holding a device under testUS7888957Oct 6, 2008Feb 15, 2011Cascade Microtech, Inc.Probing apparatus with impedance optimized interfaceUS7893704Mar 20, 2009Feb 22, 2011Cascade Microtech, Inc.Membrane probing structure with laterally scrubbing contactsUS7898273Feb 17, 2009Mar 1, 2011Cascade Microtech, Inc.Probe for testing a device under testUS7898281Dec 12, 2008Mar 1, 2011Cascade Mircotech, Inc.Interface for testing semiconductorsUS7932733 *Feb 13, 2009Apr 26, 2011Hitachi High-Technologies CorporationApparatus for detecting defect by examining electric characteristics of a semiconductor deviceUS7940069Dec 15, 2009May 10, 2011Cascade Microtech, Inc.System for testing semiconductorsUS7969173Oct 23, 2007Jun 28, 2011Cascade Microtech, Inc.Chuck for holding a device under testUS8013623Jul 3, 2008Sep 6, 2011Cascade Microtech, Inc.Double sided probing structuresUS8069491Jun 20, 2007Nov 29, 2011Cascade Microtech, Inc.Probe testing structureUS8319503Nov 16, 2009Nov 27, 2012Cascade Microtech, Inc.Test apparatus for measuring a characteristic of a device under testUS8410806Nov 20, 2009Apr 2, 2013Cascade Microtech, Inc.Replaceable coupon for a probing apparatusUS8451017Jun 18, 2010May 28, 2013Cascade Microtech, Inc.Membrane probing method using improved contactUS8456186Jun 27, 2007Jun 4, 2013Tokyo Electron LimitedReliability evaluation test apparatus, reliability evaluation test system, contactor, and reliability evaluation test methodUS8513962 *Sep 13, 2010Aug 20, 2013Advantest CorporationWafer tray and test apparatusUS8513969Jun 8, 2010Aug 20, 2013Formfactor, Inc.Apparatus and method of testing singulated diesUS8638118Feb 13, 2013Jan 28, 2014Panasonic CorporationWafer inspection deviceUS8643539 *Sep 1, 2009Feb 4, 2014Nokomis, Inc.Advance manufacturing monitoring and diagnostic toolUS9244107 *Nov 8, 2013Jan 26, 2016Marvell World Trade Ltd.Heat sink blade pack for device under test testingUS9429638Apr 1, 2013Aug 30, 2016Cascade Microtech, Inc.Method of replacing an existing contact of a wafer probing assemblyUS9435858 *Mar 14, 2011Sep 6, 2016Cascade Microtech, Inc.Focusing optical systems and methods for testing semiconductorsUS9541600 *Dec 3, 2014Jan 10, 2017Multitest Elektronische Systeme GmbhMethod for positioning a carrier with a plurality of electronic components in a device for testing the electronic componentsUS20020152046 *Apr 13, 2001Oct 17, 2002Velichko Sergey A.Concurrent control of semiconductor parametric testingUS20030028343 *Apr 25, 2002Feb 6, 2003Micron Technology, Inc.Intelligent measurement modular semiconductor parametric test systemUS20030197501 *May 23, 2003Oct 23, 2003Fujitsu LimitedContactor for semiconductor devices, a testing apparatus using such contactor, a testing method using such contactor, and a method of cleaning such contactorUS20040046545 *Dec 27, 2001Mar 11, 2004Shuji AkiyamaConveyance system, conveyance method and vacuum holding apparatus for object to be processed, and centering method for waterUS20040092049 *Sep 26, 2003May 13, 2004Tomohiro TairaFabrication method of semiconductor integrated circuit device and testing methodUS20040119492 *Oct 31, 2003Jun 24, 2004Stefan SchneidewindMethod and apparatus for testing movement-sensitive substratesUS20040183561 *Mar 31, 2004Sep 23, 2004Kiyoshi TakekoshiReliability evaluation test apparatus, reliability evaluation test system, contactor, and reliability evaluation test methodUS20040232928 *Jun 17, 2004Nov 25, 2004Boyle Timothy J.Testing circuits on substratesUS20040252439 *Apr 27, 2004Dec 16, 2004Lam Research CorporationVacuum plasma processor and method of operating sameUS20050083037 *Aug 27, 2004Apr 21, 2005Stefan SchneidewindArrangement and method for testing substrates under loadUS20050116729 *Dec 11, 2003Jun 2, 2005Oliver KoesterMethod and device for testing or calibrating a pressure sensor on a waferUS20050116731 *Jan 7, 2005Jun 2, 2005Boyle Timothy J.Testing circuits on substrateUS20050162212 *Feb 19, 2003Jul 28, 2005Shiro SakiyamaSemiconductor integrated circuitUS20050206396 *Mar 14, 2005Sep 22, 2005Haruhiko YoshiokaVacuum prober and vacuum probe methodUS20050209725 *May 16, 2005Sep 22, 2005Shuji AkiyamaConveyance system, conveyance method and vacuum holding apparatus for object to be processed, and centering method for waferUS20050253575 *Jul 13, 2005Nov 17, 2005Kiyoshi TakekoshiReliability evaluation test apparatus, reliability evaluation test system, contactor, and reliability evaluation test methodUS20060064268 *Nov 3, 2005Mar 23, 2006Micron Technology, Inc.Dynamic creation and modification of wafer test maps during wafer testingUS20060097740 *Nov 5, 2004May 11, 2006Solid State Measurements, Inc.In-situ wafer and probe desorption using closed loop heatingUS20060119346 *Oct 4, 2005Jun 8, 2006Boyle Timothy JTesting circuits on substratesUS20060125509 *Jan 30, 2006Jun 15, 2006Micron Technology, Inc.Dynamically adaptable semiconductor parametric testingUS20060241888 *Mar 17, 2006Oct 26, 2006Fuji Machine Mfg. Co., Ltd.Working system for circuit boardsUS20060261833 *Jul 24, 2006Nov 23, 2006Boyle Timothy JTesting circuits on substrateUS20070063721 *Sep 15, 2006Mar 22, 2007Formfactor, Inc.Apparatus And Method Of Testing Singulated DiesUS20070150085 *Oct 18, 2006Jun 28, 2007Shuji AkiyamaConveyance method for transporting objectsUS20070152684 *Dec 29, 2006Jul 5, 2007Samsung Electronics Co., Ltd.Apparatus and method for analyzing photo-emissionUS20070268033 *May 3, 2007Nov 22, 2007Taichi FujitaProber and probe contact methodUS20080018352 *Jul 11, 2007Jan 24, 2008Kiyotaka ChibaProber and probe contact methodUS20080018355 *Jun 27, 2007Jan 24, 2008Kiyoshi TakekoshiReliability evaluation test apparatus, reliability evaluation test system, contactor, and reliability evaluation test methodUS20080143365 *Nov 21, 2007Jun 19, 2008Suss Micro Tec Test Systems GmbhProbe station and method for measurements of semiconductor devices under defined atmosphereUS20090224788 *Feb 13, 2009Sep 10, 2009Masahiro SasajimaApparatus for detecting defectUS20100123453 *Sep 1, 2009May 20, 2010Nokomis, Inc.Advance manufacturing monitoring and diagnostic toolUS20100244873 *Jun 8, 2010Sep 30, 2010Formfactor, Inc.Apparatus and method of testing singulated diesUS20110043237 *Sep 13, 2010Feb 24, 2011Advantest CorporationWafer tray and test apparatusUS20130010099 *Mar 14, 2011Jan 10, 2013Cascade Micotech, Inc.System for testing semiconductorsUS20140132296 *Nov 8, 2013May 15, 2014Marvell World Trade Ltd.Heat sink blade pack for device under test testingUS20150160292 *Dec 3, 2014Jun 11, 2015Multitest Elektronische Systeme GmbhMethod for positioning a carrier with a plurality of electronic components in a device for testing the electronic componentsCN100521134CNov 27, 2002Jul 29, 2009东京毅力科创株式会社;株式会社东芝;Ibiden股份有限公司Reliability evaluation test apparatus, system and methodCN101126768BNov 27, 2002May 12, 2010东京毅力科创株式会社;Ibiden股份有限公司Extruded articleCN103760401A *Jan 17, 2014Apr 30, 2014西安理工大学System and method for testing leakage current of zinc oxide arresterEP1357589A1 *Dec 27, 2001Oct 29, 2003Tokyo Electron LimitedWorkpiece transfer system, transfer method, vacuum chuck, and wafer centering methodEP1357589A4 *Dec 27, 2001Apr 20, 2005Tokyo Electron LtdWorkpiece transfer system, transfer method, vacuum chuck, and wafer centering methodEP1455388A1 *Nov 27, 2002Sep 8, 2004Ibiden Co., Ltd.Reliability evaluation tester, reliability evaluation test system, contactor, and reliability evaluation test methodEP1455388A4 *Nov 27, 2002Oct 19, 2005Tokyo Electron LtdReliability evaluation tester, reliability evaluation test system, contactor, and reliability evaluation test methodEP1696479A1 *Nov 27, 2002Aug 30, 2006Tokyo Electron LimitedContactor for reliability evaluation testerWO2003046976A1 *Nov 27, 2002Jun 5, 2003Tokyo Electron LimitedReliability evaluation tester, reliability evaluation test system, contactor, and reliability evaluation test method* Cited by examinerClassifications U.S. Classification324/754.03, 324/756.01, 324/762.05International ClassificationG01R1/073, H01L21/66, G01R31/28Cooperative ClassificationG01R1/07385, G01R31/2851European ClassificationG01R31/28GLegal EventsDateCodeEventDescriptionNov 25, 1998ASAssignmentOwner name: TOKYO ELECTRON LIMITED, JAPANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:SATO, TAKASHI;REEL/FRAME:009630/0169Effective date: 19981118Feb 18, 2004FPAYFee paymentYear of fee payment: 4Feb 28, 2008FPAYFee paymentYear of fee payment: 8May 7, 2012REMIMaintenance fee reminder mailedSep 26, 2012LAPSLapse for failure to pay maintenance feesNov 13, 2012FPExpired due to failure to pay maintenance feeEffective date: 20120926RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
D:\work1\data\c4\downloaded\c4-en.tfrecord-00604-of-11264.json.gz.tmp
39,240
Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS3589337 *Oct 6, 1969Jun 29, 1971Thomas H DossRadio controlled animal training deviceUS4202293 *Jan 31, 1978May 13, 1980Tri-Tronics, Inc.Dog training collars and methodsUS4335682 *Mar 18, 1981Jun 22, 1982Tri-Tronics, Inc.Animal training apparatusUS4440160 *Jan 19, 1982Apr 3, 1984The Johns Hopkins UniversitySelf-injurious behavior inhibiting systemUS4524773 *Aug 24, 1983Jun 25, 1985The John Hopkins UniversityApparatus for inhibiting self-injurious behavior (SIB) in patientsUS4539937 *Aug 6, 1984Sep 10, 1985Edd WorkmanControlled shock animal training device* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS5241923 *Jul 23, 1992Sep 7, 1993Pole/Zero CorporationTransponder control of animal whereaboutsUS5304211 *Nov 25, 1991Apr 19, 1994Behavior Research InstituteApparatus for administering electrical aversive stimulus and associated methodUS5351653 *Oct 6, 1993Oct 4, 1994Canine Concepts, IncorporatedAnimal training method using positive and negative audio stimuliUS5353744 *Jun 16, 1993Oct 11, 1994Dogwatch, Inc.Animal control apparatusUS5465687 *Jun 28, 1994Nov 14, 1995Dogwatch, Inc.Animal control apparatusUS5559498 *Dec 30, 1994Sep 24, 1996Innotek Inc.Combination confinement and remote training systemUS5603094 *Jul 28, 1994Feb 11, 1997Greear, Jr.; Willie J.Animal tracking system with transmitter attachable to an animal's collarUS5608381 *Sep 23, 1994Mar 4, 1997Industrial Automation Technologies, Inc.Animal containment systemUS5666908 *Jul 5, 1995Sep 16, 1997So; Ho YunAnimal training deviceUS5815077 *Nov 20, 1996Sep 29, 1998B.E.R.T.S. Inc.Electronic collar for locating and training animalsUS5850807 *Jul 16, 1997Dec 22, 1998Keeler; Russell R.Illuminated pet leashUS5857433 *Jul 14, 1997Jan 12, 1999John C. FilesAnimal training and tracking device having global positioning satellite unitUS5911199 *Jan 26, 1998Jun 15, 1999Eltrex 4, Inc.Pressure sensitive animal training deviceUS5913284 *Feb 27, 1996Jun 22, 1999Innotek, Inc.Stimulation device and techniqueUS6003474 *Oct 14, 1998Dec 21, 1999Tri-Tronics, Inc.Leash-tension-controlled stimulus-producing dog collar and methodUS6019066 *Mar 16, 1998Feb 1, 2000Taylor; Todd T.Animal confinement/training systemUS6052097 *Mar 4, 1998Apr 18, 2000Tri-Tronics, Inc.Antenna circuit and method for collar-mounted remote animal training systemUS6061037 *Mar 4, 1998May 9, 2000Tri-Tronics, Inc.Flex antenna structure and method for collar-mounted remote animal training systemUS6064308 *Oct 23, 1997May 16, 2000Pole/Zero CorporationRF signaling system and system for controlling the whereabouts of animals using sameUS6073589 *Mar 16, 1998Jun 13, 2000Innotek, Inc.Stimulation device and techniqueUS6079367 *Oct 10, 1997Jun 27, 2000Dogwatch, Inc.Animal training apparatus and methodUS6166643 *Sep 30, 1999Dec 26, 2000Janning; Joseph J.Method and apparatus for controlling the whereabouts of an animalUS6170439Jun 24, 1999Jan 9, 2001Tri-Tronics, Inc.Remote controlled animal training systemUS6446049Sep 29, 1998Sep 3, 2002Pole/Zero CorporationMethod and apparatus for transmitting a digital information signal and vending system incorporating sameUS6549133 *Jan 18, 2001Apr 15, 2003Tri-Tronics, Inc.Remote transmitter and methodUS6637376Sep 26, 2001Oct 28, 2003Radio Systems CorporationIntensity variation method and apparatusUS6651592Feb 20, 2002Nov 25, 2003Innotek, Inc.Automatic positive behavior reinforcement trainerUS7017524 *Dec 31, 2003Mar 28, 2006Radio Systems CorporationIntensity variation device for training animalsUS7042360Aug 4, 2004May 9, 2006Light Elliott DElectronic tether for portable objectsUS7064669Apr 27, 2004Jun 20, 2006Light Elliott DElectronic tether for portable objectsUS7111586Apr 2, 2004Sep 26, 2006Radio Systems CorporationIntensity variation device for training animalsUS7280642May 6, 2005Oct 9, 2007Intellectual Ventures Fund 30, LlcStatus monitoring system utilizing an RFID monitoring systemUS7282028Jan 10, 2003Oct 16, 2007Samsung Electronics Co., Ltd.Method and apparatus for measuring animal's condition by acquiring and analyzing its biological signalsUS7375638Feb 23, 2006May 20, 2008Robelight, LlcElectronic tether for portable objectsUS7460859Feb 1, 2006Dec 2, 2008Light Elliott DSystem and method for obtaining a status of an authorization device over a network for administration of theatrical performancesUS7559291Mar 24, 2006Jul 14, 2009Innotek, Inc.Method and apparatus for adjusting the correction level of an animal training receiverUS7712438Dec 21, 2006May 11, 2010Radio Systems CorporationMethod and apparatus for adjusting the correction level of an animal training receiverUS7819087Aug 7, 2007Oct 26, 2010Tri-Tronics, Inc.Remote controlled animal training system with wireless communication systemUS7937042Apr 22, 2005May 3, 2011Dot Holdings, LlcAnimal training and tracking system using RF identification tagsUS7986770Feb 15, 2008Jul 26, 2011Intellectual Ventures Fund 30 LlcMethod and apparatus for obtaining telephone status over a networkUS8006649Sep 14, 2007Aug 30, 2011Dogwatch Inc.Animal control system having correction monitorUS8011327Mar 22, 2006Sep 6, 2011Radio Systems CorporationVariable voltage electronic pet training apparatusUS8402924Sep 3, 2008Mar 26, 2013Merren, LlcAnimal training systems and methods for training animals not to pull excessively on leadsUS8464359Nov 16, 2005Jun 11, 2013Intellectual Ventures Fund 30, LlcSystem and method for obtaining a status of an authorization device over a networkUS8477037Feb 18, 2010Jul 2, 2013Ho Yun SoAnimal training apparatus having multiple receivers and method of controlling the sameUS8736499 *Jan 18, 2011May 27, 2014Radio Systems CorporationAntenna enclosed within an animal training apparatusUS8757098Aug 12, 2011Jun 24, 2014E-Collar Technologies, Inc.Remote animal training system using voltage-to-frequency conversionUS8783212 *Jan 31, 2013Jul 22, 2014Bart BellonAnimal collar with integrated electronicsUS8833309Sep 23, 2011Sep 16, 2014E-Collar Technologies, Inc.Remote animal training system using voltage-to-frequency conversionUS8881686Dec 22, 2010Nov 11, 2014E-Collar Technologies, Inc.Remote animal training system using voltage-to-frequency conversionUS8887670Dec 14, 2012Nov 18, 2014E-Collar Technologies, Inc.Remote animal training system using voltage-to-frequency conversionUS8978592Jul 25, 2011Mar 17, 2015Garmin Switzerland GmbhSystem and method for tracking, monitoring, and locating animalsUS9043993 *Aug 17, 2006Jun 2, 2015Radio Systems CorporationAnimal behavior acquisition system and methodUS20030166996 *Jan 10, 2003Sep 4, 2003Samsung Electronics Co., Ltd.Method and apparatus for measuring animal's condition by acquiring and analyzing its biological signalsUS20050005874 *Aug 4, 2004Jan 13, 2005Light Elliott D.Electronic tether for portable objectsUS20050139168 *Apr 27, 2004Jun 30, 2005Light Elliott D.Electronic tether for portable objectsUS20050145201 *Dec 31, 2003Jul 7, 2005Radio Systems CorporationIntensity variation device for training animalsUS20050201543 *May 6, 2005Sep 15, 2005Light Elliott D.Status monitoring system utilizing an RFID monitoring systemUS20050217606 *Apr 2, 2004Oct 6, 2005Radio Systems CorporationIntensity variation device for training animalsUS20050277855 *Jun 8, 2005Dec 15, 2005Orion Electric Co., Ltd.Device for suppressing roaring of petUS20060000194 *Jul 1, 2004Jan 5, 2006Duncan Timothy TElectronic animal training device support systemUS20060078101 *Nov 16, 2005Apr 13, 2006Light Elliott DSystem and method for obtaining a status of an authorization device over a networkUS20060140374 *Feb 1, 2006Jun 29, 2006Light Elliott DSystem and method for obtaining a status of an authorization device over a network for administration of theatrical performancesUS20060197658 *Feb 23, 2006Sep 7, 2006Light Elliott DElectronic tether for portable objectsUS20070056526 *Mar 17, 2006Mar 15, 2007Cabela's, Inc.Locator for Dog Collar TransmitterUS20070109135 *Nov 1, 2006May 17, 2007Dogwatch Inc.Transmitter loop monitorUS20070221138 *Mar 22, 2006Sep 27, 2007Radio Systems CorporationVariable voltage electronic pet training apparatusUS20070221139 *Mar 24, 2006Sep 27, 2007Reinhart Anthony JMethod and apparatus for adjusting the correction level of an animal training receiverUS20070221141 *Dec 21, 2006Sep 27, 2007Reinhart Anthony JMethod and apparatus for adjusting the correction level of an animal training receiverUS20080035073 *Aug 7, 2007Feb 14, 2008Napolez Francisco JRemote controlled animal training system with wireless communication systemUS20080137822 *Feb 15, 2008Jun 12, 2008Intellectual Ventures Funds 30 LlcMethod and apparatus for obtaining telephone status over a networkUS20090071413 *Sep 14, 2007Mar 19, 2009Dogwatch Inc.Animal control system having correction monitorUS20100050955 *Mar 4, 2010Pacheco Alfred DAnimal training systems and methods for training animals not to pull excessively on leadsUS20110199217 *Aug 18, 2011Ho Yun SoAnimal training apparatus having multiple receivers and method of controlling the sameUS20110221597 *Sep 15, 2011Jameson James LAnimal Training Device Having a Programmable Stimulus Delivery SwitchUS20130027207 *Jan 31, 2013Goetzl Brent AAntenna Enclosed Within an Animal Training ApparatusUS20130233252 *Jan 31, 2013Sep 12, 2013Bart BellonAnimal Collar with Integrated ElectronicsUSD665952 *Jan 16, 2012Aug 21, 2012Guo xu weiReceiverUSD673334 *Jan 16, 2012Dec 25, 2012Guo xu weiReceiverCN103749329A *Jan 17, 2014Apr 30, 2014深圳市安雅科技有限公司Dog training device* Cited by examinerClassifications U.S. Classification119/720, 340/573.3, 119/859International ClassificationA01K27/00, A01K15/02Cooperative ClassificationA01K15/022, A01K27/009European ClassificationA01K27/00H, A01K15/02A1Legal EventsDateCodeEventDescriptionNov 17, 1989ASAssignmentOwner name: TRI-TRONICS, INC.,, ARIZONAFree format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:FARKAS, GREGORY J.;REEL/FRAME:005177/0951Effective date: 19891116Apr 4, 1995FPAYFee paymentYear of fee payment: 4Apr 7, 1999FPAYFee paymentYear of fee payment: 8Apr 7, 2003FPAYFee paymentYear of fee payment: 12Jun 30, 2014ASAssignmentFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:TRI-TRONICS, INC.;REEL/FRAME:033211/0193Effective date: 20111231Owner name: GARMIN SWITZERLAND GMBH, SWITZERLANDRotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
D:\work1\data\c4\downloaded\c4-en.tfrecord-00604-of-11264.json.gz.tmp
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List of participating wine businesses Pavilion Exhibitor Brochure / 澳大利亚葡萄酒国家展团展商手册 For more information about Wine Australia's involvement at ProWine China 2018, please email Kevin Pan on [email protected]
D:\work1\data\c4\downloaded\c4-en.tfrecord-00604-of-11264.json.gz.tmp
43,336
US20060017073 * Jul 7, 2005 Jan 26, 2006 Sanyo Electric Co., Ltd. Semiconductor device and method of fabricating the same CN100435359C Oct 10, 2004 Nov 19, 2008 晶元光电股份有限公司 Semiconductor light-emitting component and its manufacturing method U.S. Classification 372/45.01, 257/76, 257/96
D:\work1\data\c4\downloaded\c4-en.tfrecord-00604-of-11264.json.gz.tmp
46,259
[0123] It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS6212541 *Oct 24, 1994Apr 3, 2001Microsoft CorporationSystem and method for switching between software applications in multi-window operating systemUS20050212760 *Mar 23, 2004Sep 29, 2005Marvit David LGesture based user interface supporting preexisting symbolsUS20060123353 *Dec 8, 2004Jun 8, 2006Microsoft CorporationMethod and system of taskbar button interfacesUS20070277124 *Dec 28, 2006Nov 29, 2007Sang Hyun ShinTouch screen device and operating method thereofUS20080036743 *Jan 31, 2007Feb 14, 2008Apple Computer, Inc.Gesturing with a multipoint sensing deviceUS20080168401 *Jan 5, 2007Jul 10, 2008Boule Andre M JMethod, system, and graphical user interface for viewing multiple application windowsUS20080194323 *Apr 5, 2006Aug 14, 2008Eidgenoessische Technische Hochschule ZuerichMethod Of Executing An Application In A Mobile DeviceUS20080243501 *Apr 2, 2007Oct 2, 2008Google Inc.Location-Based Responses to Telephone RequestsUS20100162182 *Dec 23, 2009Jun 24, 2010Samsung Electronics Co., Ltd.Method and apparatus for unlocking electronic appliance* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS8578394 *Sep 9, 2011Nov 5, 2013Microsoft CorporationExempting applications from suspensionUS8727611Aug 17, 2011May 20, 2014Nest Labs, Inc.System and method for integrating sensors in thermostatsUS8997171Aug 19, 2011Mar 31, 2015Microsoft Technology Licensing, LlcPolicy based application suspension and terminationUS9026232Sep 16, 2014May 5, 2015Google Inc.Thermostat user interfaceUS9053476 *Feb 7, 2014Jun 9, 2015Capital One Financial CorporationSystems and methods for initiating payment from a client deviceUS9218595May 4, 2015Dec 22, 2015Capital One Financial CorporationSystems and methods for initiating payment from a client deviceUS9229533 *Jan 27, 2011Jan 5, 2016Sony CorporationInformation processing apparatus, method, and program for gesture recognition and controlUS9361150 *Sep 30, 2013Jun 7, 2016Microsoft Technology Licensing, LlcResuming applications and/or exempting applications from suspensionUS9377946 *Mar 7, 2013Jun 28, 2016Panasonic Intellectual Property Management Co., Ltd.On-board apparatusUS20110216075 *Jan 27, 2011Sep 8, 2011Sony CorporationInformation processing apparatus and method, and programUS20120005632 *Jun 30, 2010Jan 5, 2012Broyles Iii Paul JExecute a commandUS20130067494 *Sep 9, 2011Mar 14, 2013Microsoft CorporationResuming Applications and/or Exempting Applications from SuspensionUS20130106707 *Oct 26, 2011May 2, 2013Egalax_Empia Technology Inc.Method and device for gesture determinationUS20140040917 *Sep 30, 2013Feb 6, 2014Microsoft CorporationResuming Applications and/or Exempting Applications from SuspensionUS20140172539 *Dec 14, 2012Jun 19, 2014Apple Inc.Media station with custom bumperUS20140279530 *Feb 7, 2014Sep 18, 2014Capital One Financial CorporationSystems and Methods for Initiating Payment from a Client DeviceUS20150009163 *Mar 7, 2013Jan 8, 2015Panasonic CorporationOn-board apparatusUSD742893 *Jun 9, 2013Nov 10, 2015Apple Inc.Display screen or portion thereof with graphical user interfaceCN102467327A *Nov 10, 2010May 23, 2012上海无戒空间信息技术有限公司Method for generating and editing gesture object and operation method of audio dataCN102662592A *Apr 16, 2012Sep 12, 2012中兴通讯股份有限公司Data output method and data output deviceCN103049339A *Sep 7, 2012Apr 17, 2013微软公司Resuming applications and/or exempting applications from suspensionEP2849045A3 *Aug 20, 2014May 6, 2015Samsung Electronics Co., LtdMethod and apparatus for controlling application using key inputs or combination thereofEP2930604A1 *Apr 11, 2014Oct 14, 2015Nokia Technologies OYCausing feedback to a user inputEP3136215A1 *Aug 28, 2015Mar 1, 2017Nokia Technologies OyResponding to user inputWO2013124530A1 *Jan 31, 2013Aug 29, 2013Nokia CorporationMethod and apparatus for interpreting a gestureWO2014196760A1 *May 28, 2014Dec 11, 2014Samsung Electronics Co., Ltd.Electronic device and method for controlling applications in the electronic deviceWO2015000382A1 *Jun 27, 2014Jan 8, 2015Hongming JiangMobile operating systemWO2015176358A1 *Jun 30, 2014Nov 26, 2015深圳市中兴微电子技术有限公司Method for operating application program based on gesture, terminal and storage medium* Cited by examinerClassifications U.S. Classification715/716, 715/863International ClassificationG06F3/00, G06F3/01Cooperative ClassificationH04M1/72558, G11B27/34, G06F3/04883, G11B27/105, H04M2250/22European ClassificationG06F3/0488G, G11B27/10A1, G11B27/34Legal EventsDateCodeEventDescriptionJul 7, 2009ASAssignmentOwner name: PANTECH CO., LTD.,KOREA, REPUBLIC OFFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:RYU, YUN GWAN;REEL/FRAME:022923/0548Effective date: 20090529Owner name: PANTECH CO., LTD., KOREA, REPUBLIC OFFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:RYU, YUN GWAN;REEL/FRAME:022923/0548Effective date: 20090529Sep 13, 2016ASAssignmentOwner name: PANTECH INC., KOREA, REPUBLIC OFFree format text: DE-MERGER;ASSIGNOR:PANTECH CO., LTD.;REEL/FRAME:040005/0257Effective date: 20151022Nov 7, 2016ASAssignmentOwner name: PANTECH INC., KOREA, REPUBLIC OFFree format text: CORRECTIVE ASSIGNMENT TO CORRECT THE PATENT APPLICATION NUMBER 10221139 PREVIOUSLY RECORDED ON REEL 040005 FRAME 0257. ASSIGNOR(S) HEREBY CONFIRMS THE PATENT APPLICATION NUMBER 10221139 SHOULD NOT HAVE BEEN INCLUED IN THIS RECORDAL;ASSIGNOR:PANTECH CO., LTD.;REEL/FRAME:040654/0749Effective date: 20151022RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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【0022】実施例3 発光材料として[化3]で示されるOMSBを用いた以外は実施例1と同様にして薄膜をガラス基板上に塗布・ [0022] applying a thin film in the same manner as in Example 1 except for using OMSB represented by Chemical Formula 3] As Example 3 luminescent material on a glass substrate, 乾燥後、透過光のピーク波長が460nmであるカラーフィルターを設置し、同様の測定を行ったがその変化は小さかった。 After drying, the peak wavelength of the transmitted light is placed a color filter is 460 nm, was subjected to the same measurements the change was small. 【0023】比較例1〜3 実施例1〜3で作成した有機薄膜をカラーフィルターを通さず直接蛍光灯にさらした。 [0023] exposing the organic thin film produced in Comparative Examples 1 to 3 Examples 1 to 3 to direct fluorescent lamp without passing through the color filter. 100分経過するとその発光強度は著しく変化した。 The emission intensity after a lapse 100 minutes was significantly changed. これらの結果をまとめて図6に示す。 These results are collectively shown in FIG. カラーフィルターの効果が歴然としていることがわかる。 It can be seen that the effect of the color filters are evident. 【0024】実施例4 マトリックス型素子の場合の実施例を次に示す。 The following examples in the case of Example 4 matrix element. 有機E Organic E L素子部分の作成は特開平06−79914に準拠した。 Creating L element portion conforming to JP-06-79914. 図7にその模式図を示す。 Figure 7 shows a schematic illustration thereof. よく洗浄したガラス基板(1)を真空蒸着槽内にセットし、ガラス基板と蒸着源の間にシャドウマスクを置き、クロム蒸着を行い、ストライプ状ブラックマトリックス(2)を形成する。 Well washed glass substrate (1) was set in a vacuum deposition chamber, between the glass substrate and the evaporation source Place the shadow mask, the chromium deposition, to form a stripe-shaped black matrix (2). クロム蒸着を行ったガラス基板を蒸着槽より取り出し、赤色フィルターを設置するために富士ハントエレクトロニクステクノロジー(株)社製CR−2000をスピンナー塗布する。 The glass substrate subjected to chromium deposition was taken out of the deposition chamber, spinner coating a Fuji Hunt Electronics Technology Co., Ltd. CR-2000 in order to place a red filter. 窒素雰囲気中でプリベークを行い、窒素気流中で露光を行う。 Pre-baked in a nitrogen atmosphere, to perform exposure in a stream of nitrogen. 次いで現像、水洗を行った後、ポストベークを行う。 Then after developing, washed with water, carry out the post-baking. このようにして赤色フィルター(3 Red filter (3 In this way, (R))を完成する。 To complete the (R)). 緑色のフィルター(3(G))を得るために、CG−2000をスピンナー塗布して、同様の操作を繰り返す。 To obtain a green filter (3 (G)), and spinner coating a CG-2000, the same operation is repeated. 最後のCB−2000をスピンナーコートして、青色フィルター(3(B))を作り、3 By spinner coating at the end of the CB-2000, to create a blue filter (3 (B)), 3
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【図7】実施例4の有機EL素子の断面図である。 7 is a cross-sectional view of an organic EL device of Example 4. 1 ガラス基板 2 ブラックマトリックス 3 カラーフィルター 4 オーバーコート膜 5 透明電極(陽極) 6 発光層 7 金属電極(陰極) 8 保護樹脂 9 紫外線カットフィルター 10 支柱 11 正孔注入輸送層 12 発光層(B) 13 発光層(G) 14 発光層(R) 1 glass substrate 2 a black matrix 3 color filters 4 overcoat film 5 a transparent electrode (anode) 6-emitting layer 7 metal electrode (cathode) 8 protective resin 9 UV cut filter 10 struts 11 hole injection transport layer 12 light-emitting layer (B) 13 emitting layer (G) 14 light emitting layer (R) 【請求項1】 少なくとも一方が透明な一対の電極間に有機薄膜が挟持された有機電界発光素子において透明電極側にカラーフィルターを設置したことを特徴とする有機電界発光素子。 [Claim 1 wherein at least one organic electroluminescent element characterized in that it has established a color filter to the transparent electrode side in the organic electroluminescent device wherein an organic thin film is sandwiched between a pair of transparent electrodes.
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Browsing by Author Shieh, HPD 1-Sep-2004 Analyses and improvements of whiteness of reflective liquid crystal displays Huang, YP; Chu, LS; Shieh, HPD; 光電工程學系; Department of Photonics 1997 Analyses of the operation of in-plane switching display mode of liquid crystal display Yoo, JC; Lin, KW; Shieh, HPD; 交大名義發表; 光電工程學系; National Chiao Tung University; Department of Photonics 22-Apr-1996 Analysis of capacitance-voltage characteristics for two-dimensional multi-conductor in liquid crystal displays Lin, KW; Shieh, HPD; Su, FCD; 光電工程學系; Department of Photonics 1-Jan-1997 Analysis of the operation of mixed-mode twisted nematic cells Lin, KW; Yoo, JC; Shieh, HPD; 交大名義發表; 光電工程學系; National Chiao Tung University; Department of Photonics 1-Jan-1997 Analysis of the operation of mixed-mode twisted nematic cells Lin, KW; Yoo, JC; Shieh, HPD; 光電工程研究所; Institute of EO Enginerring 1-Dec-2004 Applications of microtube array on transtlective liquid crystal displays for backlight efficiency enhancement Yang, YS; Huang, YP; Shieh, HPD; Tsai, MC; Tsai, CY; 光電工程學系; Department of Photonics 20-Jun-2004 Applications of multidirectional asymmetrical microlens-array light-control films on reflective liquid-crystal displays for image quality enhancement Huang, YP; Shieh, HPD; Wu, ST; 光電工程學系; Department of Photonics 1-May-2000 Brightness and contrast enhancement of reflective liquid crystal displays by microlens array light control film Ko, FJ; Shieh, HPD; 光電工程學系; Department of Photonics 1-Sep-1999 Carrier-to-noise ratio improvement with pulsed-laser readout on magnetically induced superresolution by center aperture detection disks Chen, BM; Yang, BW; Hwang, WK; Shieh, TE; Shieh, HPD; 材料科學與工程學系; 光電工程學系; Department of Materials Science and Engineering; Department of Photonics 1-Mar-1996 Center aperture detection on magnetically induced super resolution magneto-optical disks Liu, PY; Shieh, HPD; 交大名義發表; 光電工程學系; National Chiao Tung University; Department of Photonics 1-Sep-1998 The characteristics of a dual-layer optical disk with read-only and erasable functions Yang, BW; Shieh, HPD; 光電工程學系; Department of Photonics 1998 Color characterization of an LC projection system using multiple-regression matrix and look-up-table with interpolation Liaw, MJ; Chen, CY; Shieh, HPD; 光電工程學系; Department of Photonics 1998 Color characterization of twist nematic LC panels by using empirical functions Liaw, MJ; Shieh, HPD; 光電工程學系; Department of Photonics 1-Aug-1997 Color rendering of cathode ray tube (CRT) by digital driving Liaw, MJ; Shieh, HPD; 交大名義發表; 光電工程學系; National Chiao Tung University; Department of Photonics 1-Aug-1997 Color rendering of cathode ray tube (CRT) by digital driving Liaw, MJ; Shieh, HPD; 光電工程研究所; Institute of EO Enginerring 1999 Color reproduction of twist nematic LCD by polynomial regression applied in primary-invariance model Tsai, CY; Liaw, MJ; Shieh, HPD; 光電工程學系; Department of Photonics 1-Nov-1996 Colorimetric calibration of CRT monitors using modified Berns' model Liaw, MJ; Shieh, HPD; 交大名義發表; 光電工程學系; National Chiao Tung University; Department of Photonics 1-Nov-1996 Colorimetric calibration of CRT monitors using modified Berns' model Liaw, MJ; Shieh, HPD; 光電工程研究所; Institute of EO Enginerring 1-Jul-1998 The creation of nanometer magnetic domain structure in artificially pinning hole of magneto-optical recording material Wu, TH; Wu, JC; Chen, BM; Shieh, HPD; 光電工程學系; Department of Photonics Visitors : 2578548 Online Users : 14
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Bli en värdHjälpBli medlemLogga inFlynn · När som helst · 1 gästFlynnNär som helst1 gästVarNär som helst1 gästTyp av rumPrisintervallBoka direktFler filter99 Uthyrningar av hemThe room is situated as a spare room at the rear of the house. It will be ideal for people who are looking for a good night rest.The house is set among the established suburbs of Canberra, hence it sits on a big leafy tree lined street. It is about 15 mins to the local CBD (Belconnen), and local shops. However it is far enough from the hustle and bustle.The room was as it was in the photos and Christine was a good host. However the bathroom was not convenient as it was in the house whilst the room was outside. Overall it was reasonable for short stay.Kitty2016-06-20T00:00:00ZI was up for the week and needed a convenient place to stay. Christine made me feel at home and was friendly to chat to. The house and facilities were were clean The facilities were good and the other housemates were friendly as well. I need to go back to Canberra in a few months and would have no hesitation in staying again.Neil2016-03-12T00:00:00Z這個地方是非常乾淨的。為旅客極大的價值。恭讓我非常歡迎,因為好。Clement2016-09-01T00:00:00Z而在堪培拉我不得不在清晨離開和返回晚。克里斯汀感到非常包容我的需要。 這個地方是物超所值。Robin2016-09-28T00:00:00ZSituated about 8 klms from CBD the suburban neighbourhood was quiet. The room was large and the bed comfortable. A TV would have been good. Shared bathroom was large clean and the shower powerful and hot. Good value. Robin2016-03-24T00:00:00ZQuiet,I had a good nights sleep.I was there for one night only.The room and house was clean & tidy. Good value.ALAN2017-02-10T00:00:00ZChristine is awesome, she treats us like a family. The room is very clean and beautiful. The atmosphere around the house is amazing. I really don't wanna move out from this place. If I visit Canberra again, I will definitely choose here to stay.Suwira2016-08-29T00:00:00ZRoom is spacious as per description.. Christine is very accomodating..Raida2016-10-01T00:00:00ZTyp av rumEget rumTyp av boendeHusPlats för2SovrumFlynn, Australian Capital Territory, AustralienBig, Clean & Private roomPris305 kr SEK Big, Clean & Private roomEget rum · 1 säng75 omdömenQuiet pet-friendly 2 bedroom place with nature at your doorstep. Plenty of outdoor space for the pets as well as 4 different playgrounds and ovals to take the kids. 5 minutes drive to belconnen and 2 minor shops. Kippax, Jamison and Belconnen are about 5 minutes drive and have an ALDI, Woolworths and Coles :-).Lovely little house made for such a comfortable stay while we waited to move into our home. We stayed for a month and were able to feel totally at home with all the comforts and amenities you could want. Wonderful hosts for whom nothing was too much trouble. So great to deal with - made us feel really welcome and at home and even came around to make sure that everything was working right and that we had everything we needed. We would recommend them as hosts to anyone :)Kerrie2017-03-23T00:00:00Zgood value for money, very friendly and helpful hosts :)Matt2017-01-28T00:00:00ZVery lovely hosts, the house was super clean and very welcoming. Definitely recommend it :)Natalia2017-02-19T00:00:00ZWe didn't end up staying here but fortunately the tenants were very accommodating with our upgrade. All seven of us comfortably fit in with and enjoyed our stay. The facilities were all very well maintained and clean. Shops and everything that we needed was very close by. We didn't have an issue with parking considering we had 3 cars and there wasn't any issues with neighbours either.Céline2017-05-07T00:00:00ZThe host canceled this reservation 2 days before arrival. This is an automated posting.Damian2017-03-22T00:00:00ZWe were looking for somewhere with aircon to escape two 41 c degree days with our small dog and this placed fit the bill. Hosts were friendly and helpful in getting us settled in. Place is a little tired and in need of some TLC but that did not detract significantly from our stay.Peter2017-02-11T00:00:00ZSlavisha is an incredibly nice and helpful host. We have been to two of her listings and both a great! Her communication is impeccable, she is available and answers questions any time. I definitely recommend!Blake2017-02-03T00:00:00ZTyp av rumEget hus/egen lghTyp av boendeHusPlats för7SovrumEvatt, Australian Capital Territory, AustralienCottage GetawayPris943 kr SEK Cottage GetawayEget hus/egen lgh · 4 sängar · Fullt återbetalningsbar7 omdömenOur house is located in the hight of Evatt with water view from the balcony. Easy to get around with transport. You would certainly enjoy your stay at our warm atmosphere of our home.Familly environment with green leafy streets extended to the reserve with wonderful walk along side of the side lake Ginnederra.Typ av rumEget rumTyp av boendeHusPlats för2SovrumEvatt, Australian Capital Territory, AustralienPrivate bedroom with own bathroomPris359 kr SEK Private bedroom with own bathroomEget rum · 1 säng · Fullt återbetalningsbarNY1 omdömeClose to Belconnen MallReally a very pretty house and Christine were married people are very nice and very social I recommend this person. Thank you !!guillaume2016-11-02T00:00:00ZQuiet stay. Quiet area. Clean room, welcoming. Hosts very friendly. Provided heater. With my odd hours (early Sunday morning starts etc), there was no issue with going about my own business. Enrico2016-04-11T00:00:00Z恭打开门欢迎我与一个伟大的微笑,当我到达。她是非常有益的,给我,我需要知道房子的所有区域。房子的房间休息很干净,宽敞。她还跟提供茶水。我肯定会推荐她,并会留在她家的时候,我去堪培拉下一次。Naveed2016-04-08T00:00:00Zs était mon deuxième séjour chez Christine, cette fois dans l'une des chambres dans la maison principale. Christine m'a accueilli, et j'ai eu un séjour agréable.Michael2016-06-14T00:00:00Z彻底喜欢我留在恭的地方。一切都保存完好,干净。 Christine和乔很不错的主机,我们成了朋友。推荐人希望留在堪培拉无论是短途旅行或长期住宿。Ke2016-09-14T00:00:00ZDer Platz war ziemlich ruhig und kalt hatten einen sehr angenehmen Aufenthalt. Christine ist sehr freundlich und so gut in einladend.Vamsy2017-02-13T00:00:00ZChristine and her husband are a lovely couple, very kind ad caring hosts. The room and all other facilities are very clean and as new. They offered me tea and meals and gave me good directions to go wherever I needed to go. When I was bored in my room they gave me good company. They are amazing people and their room/home has all the necessary facilities. Would love to stay here next time too.Rasheed2016-09-15T00:00:00ZChristine is warm and welcoming. The room was as described and had basic necessities. Eddie2016-03-25T00:00:00ZTyp av rumEget rumTyp av boendeHusPlats för1SovrumFlynn, Australian Capital Territory, AustralienLovely Private Clean RoomPris305 kr SEK Lovely Private Clean RoomEget rum · 1 säng35 omdömenEconomical for groups where some can sleep on bunks, no foam mattresses all innerspring. All linen and towels supplied. Well stocked pantry. Plenty of single beds 6, Two queen bed rooms, one with own bathroom. Table Tennis /gamesroom in garage.This house is great for a couple of families to share, or large sporting or working groups. Plenty of parking. Easy access to all of Canberra, good road system.Really need a car to get around, Hall Village, George Harcourt Inn, Dinosaur display, Cockinton (URL HIDDEN) be sure to have your gps.Great communication with Jeanette prior to us arriving. Local shops were very close to accommodation so could stock up on food etc. We had 4 adults and 6 kids and was ample space. Was in a cul de sac so no traffic. Handy also to a motorway which made it easy to get places. Definitely recommend staying here. Also had a ping pong table which the kids loved.Geoff2016-09-22T00:00:00ZThe host canceled this reservation 34 days before arrival. This is an automated posting.Peter2016-06-25T00:00:00ZThe hosts were no hassles, very welcoming and everything was as advertised. We had six adults and four kids and there was plenty of room for everybody. The large nature reserve directly across the road gave even more space for the kids to run around. Andrew2016-05-23T00:00:00ZPerfect stay for a small group. Very nice place to stay, we enjoyed the house. Jennette was very nice and flexible as we were a bit tired after the marathon. Thanks againLynda2016-04-11T00:00:00ZThere was 7 of us and the place was perfect! Decent neighbourhood, shopping center was like 2mins drive away which had a nice turkish kebab place!! The house was spacious, clean and all the appliances were in great working condition. Our host, Jeannette was very friendly and communicated with us all that we needed to know including some info about the magpies which I thought was funny! Overall, very pleased with my (first) Airbnb experience.Ed2016-02-21T00:00:00ZThe host canceled this reservation 7 days before arrival. This is an automated posting.Dorina2016-02-19T00:00:00ZBrindabella views is a wonderful property, ideally located overlooking the mountains. It is ideally located near to shops restaurants and a major shopping centre. The house itself is exceptionally comfortable, well equipped with all you will need for a pleasant stay. Jeanette and Ron are excellent hosts and have thoughtfully ensured that the property is very comfortable. The heating is excellent and provides a cosy atmosphere. The games area was very poplular with our younger family members and enabled us to spread out. I would highly recommend this property as great value for money Deb2017-05-20T00:00:00ZThe host canceled this reservation 24 days before arrival. This is an automated posting.Matt2016-11-14T00:00:00ZTyp av rumEget hus/egen lghTyp av boendeHusPlats för10SovrumFlynn, Australian Capital Territory, Australien'Brindabella Views' 8 beds.Pris2,380 kr SEK 'Brindabella Views' 8 beds.Eget hus/egen lgh · 8 sängar · Fullt återbetalningsbar11 omdömenMy place is close to parks. You’ll love my place because of the comfy bed, the neighbourhood, and the cosiness. My place is good for couples.主机取消您预订抵达前7天。这是一个自动发布。Minji2017-01-20T00:00:00ZThe host canceled this reservation 30 days before arrival. This is an automated posting.greg2017-03-15T00:00:00ZTyp av rumEget hus/egen lghTyp av boendeHusPlats för2SovrumDunlop, Australian Capital Territory, AustralienA fully furnished one bedroom apartmentPris341 kr SEK A fully furnished one bedroom apartmentEget hus/egen lgh · 1 säng · Fullt återbetalningsbar2 omdömenThe Soulful Sanctuary is close to parks, great views, and restaurants. With friendly hosts you'l love the ambiance, and the outdoors space. The place suits couples, solo adventurers, business travelers, and pets. Well-behaved pets are welcome in the yard and on decking. We have smoke free home. * Laundry with front loader washing machine and large sink, and there’s an original ‘Hills Hoist’ clothes line in the backyard.Secluded place but highly recommended to unwind and relax. Clemencia2016-12-03T00:00:00ZEnthusiastic young couple with great plans to make the world a better placeDouglas2017-01-08T00:00:00ZTyp av rumEget rumTyp av boendeHusPlats för2SovrumMelba, Australian Capital Territory, AustralienThe Soulful SanctuaryPris440 kr SEK The Soulful SanctuaryEget rum · 1 säng · Fullt återbetalningsbar2 omdömenThe house is close to a natural reserve on top of the hill with many bike and walk paths leading to the lake. It has well bus amenity to take you anywhere in Canberra. It is a charming house and sunny place with a large garden and a beautiful deck.Lany was an excellent host. The day we arrived, she welcomed us and showed where all amenities are. She even arranged for some flyers having information on places to visit. She provided us complete privacy and always offered for any help if required. She has a cat in the house which is equally welcoming :) There is a bus stop right across the house, so you don't have to walk long for catching a bus. Her place is a little far away from the city (takes 45-60 minutes to get to the city but given its beautiful location, its nothing). I would definitely recommend her place to the visitors and would want to stay at here place if I come back to Canberra for a visit agian.Krati2016-10-02T00:00:00ZTyp av rumEget rumTyp av boendeHusPlats för2SovrumSpence, Australian Capital Territory, AustralienQuiet and full of light bedroomPris377 kr SEK Quiet and full of light bedroomEget rum · 1 säng · Fullt återbetalningsbar1 omdömeThe simplest summary is to say, read my reviews! Mine is a friendly and happy home convenient to public transport, universities and the city centre. I offer WIFI, continuous hot water, shampoo & conditioner, tea/coffee/infusions, access to kitchen and laundry.
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Ground leakage power supply for dimming applications LEVITON MANUFACTURING CO., INC. 09 November 2015 02 June 2016 一种大功率半导体激光器恒流互补控制电路 南京诺威尔光电系统有限公司,北京维泰凯信新技术有限公司,首都师范大学 12 April 2013 31 July 2013 Electrical converter system with low harmonic distortion ABB TECHNOLOGY OY 27 January 2017 03 August 2017
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Patent US5680031 - Method and apparatus for charging batteries - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsA charger for charging a rechargeable battery. The charger comprising a circuit for producing a charging current having a variable level and a control circuit for controlling the charging current. During a first charging period the current is maintained at a level to rapidly charge the battery at a rate...http://www.google.com/patents/US5680031?utm_source=gb-gplus-sharePatent US5680031 - Method and apparatus for charging batteriesAdvanced Patent SearchPublication numberUS5680031 APublication typeGrantApplication numberUS 08/621,930Publication dateOct 21, 1997Filing dateMar 26, 1996Priority dateMar 26, 1996Fee statusPaidAlso published asCA2250098A1, CA2250098C, DE69718453D1, DE69718453T2, EP0890213A1, EP0890213B1, WO1997036359A1Publication number08621930, 621930, US 5680031 A, US 5680031A, US-A-5680031, US5680031 A, US5680031AInventorsVladimir S. Pavlovic, Jiri K. Nor, Robert B. FieldOriginal AssigneeNorvik Traction Inc.Export CitationBiBTeX, EndNote, RefManPatent Citations (13), Referenced by (52), Classifications (10), Legal Events (13) External Links: USPTO, USPTO Assignment, EspacenetMethod and apparatus for charging batteries Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS2666883 *Sep 6, 1950Jan 19, 1954Comp Generale ElectriciteMethod of and apparatus for automatically charging accumulator batteriesUS4385269 *Jan 9, 1981May 24, 1983Redifon Telecommunications LimitedBattery chargerUS4736150 *Jul 9, 1986Apr 5, 1988The United States Of America As Represented By The Secretary Of The ArmyMethod of increasing the useful life of rechargeable lithium batteriesUS4829225 *Oct 23, 1985May 9, 1989Electronic Power Devices, Corp.Rapid battery charger, discharger and conditionerUS4959597 *Jul 28, 1988Sep 25, 1990Fanuc LtdNumerical control apparatusUS5179335 *Oct 6, 1988Jan 12, 1993Norvik Inc.Battery chargerUS5204611 *May 2, 1991Apr 20, 1993Norvik Technologies Inc.Charging circuits for rechargeable batteries and cellsUS5352967 *Oct 18, 1993Oct 4, 1994Temic Telefunken Microelectronic GmbhMethod and apparatus for charging storage batteries to full capacityUS5352968 *May 28, 1992Oct 4, 1994Apple Computer, Inc.Battery charge state determinationUS5408170 *Jun 15, 1993Apr 18, 1995Sony CorporationDevice for charging a secondary battery having interrupt means to prevent overchargingUS5481174 *Dec 27, 1993Jan 2, 1996Motorola, Inc.Method of rapidly charging a lithium ion cellUS5500584 *Jul 27, 1992Mar 19, 1996Kiyomi HanashiroBattery charging method and apparatus using initial charging step with gradually increasing charging current, quick charging step with large charging current and final charging step with decreasing charging currentEP0432690A2 *Dec 10, 1990Jun 19, 1991Canon Kabushiki KaishaCharging apparatus* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS5982643 *Oct 10, 1996Nov 9, 1999Progressive Dynamics, Inc.Power converter with selectively variable output and controller and display system thereforUS6031353 *Feb 25, 1998Feb 29, 2000Ericsson, Inc.Method and apparatus for communicating battery pack informationUS6087811 *Dec 9, 1998Jul 11, 2000Analog Modules, Inc.Pulsed-output power supply with high power factorUS6094033 *Oct 2, 1998Jul 25, 2000Georgia Tech Research CorporationBattery state of charge detector with rapid charging capability and methodUS6172480 *Jun 3, 1999Jan 9, 2001Primetech Electronics, Inc.Compact fast battery chargerUS6229285 *Apr 5, 2000May 8, 2001Georgia Tech Research CorporationDetector for rapid charging and methodUS6301132Nov 1, 2000Oct 9, 2001Primetech Electronics, Inc.Compact fast battery chargerUS6456041 *Dec 28, 1999Sep 24, 2002Yamaha Hatsudoki Kanushiki KaishaPower supply system for electric vehicleUS6495992 *Apr 2, 1997Dec 17, 2002Norvik Traction Inc.Method and apparatus for charging batteries utilizing heterogeneous reaction kineticsUS6731096 *Aug 10, 2000May 4, 2004Motorola, Inc.Battery charging algorithmUS6885169Oct 23, 2001Apr 26, 2005Curtis Henry DobbieSystem and method for charging rechargeable batteriesUS6965216Nov 21, 2001Nov 15, 2005Edison SourceMethod and apparatus for ameliorating electrolyte stratification during rapid chargingUS7221125Nov 6, 2003May 22, 2007Y. DingSystem and method for charging a batteryUS7518340 *Dec 15, 2005Apr 14, 2009Dell Products L.P.Method and system for charge rate adjustment to enhance battery cycle lifeUS7741815Nov 6, 2006Jun 22, 2010General Electric CompanyLithium polymer battery powered intravenous fluid warmerUS7782002Sep 8, 2005Aug 24, 2010Progressive Dynamics, Inc.Power converterUS7808211Mar 31, 2009Oct 5, 2010Schumacher Electric CorporationSystem and method for charging batteriesUS7956583 *Jun 21, 2010Jun 7, 2011General Electric CompanyLithium polymer battery powered intravenous fluid warmerUS8040110 *May 14, 2002Oct 18, 2011Eaton Power Quality CompanyStress management of battery recharge, and method of state of charge estimationUS8237412 *Jul 14, 2006Aug 7, 2012Schumacher Electric CorporationBattery charger and method utilizing alternating DC charging currentUS8423214Sep 14, 2010Apr 16, 2013Kpit Cummins Infosystems, Ltd.Motor assistance for a hybrid vehicleUS8596391Sep 14, 2010Dec 3, 2013Kpit Cummins Infosystems LtdMethod of converting vehicle into hybrid vehicleUS8606443Sep 14, 2010Dec 10, 2013Kpit Cummins Infosystems, Ltd.Motor assistance for a hybrid vehicle based on user inputUS8796997Jun 7, 2011Aug 5, 2014Vital Signs, Inc.Lithium polymer battery powered intravenous fluid warmerUS8947054 *Jun 29, 2012Feb 3, 2015Schumacher Electric CorporationBattery charger and method utilizing alternating DC charging currentUS9227626Sep 14, 2010Jan 5, 2016Kpit Technologies LimitedMotor assistance for a hybrid vehicle based on predicted driving rangeUS20030094927 *Nov 21, 2001May 22, 2003Vladimir PavlovicMethod and apparatus for ameliorating electrolyte stratification during rapid chargingUS20040041540 *Oct 23, 2001Mar 4, 2004Dobbie Curtis HenrySystem and method for charging rechargable batteriesUS20040222769 *May 14, 2002Nov 11, 2004Adnan Al-AnbukyStress management of battery recharge and method of state charge estimationUS20050099162 *Nov 6, 2003May 12, 2005Yi DingSystem and method for charging a batteryUS20060083031 *Sep 8, 2005Apr 20, 2006Progressive Dynamics, Inc.Power converterUS20060284601 *May 10, 2006Dec 21, 2006Lembit SalasooHigh temperature battery system for hybrid locomotive and offhighway vehiclesUS20070105010 *Nov 6, 2006May 10, 2007David CassidyLithium polymer battery powered intravenous fluid warmerUS20070114970 *Jul 14, 2006May 24, 2007Johnson Thomas FBattery charger and method utilizing alternating DC charging currentUS20080144341 *Jan 14, 2008Jun 19, 2008Progressive Dynamics, Inc.Power converterUS20100253288 *Jun 21, 2010Oct 7, 2010David CassidyLithium polymer battery powered intravenous fluid warmerUS20110238012 *Sep 29, 2011David CassidyLithium polymer battery powered intravenous fluid warmerUS20110273180 *Nov 10, 2011Mansik ParkBattery testing methodUS20110273181 *May 7, 2010Nov 10, 2011Mansik ParkBattery testing systemUS20120306437 *Dec 6, 2012Schumacher Electric CorporationBattery charger and method utilizing alternating dc charging currentCN1093326C *Dec 3, 1998Oct 23, 2002松下电器产业株式会社Management method for spare power supplyCN1950998B *Oct 1, 2004Mar 25, 2015舒马克电器公司System and methods for charging batteriesCN101253667BJul 14, 2006May 22, 2013舒马克电器公司Battery charger and method utilizing alternating DC charging currentDE102012217447A1 *Sep 26, 2012Aug 8, 2013Siemens AktiengesellschaftMethod for controlling charging device for electrical energy storage by pulse-width modulated signal in electric vehicle, involves storing positive portion of signal, and charging capacitor during absence of negative portion of signalEP0921620A2 *Dec 1, 1998Jun 9, 1999Matsushita Electric Industrial Co., Ltd.Method for managing back-up power sourceEP1330008A2 *Nov 19, 2002Jul 23, 2003Edison Source Norvik CompanyMethod and apparatus for ameliorating electrolyte stratification during rapid chargingWO2002035679A1 *Oct 23, 2001May 2, 2002Curtis Henry DobbieSystem and method for charging rechargeable batteriesWO2005043642A2 *Oct 1, 2004May 12, 2005Schumacher Electric CorporationSystem and methods for charging batteriesWO2005043642A3 *Oct 1, 2004Dec 8, 2005Schumacher Electric CorpSystem and methods for charging batteriesWO2007011734A2 *Jul 14, 2006Jan 25, 2007Schumacher Electric CorporationBattery charger and method utilizing alternating dc charging currentWO2007056202A3 *Nov 6, 2006Oct 18, 2007Enginivity LlcLithium polymer battery powered intravenous fluid warmerWO2012128422A1 *Jun 3, 2011Sep 27, 2012Se Ho LoApparatus and method for charging a lithium battery* Cited by examinerClassifications U.S. Classification320/145, 320/160, 320/152, 320/147International ClassificationH02J7/00, H02J7/04, H02J7/10, H01M10/44Cooperative ClassificationH02J7/0093European ClassificationH02J7/00M10ELegal EventsDateCodeEventDescriptionMar 26, 1996ASAssignmentOwner name: NORVIK TRACTION INC., CANADAFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:PAVLOVIC, VLADIMIR S.;NOR, JIRI K.;FIELD, ROBERT B.;REEL/FRAME:007922/0679Effective date: 19960322Jul 20, 2000ASAssignmentOwner name: NORVIK TRACTION, CANADAFree format text: MERGER;ASSIGNOR:NORVIK TECHNOLOGIES INC.;REEL/FRAME:011019/0026Effective date: 19980831Jul 26, 2000ASAssignmentOwner name: EDISON SOURCE, CALIFORNIAFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:RICHTER & PARTNERS INC.;REEL/FRAME:011007/0766Effective date: 20000606Owner name: RICHTER & PARTNERS INC., ONTARIOFree format text: RECEIVERSHIP;ASSIGNOR:NORVIK TRACTION INC.;REEL/FRAME:011019/0001Effective date: 20000606Apr 20, 2001FPAYFee paymentYear of fee payment: 4Sep 2, 2003ASAssignmentOwner name: EDISON SOURCE, CALIFORNIAFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:RICHTER & PARTNERS INC.;REEL/FRAME:014446/0493Effective date: 20000606Owner name: RICHTER & PARTNERS INC., AS RECEIVER, CANADAFree format text: ORDER APPOINTING A RECEIVER;ASSIGNOR:NORVIK TRACTION, INC.;REEL/FRAME:014446/0459Effective date: 20000606Apr 11, 2005FPAYFee paymentYear of fee payment: 8Dec 18, 2007ASAssignmentOwner name: G.H.V. REFRIGERATION, INC., CALIFORNIAFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:EDISON SOURCE;REEL/FRAME:020261/0324Effective date: 20071130Oct 24, 2008FPAYFee paymentYear of fee payment: 12Mar 11, 2009ASAssignmentOwner name: ENABLE OPPORTUNITY PARTNERS LP, CALIFORNIAFree format text: SECURITY AGREEMENT;ASSIGNORS:ECOTALITY, INC.;ELECTRIC TRANSPORTATION ENGINEERING CORPORATION;G.H.V.REFRIGERATION, INC.;REEL/FRAME:022375/0922Effective date: 20071106Owner name: BRIDGEPOINT MASTER FUND LTD, GEORGIAFree format text: SECURITY AGREEMENT;ASSIGNORS:ECOTALITY, INC.;ELECTRIC TRANSPORTATION ENGINEERING CORPORATION;G.H.V.REFRIGERATION, INC.;REEL/FRAME:022375/0922Effective date: 20071106Owner name: PIERCE DIVERSIFIED STRATEGY MASTER FUND LLC, ENA,Free format text: SECURITY AGREEMENT;ASSIGNORS:ECOTALITY, INC.;ELECTRIC TRANSPORTATION ENGINEERING CORPORATION;G.H.V.REFRIGERATION, INC.;REEL/FRAME:022375/0922Effective date: 20071106Owner name: ENABLE GROWTH PARTNERS LP, CALIFORNIAFree format text: SECURITY AGREEMENT;ASSIGNORS:ECOTALITY, INC.;ELECTRIC TRANSPORTATION ENGINEERING CORPORATION;G.H.V.REFRIGERATION, INC.;REEL/FRAME:022375/0922Effective date: 20071106Aug 19, 2010ASAssignmentOwner name: ECOTALITY, INC., ARIZONAFree format text: RELEASE BY SECURED PARTY;ASSIGNORS:BRIDGEPOINTE MASTER FUND LTD.;ENABLE GROWTH PARTNERS LP;ENABLE OPPORTUNITY PARTNERS LP;AND OTHERS;SIGNING DATES FROM 20100714 TO 20100722;REEL/FRAME:024860/0784Owner name: ELECTRIC TRANSPORTATION ENGINEERING CORPORATION, AFree format text: RELEASE BY SECURED PARTY;ASSIGNORS:BRIDGEPOINTE MASTER FUND LTD.;ENABLE GROWTH PARTNERS LP;ENABLE OPPORTUNITY PARTNERS LP;AND OTHERS;SIGNING DATES FROM 20100714 TO 20100722;REEL/FRAME:024860/0784Owner name: G.H.V. REFRIGERATION, INC., ARIZONAFree format text: RELEASE BY SECURED PARTY;ASSIGNORS:BRIDGEPOINTE MASTER FUND LTD.;ENABLE GROWTH PARTNERS LP;ENABLE OPPORTUNITY PARTNERS LP;AND OTHERS;SIGNING DATES FROM 20100714 TO 20100722;REEL/FRAME:024860/0784Dec 16, 2010ASAssignmentOwner name: ECOTALITY, INC., ARIZONAFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:G.H.V. REFRIGERATION, INC.;REEL/FRAME:025513/0409Effective date: 20101117Apr 9, 2014ASAssignmentOwner name: ACCESS CONTROL GROUP, L.L.C.,, NEW JERSEYFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:ECOTALITY, INC.,;REEL/FRAME:032636/0522Effective date: 20140122May 1, 2014ASAssignmentOwner name: MINIT CHARGER, LLC, NEW JERSEYFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:ACCESS CONTROL GROUP, LLC;REEL/FRAME:032803/0547Effective date: 20140501RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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Printed VON design. '); } function InitSizePanel() { $("#dvLoadingSizePanel")[0].style.display = "none"; if ($isPreSaleObject.IsPreStyle == "Y" || $isPreSaleObject.IsPreStyle == "P" || $isPreSaleObject.IsPreStyle == "X") { _isPreSaleMode = $isPreSaleObject.IsPreStyle; $("#dvPreSalePanel")[0].style.display = "block"; //alert($isPreSaleObject.Fromdate); //alert($isPreSaleObject.Todate); $(".Oprice")[0].style.display = ""; $(".NpriceName").text("Limited offer:"); $("#lbCurPrice").html($isPreSaleObject.Price.toFixed(2)); if (_isPreSaleMode == "Y") { //预热 countDown($isPreSaleObject.Fromdate, "#colockbox1"); $(".divAddChart").fadeOut(10); _enableAddCart = "N"; } else if (_isPreSaleMode == "P") { $("#lbPreSales").html("Sale ends in:"); countDown($isPreSaleObject.Todate, "#colockbox1"); $("#dvSizePanel")[0].style.display = "block"; } else if (_isPreSaleMode == "X") { $("#lbPreSales")[0].style.display = "none"; $("#dvSizePanel")[0].style.display = "none"; $("#colockbox1").html("Sold out"); if (_market == "TW") { $("#colockbox1").html(" "); } $(".divAddChart").fadeOut(10); _enableAddCart = "N"; } if (_market == "MY") { $("#dvMYOpening")[0].style.display = "block"; } } else { $("#dvSizePanel")[0].style.display = "block"; } } function countDown(time, id) { var day_elem = $(id).find('.day'); var hour_elem = $(id).find('.hour'); var minute_elem = $(id).find('.minute'); var second_elem = $(id).find('.second'); var end_time = new Date(time).getTime(),//月份是实际月份-1 sys_second = (end_time - new Date("2019/6/21 07:55:08").getTime()) / 1000; var timer = setInterval(function () { if (sys_second > 1) { sys_second -= 1; var day = Math.floor((sys_second / 3600) / 24); var hour = Math.floor((sys_second / 3600) % 24); var minute = Math.floor((sys_second / 60) % 60); var second = Math.floor(sys_second % 60); var sday = day.toString(); var shour = hour < 10 ? "0" + hour : hour; var smin = minute < 10 ? "0" + minute : minute; var snd = second < 10 ? "0" + second : second; day_elem && $(day_elem).html(sday); $(hour_elem).html('' + shour); $(minute_elem).html('' + smin); $(second_elem).html('' + snd); if (day <= 0 && hour <= 0 && minute <= 0 && second <= 0) { EndCountDown(); } } else { clearInterval(timer); EndCountDown(); } }, 1000); } function EndCountDown() { //refresh window.location.reload(); } /**********end PreSales***********/ function LoadPrice() { if (isshopmode == "Y") return; if (curPriceSKU != "") { var needpoint = "0"; $("#lbCurPrice").html("Loading price..."); $webUrl = "/product.ashx?function=getprice&SelectMarketID=GB&sku=" + curPriceSKU + "≤vel=" + curLevel + "&culture=" + _cluture; //$webUrl = "/product.ashx?function=getpriceAndOri&SelectMarketID=GB&sku=" + curPriceSKU + "≤vel=" + curLevel + "&culture=" + _cluture; $.get($webUrl, {}, function (data, text) { if (data != "") { if (_isPreSaleMode == "Y" || _isPreSaleMode == "X") { if(parseFloat(needpoint)>0){ var newprice = 0; $("#lbCurPrice").html(newprice.toFixed(2).toString()); } else{ $("#lbCurPrice").html($isPreSaleObject.Price.toFixed(2).toString()); } } else { var oprice = $(".Oprice").attr("oprice"); oprice = oprice.replace(",",""); data = data.replace(",",""); if (oprice != data && parseFloat(oprice) > parseFloat(data)) { $(".Oprice")[0].style.display = ""; } else { $(".Oprice")[0].style.display = "none"; } if (_isPreSaleMode == "P") { $("#lbCurPrice").html(data); } else { if(parseFloat(needpoint)>0){ $("#lbCurPrice").html(PriceFormat("0.00")) } else{ $("#lbCurPrice").html(PriceFormat(data)); } } } } } ); } } function PriceFormat(data) { if (_showMast == "Y") { var arr = data.split(""); var newdata = ""; var cindex = data.indexOf("."); if (cindex == -1) { cindex = 99; } for (var i = 0; i < arr.length; i++) { var chr = arr[i]; if (chr != ",") { if (i < (cindex - 1)) { newdata += "?"; } else { newdata += chr } } else { newdata += ","; } } return newdata; } else { return data; } } function Valiinput() { /* if (jQuery.isNumeric($(curqtyid).val()) || $(curqtyid).val() == "") { _qty = parseInt($(curqtyid).val()); } else { _qty = 1; $(curqtyid).prop("value", "1"); } */ if($(curqtyid).val() != ""){ ValiText(); } } function ValiText() { if (!jQuery.isNumeric($(curqtyid).val())) { $(curqtyid).prop("value", _qty); } else{ var newQty = parseInt($(curqtyid).val()); if( newQty>0 && newQty<=maxqty ){ _qty = newQty; } else{ $(curqtyid).prop("value", _qty); } } } function Addyqty() { _qty = parseInt($(curqtyid).val()); if(_qty < maxqty){ _qty += 1; } $(curqtyid).prop("value", _qty); } function Reduceqty() { _qty = parseInt($(curqtyid).val()); if (_qty > 1) { _qty -= 1; $(curqtyid).prop("value", _qty); } } function IsColorPanelDisplayInScreen() { var display = false; var dvTop = $("#dvProductTitle").offset().top; var docTop = $(document).scrollTop(); var screenHeight = $(window).height(); if ((dvTop - docTop) > 0 && (dvTop - docTop) < 10 && (dvTop - docTop) < screenHeight) { display = true; } return display; } function AddChart() { if (submit) return; var isPanelDispScreen = IsColorPanelDisplayInScreen(); if (_selSKU == "") { if (isPanelDispScreen == false) { $.scrollTo('#dvProductTitle', 500); } else { alert("Please choose the size"); } return; } if (_isPreSaleMode == "Y") { if (isPanelDispScreen == false) { $.scrollTo('#dvProductTitle', 500); } alert("Not to the selling time"); return; } else if (_isPreSaleMode == "X") { return; } if (isPanelDispScreen == false) { $.scrollTo('#dvProductTitle', 500); } var $webSite = ""; var customerToken = $.cookie("CustomerToken"); customerToken = "00000000-0000-0000-0000-000000000000" if (customerToken == null) { customerToken = "00000000-0000-0000-0000-000000000000"; } var machineGuid = $.cookie("MachineGuid"); machineGuid = "f8ea5a4b-92ee-4313-91a7-83b464676f3f" var isshopmode = $.cookie("isshopmode"); if (isshopmode == null) { isshopmode = "false"; } var shoptoken = $.cookie("shoptoken"); if (shoptoken == null) { shoptoken = "00000000-0000-0000-0000-000000000000"; } var src = GetWCFURL(); //_qty = 1; if (isshopmode == "true") src += "AddSaleItemTAW?machineGuid=" + machineGuid + "&shopToken=" + shoptoken + "&sku=" + _selSKU + "&qty=" + _qty.toString() + "&type="+ _FromID; else src += "AddSaleItem?machineGuid=" + machineGuid + "&customerToken=" + customerToken + "&sku=" + _selSKU + "&qty=" + _qty.toString() + "&type=" + _FromID; var $btnaddchart = $("#btnaddchart"); $btnaddchart.text("submitting..."); $btnaddchart.css("color", "#EEEEEE"); submit = true; $.support.cors = true; $.ajax({ url: src, type: "get", dataType: "jsonp", crossDomain: true, success: function (data) { var $btnaddchart = $("#btnaddchart"); var url = "/GB/en-US/ShoppingBag.aspx?addchart=Y"; window.location.href = url; $btnaddchart.text("Add to Shopping Cart"); $btnaddchart.css("color", "#FFFFFF"); submit = false; //$("#btnaddchart").text("加入购物篮"); //$("#btnaddchart").attr("style", "color:#FFFFFF"); //submit = false; } }); } var _$curmorecmmt; function loadcmt(fromid, panelid) { var $dvmorecmmt = $("#" + panelid); $dvmorecmmt.html('
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It is also noted that 600 grit wheels result in superior interfaces relative to 450 grit wheels. The interface is the location where the ground edge meets the major surface of the substrate. 600 grit wheels provide smoother interfaces. A smoother interface improves a substrate's structural integrity and results in a stronger substrate. Thus, the substrate having a smoother interface is more likely to avoid breakage during subsequent processing steps. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS4575970 *Jul 18, 1984Mar 18, 1986Kawasaki Steel CorporationMetal strip edge grinding apparatusUS5143196Dec 12, 1990Sep 1, 1992Saint Gobain Vitrage InternationalProduction of glazings on a production line comprising several workstationsUS5146715 *Nov 30, 1990Sep 15, 1992Bando Kiko Co., Ltd.Apparatus for grinding a peripheral edge of a glass sheetUS5148632Jun 14, 1991Sep 22, 1992Corning IncorporatedCavity forming in plastic bodyUS5423717Oct 4, 1993Jun 13, 1995Ford Motor CompanyGrinding wheel assemblyUS5514025 *Sep 20, 1993May 7, 1996Shin-Etsu Handotai Co. Ltd.Apparatus and method for chamfering the peripheral edge of a wafer to specular finishUS5655956May 23, 1995Aug 12, 1997University Of Illinois At Urbana-ChampaignRotary ultrasonic grinding apparatus and processUS6099385Mar 24, 1999Aug 8, 2000Ford Global Technologies, Inc.Method for removing edge areas of a laminated panelUS6196902Apr 28, 2000Mar 6, 2001Vidrio Plano De Mexico, S.A. De C.V.Apparatus for finishing the edge of a sheet of glassUS6216491Oct 5, 1993Apr 17, 2001Corning IncorporatedLcd panel productionUS6325704Jun 14, 1999Dec 4, 2001Corning IncorporatedMethod for finishing edges of glass sheetsUS6428390Jun 29, 1999Aug 6, 2002Corning IncorporatedMethod and apparatus for edge finishing glass sheetsUS6755724 *Dec 24, 2002Jun 29, 2004Lg.Philips Lcd Co., Ltd.Device for grinding liquid crystal display panelEP0601748A1Nov 26, 1993Jun 15, 1994Shin-Etsu Handotai Company LimitedApparatus for bevelling a wafer's edge* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS7241209 *Aug 13, 2004Jul 10, 2007General Electric CompanyOrbiting polishing toolUS7968482 *Jun 28, 2011Nippon Electric Glass Co., Ltd.Glass substrateUS8585467 *Oct 20, 2009Nov 19, 2013Corning IncorporatedLinear pressure feed grinding with voice coilUS8721392Jun 28, 2011May 13, 2014Corning IncorporatedGlass edge finishing methodUS8814633Oct 4, 2013Aug 26, 2014Corning IncorporatedLinear pressure feed grinding with voice coilUS9028296Aug 30, 2012May 12, 2015Corning IncorporatedGlass sheets and methods of shaping glass sheetsUS20070135026 *Aug 13, 2004Jun 14, 2007Frank WiltshireOrbiting polishing toolUS20100112910 *Oct 20, 2009May 6, 2010James William BrownLinear pressure feed grinding with voice coilUS20110021116 *Jul 24, 2009Jan 27, 2011Brown James WMethod for processing an edge of a glass plateUS20130083457 *Nov 30, 2011Apr 4, 2013Apple Inc.System and method for manufacturing a display panel or other patterned deviceUS20150174724 *Jun 11, 2013Jun 25, 2015Nippon Electric Glass Co., Ltd.Glass sheet processing apparatus and glass sheet producing methodCN100542744CFeb 3, 2007Sep 23, 2009太原风华信息装备股份有限公司Large scale liquid crystal glass edge grinding machineCN102049713A *Jul 13, 2010May 11, 2011杨福磊Horizontal single-sided linear glass edge-grinding machineCN102049713BJul 13, 2010Jan 16, 2013杨福磊Horizontal single-sided linear glass edge-grinding machine* Cited by examinerClassifications U.S. Classification451/11, 451/139, 451/236International ClassificationB24B41/06, B24B9/10, B24B41/04, B24B49/16, B24B1/00Cooperative ClassificationB24B9/102, B24B41/04, B24B41/068, B24B49/16European ClassificationB24B9/10B, B24B41/06G, B24B41/04, B24B49/16Legal EventsDateCodeEventDescriptionDec 19, 2003ASAssignmentOwner name: CORNING INCORPORATED, NEW YORKFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:ALLAIRE, ROGER A.;BROWN, JAMES W.;ONO, TOSHIHIKO;AND OTHERS;REEL/FRAME:014828/0602;SIGNING DATES FROM 20031110 TO 20031208Sep 28, 2009FPAYFee paymentYear of fee payment: 4Sep 30, 2013FPAYFee paymentYear of fee payment: 8RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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Patent US4585301 - Optically actuated optical switch apparatus and methods - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsA switch capable of switching an optical beam without employing conventional mechanical, electrical, or optical devices. The switch includes a switching medium which may be a solid, liquid, gas, or supercritical gas. A signal or switched beam is directed into and through the switching medium. In order...http://www.google.com/patents/US4585301?utm_source=gb-gplus-sharePatent US4585301 - Optically actuated optical switch apparatus and methodsAdvanced Patent SearchTry the new Google Patents, with machine-classified Google Scholar results, and Japanese and South Korean patents.Publication numberUS4585301 APublication typeGrantApplication numberUS 06/726,087Publication dateApr 29, 1986Filing dateApr 23, 1985Priority dateApr 23, 1985Fee statusLapsedPublication number06726087, 726087, US 4585301 A, US 4585301A, US-A-4585301, US4585301 A, US4585301AInventorsStephen E. BialkowskiOriginal AssigneeUtah State Universtiy FoundationExport CitationBiBTeX, EndNote, RefManPatent Citations (11), Non-Patent Citations (70), Referenced by (53), Classifications (18), Legal Events (7) External Links: USPTO, USPTO Assignment, EspacenetOptically actuated optical switch apparatus and methods Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS3408131 *Nov 13, 1963Oct 29, 1968Optics Technology IncApparatus for coupling and amplfying light between optical fibersUS3434779 *Feb 4, 1966Mar 25, 1969Bell Telephone Labor IncOptical power limiterUS3492492 *Jun 16, 1967Jan 27, 1970Bell Telephone Labor IncOptically active device with optical enhancementUS4190811 *Nov 11, 1977Feb 26, 1980Canadian Patents And Development LimitedLaser controlled optical switching in semiconductorsUS4208094 *Oct 2, 1978Jun 17, 1980Bell Telephone Laboratories, IncorporatedOptical switchUS4239330 *Oct 18, 1978Dec 16, 1980Bell Telephone Laboratories, IncorporatedMultiple optical switchUS4304460 *Mar 7, 1979Dec 8, 1981Matsushita Electric Industrial Co., Ltd.Optical switching deviceUS4352982 *Aug 21, 1980Oct 5, 1982Hughes Aircraft CompanyPhotodiode circuit using a low noise artificial load resistorUS4365862 *Jan 5, 1981Dec 28, 1982Nippon Telegraph & Telephone Public CorporationOptical switchUS4408831 *Aug 24, 1981Oct 11, 1983Kokusai Denshin Denwa Co., Ltd.Optical switchUS4455643 *Apr 2, 1982Jun 19, 1984Bell Telephone Laboratories, IncorporatedHigh speed optical switch and time division optical demultiplexer using a control beam at a linear/nonlinear interface* Cited by examinerNon-Patent CitationsReference1"Fast-Responding Photorefractive Crystals Operate at Near-Infrared Wavelengths," Laser Focus/Electro-Optics, Technology Report at 22 (1984).2"Spatial Switching System Uses Photo-Induced Holographic Gratings," Laser Focus/Electro-Optics, Technology Report at 46 (1984).3Aamodt et al., "Thermal Effects in Phothermal Spectroscopy and Photothermal Imaging," 54, Applied Physics, 581 (1983).4 *Aamodt et al., Thermal Effects in Phothermal Spectroscopy and Photothermal Imaging, 54, Applied Physics, 581 (1983).5Abraham et al., "The Optical Computer," 248, Scientific American, 85 (1983).6 *Abraham et al., The Optical Computer, 248, Scientific American, 85 (1983).7Becker et al., "Wide-Band Electrooptic Guided-Wave Analog-to-Digital Converters," 72, Proceedings of the IEEE, 802 (1984).8 *Becker et al., Wide Band Electrooptic Guided Wave Analog to Digital Converters, 72, Proceedings of the IEEE, 802 (1984).9Bialkowski, "The Effect of Mass Diffusion in Gas Phase Thermal Lens Experiments," 104, Chemical Physics Letters, 448 (1984).10 *Bialkowski, The Effect of Mass Diffusion in Gas Phase Thermal Lens Experiments, 104, Chemical Physics Letters, 448 (1984).11Bjorkholm et al., "cw Self-Focusing and Self-Trapping of Light in Sodium Vapor," 32, Physical Review Letters, 129 (1974).12 *Bjorkholm et al., cw Self Focusing and Self Trapping of Light in Sodium Vapor, 32, Physical Review Letters, 129 (1974).13Bray et al., "Chapter 36: State of the Art of the Optical Logic Element," 673 (n.d.).14 *Bray et al., Chapter 36: State of the Art of the Optical Logic Element, 673 (n.d.).15Brooks, "Micromechanical Light Modulators on Silicon," 24, Optical Engineering, 101 (1985).16 *Brooks, Micromechanical Light Modulators on Silicon, 24, Optical Engineering, 101 (1985).17Clymer, "Optical Computer Switching Network," 24, Optical Engineering, 74 (1985).18 *Clymer, Optical Computer Switching Network, 24, Optical Engineering, 74 (1985).19 *Cooke Yarborough, Chapter 18: A Proposed Opto Electronic Method of Achieving Very Fast Digital Logic, 321 (n.d.).20Cooke-Yarborough, "Chapter 18: A Proposed Opto-Electronic Method of Achieving Very Fast Digital Logic," 321 (n.d.).21Fang et al., "The Thermal Lens in Absorbent Spectroscopy," Ultrasensitive Laser Spectroscopy at 175 (1983).22 *Fang et al., The Thermal Lens in Absorbent Spectroscopy, Ultrasensitive Laser Spectroscopy at 175 (1983).23 *Fast Responding Photorefractive Crystals Operate at Near Infrared Wavelengths, Laser Focus/Electro Optics, Technology Report at 22 (1984).24Fork, "Physics of Optical Switching," 26, The American Physical Society, 2049 (1982).25 *Fork, Physics of Optical Switching, 26, The American Physical Society, 2049 (1982).26Freese, "Symposium: Optics Along the Rio Grande Research Corridor," at 55 (1985).27 *Freese, Symposium: Optics Along the Rio Grande Research Corridor, at 55 (1985).28Glass, "The Photorefractive Effect," 17, Optical Engineering, 470 (1978).29 *Glass, The Photorefractive Effect, 17, Optical Engineering, 470 (1978).30Goldhar, "Beam Deflecting Optical Switch Using Volumetric Thermal Gratings", 23, Applied Optics, 113 (1984).31 *Goldhar, Beam Deflecting Optical Switch Using Volumetric Thermal Gratings , 23, Applied Optics, 113 (1984).32Jackson et al., "Photothermal Deflection Spectroscopy and Detection," 20, Applied Optics, 1333 (1981).33 *Jackson et al., Photothermal Deflection Spectroscopy and Detection, 20, Applied Optics, 1333 (1981).34Kaplan, "Theory of Plane Wave Reflection and Refraction by the Nonlinear Interface," Optical Bistability at 447 (1981).35 *Kaplan, Theory of Plane Wave Reflection and Refraction by the Nonlinear Interface, Optical Bistability at 447 (1981).36Keyes, "Thermal Limitations in Optical Logic," 8, Applied Optics, 2549 (1969).37 *Keyes, Thermal Limitations in Optical Logic, 8, Applied Optics, 2549 (1969).38Kosonocky, "Chapter 16: Laser Digital Devices," 269 (n.d.).39 *Kosonocky, Chapter 16: Laser Digital Devices, 269 (n.d.).40Lea, "Optical Modulators Based on Electrocapillarity," 465, Spatial Light Modulators and Applications, 12 (1984).41 *Lea, Optical Modulators Based on Electrocapillarity, 465, Spatial Light Modulators and Applications, 12 (1984).42Loiseaux et al., "Dynamic Optical Cross-Correlator Using a Liquid Crystal Light Valve and a Bismuth Silicon Oxide Crystal in the Fourier Plane," 24, Optical Engineering, 144 (1985).43 *Loiseaux et al., Dynamic Optical Cross Correlator Using a Liquid Crystal Light Valve and a Bismuth Silicon Oxide Crystal in the Fourier Plane, 24, Optical Engineering, 144 (1985).44Long et al., "Pulsed Infrared Laser Thermal Lens Spectrophotometric Determination of Trace-Level Gas-Phase Analytes: Quantitation of Parts per Billion Dichlorodifluoromethane," 56, Analytical Chemistry, 2806 (1984).45 *Long et al., Pulsed Infrared Laser Thermal Lens Spectrophotometric Determination of Trace Level Gas Phase Analytes: Quantitation of Parts per Billion Dichlorodifluoromethane, 56, Analytical Chemistry, 2806 (1984).46Morimoto et al., "A Picosecond Optical Gate Using Photo-Induced Grating", Jap. Journal of Applied Physics, vol. 20, #6, 6-1981, pp. 1129-1133.47 *Morimoto et al., A Picosecond Optical Gate Using Photo Induced Grating , Jap. Journal of Applied Physics, vol. 20, 6, 6 1981, pp. 1129 1133.48Moslehi et al., "Fiber-Optic Lattice Signal Processing," 72, Proceedings of the IEEE, 909 (1984).49 *Moslehi et al., Fiber Optic Lattice Signal Processing, 72, Proceedings of the IEEE, 909 (1984).50Nicholaisen et al., "Pulsed Infrared Laser Thermal Lens Spectrophotometry of Flowing Gas Samples," 57, Analytical Chemistry, 758 (1985).51 *Nicholaisen et al., Pulsed Infrared Laser Thermal Lens Spectrophotometry of Flowing Gas Samples, 57, Analytical Chemistry, 758 (1985).52Optical Society of America, "Topical Meeting on Optical Computing," Optics News at 29 (1985).53 *Optical Society of America, Topical Meeting on Optical Computing, Optics News at 29 (1985).54Payghambarian et al., "Optical Bistability for Optical Signal Processing and Computing," 24, Optical Engineering, 68 (1985).55 *Payghambarian et al., Optical Bistability for Optical Signal Processing and Computing, 24, Optical Engineering, 68 (1985).56Petts et al., "A Real-Time Optical Image Processing System," 465, Spatial Light Modulators and Applications, 129 (1984).57 *Petts et al., A Real Time Optical Image Processing System, 465, Spatial Light Modulators and Applications, 129 (1984).58Rousset et al., "Influence of Radiative and Convective Transfers in a Photothermal Experiment," 56, J. Applied Physics, 2093 (1984).59 *Rousset et al., Influence of Radiative and Convective Transfers in a Photothermal Experiment, 56, J. Applied Physics, 2093 (1984).60Sawchuk et al., "Digital Optical Computing," 72, Proceedings of the IEEE, 758 (1984).61 *Sawchuk et al., Digital Optical Computing, 72, Proceedings of the IEEE, 758 (1984).62Schroeder et al., "Single Grating Integrated Optical Autocorrelation Device," 465, Spatial Light Modulators and Applications, 135 (1984).63 *Schroeder et al., Single Grating Integrated Optical Autocorrelation Device, 465, Spatial Light Modulators and Applications, 135 (1984).64Smith et al., "Optical Properties of Nonlinear Interfaces," Optical Bistability at 463 (1981).65 *Smith et al., Optical Properties of Nonlinear Interfaces, Optical Bistability at 463 (1981).66 *Spatial Switching System Uses Photo Induced Holographic Gratings, Laser Focus/Electro Optics, Technology Report at 46 (1984).67Tanguay, "Materials Requirements for Optical Processing and Computing Devices," 24, Optical Engineering, 2 (1985).68 *Tanguay, Materials Requirements for Optical Processing and Computing Devices, 24, Optical Engineering, 2 (1985).69Williams et al., "Optical Switching and n2 Measurements in CS2," 50, Optics Communications, 256 (1984).70 *Williams et al., Optical Switching and n 2 Measurements in CS 2 , 50, Optics Communications, 256 (1984).* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS4673257 *Jun 19, 1985Jun 16, 1987Avco CorporationMethod of and apparatus for correction of laser beam phase front aberrationsUS4714902 *Jun 17, 1985Dec 22, 1987Avco Everett Research Laboratory, Inc.Gaseous non linear dispersion laser beam controlUS4768864 *Jan 21, 1986Sep 6, 1988Hughes Aircraft CompanyLiquid-crystal-based optical power limiterUS4772785 *Nov 24, 1987Sep 20, 1988The United States Of America As Repesented By The Administrator, National Aeronautics And Space AdministrationDynamic range compression/expansion of light beams by photorefractive crystalsUS4863230 *May 26, 1987Sep 5, 1989British Telecommunications Public Limited CompanyOptically controlled selectorUS4877312 *Dec 8, 1987Oct 31, 1989Thomson-CsfBistable optical photorefractive crystal deviceUS4940333 *Nov 14, 1988Jul 10, 1990Anthony R. TorresMethod and apparatus for detecting universally and selectively concentration gradients, and for deflecting a light beam in a controlled fashionUS4958921 *Sep 19, 1986Sep 25, 1990The United States Of America As Represented By The United States Department Of EnergyLight-driven phase shifterUS5037169 *Feb 20, 1990Aug 6, 1991Unisys CorporationHigh speed low loss optical switch for optical communication systemsUS5098207 *Feb 9, 1990Mar 24, 1992Minnesota Mining And Manufacturing CompanyOptical fiber switchUS5121249 *Apr 11, 1990Jun 9, 1992Fellows William GFiber optic computational network utilizing optical and/or gate employing non-linear organic polymers and photovoltaic/piezoelectric optical interfacesUS5126874 *Jul 11, 1990Jun 30, 1992Alfano Robert RMethod and apparatus for creating transient optical elements and circuitsUS5216535 *Jun 17, 1991Jun 1, 1993Fellows William GOptical deflection deviceUS5270852 *Aug 14, 1991Dec 14, 1993Hamamatsu Photonics K.K.Optical shutter-cameraUS5396368 *Jan 14, 1985Mar 7, 1995Rockwell International CorporationFlexible rejection filter (U)US5422969 *Aug 6, 1991Jun 6, 1995Adc Telecommunications, Inc.Optical switchUS5463704 *May 16, 1994Oct 31, 1995Adc Telecommunications, Inc.Fiber optic switchUS6034883 *Jan 29, 1998Mar 7, 2000Tinney; Charles E.Solid state director for beamsUS6108231 *Dec 30, 1999Aug 22, 2000Tinney; Charles E.Solid state director for beamsUS6246496Jun 15, 1998Jun 12, 2001The United States Of America As Represented By The Secretary Of The Air ForcePhotorefractive device for controlling information flowUS6288822Jan 9, 2001Sep 11, 2001Teloptics CorporationDiscrete element light modulating microstructure devicesUS6297899Apr 26, 2000Oct 2, 2001Teloptics CorporationDiscrete element light modulating microstructure devicesUS6310712Oct 29, 1997Oct 30, 2001Teloptics CorporationDiscrete element light modulating microstructure devicesUS6381060Nov 5, 1999Apr 30, 2002Teloptics CorporationTotal internal reflection light modulating microstructure devicesUS6383956 *Aug 20, 2001May 7, 2002Ultratech Stepper, Inc.Method of forming thermally induced reflectivity switch for laser thermal processingUS6486996Oct 27, 1998Nov 26, 2002Teloptics CorporationsDiscrete element light modulating microstructure devicesUS6539132Feb 22, 2001Mar 25, 2003Gennadii IvtsenkovAcousto-optical switch for fiber optic linesUS6614574Apr 29, 2002Sep 2, 2003Teloptics CorporationTotal internal reflection light modulating microstructure devicesUS6635588 *Feb 19, 2002Oct 21, 2003Ultratech Stepper, Inc.Method for laser thermal processing using thermally induced reflectivity switchUS6643054Jan 22, 2002Nov 4, 2003Carl-Zeiss-StiftungBeam deflector, switching system comprising beam deflectors as well as method for selectively coupling terminals for optical signalsUS6684003 *Apr 3, 2001Jan 27, 2004Massachusetts Institute Of TechnologyAll optical switch for optical integrated circuitsUS6768572May 7, 2002Jul 27, 2004Teloptics CorporationSolid state free space switch array on a substrateUS6816296May 6, 2002Nov 9, 2004Teloptics CorporationOptical switching network and network node and method of optical switchingUS6963677 *Nov 25, 2003Nov 8, 2005Lockheed Martin Corp.Optical memory and logic using cross-switchesUS7215491Sep 11, 2003May 8, 2007National Institute Of Advanced Industrial Science And TechnologyOptical path switching device and methodUS7244031Jul 8, 2004Jul 17, 2007Hewlett-Packard Development Company, L.P.Light source arrangementUS7826696Feb 21, 2007Nov 2, 2010Dainichiseika Color & Chemicals Mfg. Co., Ltd.Optical deflection method and optical deflection apparatusUS8208770 *Jun 2, 2010Jun 26, 2012Dainichiseika Color & Chemicals Mfg. Co., Ltd.Optical deflection method and optical deflection apparatusUS20050248844 *Sep 11, 2003Nov 10, 2005National Institute Of Advanced Industrial ScienceOptical path switching device and methodUS20060007683 *Jul 8, 2004Jan 12, 2006Hewlett-Packard Development Company, L.P.Light source arrangementUS20090022453 *Feb 21, 2007Jan 22, 2009Dainichiseika Color & Chemicals Mfg. Co., LtdOptical Deflection Method and Optical Deflection ApparatusUS20100245960 *Jun 2, 2010Sep 30, 2010Dainichiseika Color & Chemicals Mfg. Co., Ltd.Optical deflection method and optical deflection apparatusCN100389360CSep 11, 2003May 21, 2008独立行政法人产业技术综合研究所;大日精化工业株式会社Optical path switching device and methodCN100588284CMar 14, 2005Feb 3, 2010大日精化工业株式会社Optically controlled optical-path-switching-type data distribution apparatus and distribution methodEP0468794A2 *Jul 25, 1991Jan 29, 1992Hamamatsu Photonics K.K.Optical apparatusEP0468794B1 *Jul 25, 1991Apr 17, 1996Hamamatsu Photonics K.K.Optical apparatusEP0468795A2 *Jul 25, 1991Jan 29, 1992Hamamatsu Photonics K.K.Pulse laserEP0468795A3 *Jul 25, 1991Sep 16, 1992Hamamatsu Photonics K.K.Pulse laserEP0472345A2 *Aug 13, 1991Feb 26, 1992Hamamatsu Photonics K.K.Optical shutter for cameraEP0472345A3 *Aug 13, 1991Jun 10, 1992Hamamatsu Photonics K.K.Optical shutter for cameraWO2004027508A1Sep 11, 2003Apr 1, 2004National Institute Of Advanced Industrial Science And TechnologyOptical path switching device and methodWO2007099979A1 *Feb 21, 2007Sep 7, 2007Dainichiseika Color & Chemicals Mfg. Co., Ltd.Optical deflection method and optical deflection apparatusWO2015140342A1 *Mar 23, 2015Sep 24, 2015Fundació Institut De Ciències FotòniquesAdaptive photothermal lens* Cited by examinerClassifications U.S. Classification359/243International ClassificationG02F1/29, G02F1/01, G02F3/00, G02B6/35Cooperative ClassificationG02B6/3524, G02F1/293, G02F1/0147, G02B6/3576, G02B6/3526, G02F3/00, G02B6/3598, G02B6/3544European ClassificationG02B6/35E6L, G02F1/29L, G02F3/00, G02B6/35P4T, G02B6/35E6Legal EventsDateCodeEventDescriptionApr 23, 1985ASAssignmentOwner name: UTAH STATE UNIVERSITY FOUNDATION, UTAH STATE UNIVEFree format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:BIALKOWSKI, STEPHEN E.;REEL/FRAME:004404/0469Effective date: 19850419Aug 12, 1986CCCertificate of correctionOct 2, 1989FPAYFee paymentYear of fee payment: 4Dec 8, 1993REMIMaintenance fee reminder mailedJan 10, 1994REMIMaintenance fee reminder mailedMay 1, 1994LAPSLapse for failure to pay maintenance feesJul 12, 1994FPExpired due to failure to pay maintenance feeEffective date: 19940501RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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Floor 3rd to 5th, No.297 Sec. 5, Zhongxiao East Road, Xinyi District, Taipei 11066, Taiwan Vis på kart 11066信義區忠孝東路五段297號3~5樓 {"BOOKING_FEATURES": ["IB_PRICES_OUTSIDE_ROOM_BUTTON","IB_STREAMLINED_SELECTED_ROOM","IB_HIDE_MSNBC_LARGEST_SITE_QUOTE","IB_SHOW_EMAIL_FOR_INSECURE_LOGIN","VISA_SPONSORSHIP_WEB","IB_EXIT_INTERRUPTER","RCMS_INLINE_ROOM_GRID_MAX_OCC","IB_SHOW_AMENITIES_AS_ICONS","IB_POST_BOOKING_LOGIN","IB_IRG_PERFORMANCE_METRICS","IB_IRG_MATCH_META","META_AIR","CHILDREN_SEARCH","IB_INLINE_ROOM_GRID","IB_TIME_OF_STAY_PAYMENT_TYPES_V3","IB_DW_CCNAME_WITH_AUTOCOMPLETE","IB_IRG_PERFORMANCE_METRICS_MOBILE","IBEX_HIGH_EQUITY_BRANDING","IB_PRICE_WINS_POST_TX","IB_BOOKING_FORM_FAVICON","STORED_CARDS","IB_PRICE_WINS_COPY","IB_URGENCY_BLOCK"] , "IMPRESSION_KEY": "41c6cbcdf88e4fcaae6d473a0feffc0f", "roomSelectionModel": {"partnerInfos":[],"multiplePartners":false,"polling":{"locationId":2017239,"bookingSessionId":null,"detailedAvailabilityKey":null,"commerceContentIds":[79873834],"additionalContentIds":[],"pollCount":0,"checkin":{"day":1,"month":4,"year":2018},"checkout":{"day":2,"month":4,"year":2018},"adults":2,"child_rm_ages":"","rooms":1,"display_rooms":300,"entryPrice":158,"entryCurrency":"USD","complete":false,"formKey":"","showAllRooms":true,"genNewBookingSessionId":false,"winningProviderAtClick":"","selectedRoomKey":"","impressionKey":"41c6cbcdf88e4fcaae6d473a0feffc0f","navArea":null,"referringServlet":"Hotel_Review","highestMetaPrice":0,"lowestMetaPrice":158,"additionalPartner":false,"highestMetaPriceDisplay":0,"roomsToVerify":[],"clazz":null},"summary":null,"unavailable":false,"metaOffers":[],"mismatchCheckModel":null,"totalMediaCount":0,"hotelPhotos":[],"noticeHeaderMessage":null,"moreProviders":null,"lowestPricePartner":null,"showAllRooms":true,"isMetaCheaper":false,"isBookingLessThanOrEqualToMeta":null,"avgHistoricalPrice":0.0,"avgHistoricalDisplayPrice":null,"expressBookState":{"hasFullTravelerInfo":false,"hasReducedBillingInfo":false,"hasFullBillingInfo":false},"highestMetaPrice":-1,"lowestMetaPrice":158,"highestMetaPriceDisplay":-1,"hotelName":"Tango HOUSE","hasSpecialTimeOfStayTaxes":false,"trackingTree":null,"trackingTreeId":null,"showPriceHoverTooltip":true,"trackingContext":"eyJzdGF0ZSI6IkhPVEVMX0FVQ1RJT04iLCJwIjoiSFJfTWFpbkNvbW1lcmNlIiwiaWRzIjp7IkJGSyI6IjQxYzZjYmNkZjg4ZTRmY2FhZTZkNDczYTBmZWZmYzBmIiwiQUlLIjoiZTVmOWFjZmRkYzQ4NGQzMmFjMGU3MzVmZWNkNzE5M2QifSwiZW50cnlTZXJ2bGV0IjoiSG90ZWxfUmV2aWV3In0=","cheaperPricesExist":false,"enableLPF":false,"priceDropPercent":0,"canExpandRooms":false,"expandRoomsToAllPartners":false,"roomSelectionKey":null,"useSupplierDirectTreatment":false,"isSupplierDirect":false,"showProviderSeparator":false,"clazz":null,"seeMoreMessage":null,"seeMoreIFrameMessage":null,"isPricelineCom":false,"isPriceDrawerEnabled":false,"isMetaMarketingLandOnBookingFormEnabled":false}, "ibAvailability": true, "metaAvailability": true, "topOfferIsIB": false, "numHacTries": 1, "checkIn": "01/04/2018", "checkOut": "02/04/2018", "lowestPrice": "USD 158", "hasDates": true, "hacComplete": false, "contentIdMappings": {"79873834":"AgodaIB"}, "pollingEnabled": false, "preventScroll": false, "offerClickToken": null, "conditionalUpdate": false, "mightGetRooms": true, "divClasses": "ppr_rup ppr_priv_resp_hr_room_grid", "singlePartnerRoomGridWidget": {"containerClass":null,"containerAttributes":null,"widget":{"name":"ibex_room_grid_responsive","template":"ibex_room_grid_responsive__widget","moduleList":["handlers","tracking"],"divClasses":"prw_rup prw_ibex_room_grid_responsive","js":{"handlers":"(ta.prwidgets.getjs(this,'handlers'))","tracking":"(ta.prwidgets.getjs(this,'tracking'))"},"dust":{"sub_header":"ibex_room_grid_responsive__sub_header"}},"scriptFlags":null}, "multiPartnerRoomGridWidget": null, "mismatchMessage": {"containerClass":null,"containerAttributes":null,"widget":{"name":"ibex_mismatch_message","template":"ibex_mismatch_message__widget","moduleList":["handler"],"divClasses":"prw_rup prw_ibex_mismatch_message","js":{"handler":"(ta.prwidgets.getjs(this,'handler'))"},"dust":{}},"scriptFlags":null}, "maxRoomsToShow": 300, "isTablet": false, "roomGridRowWidget": {"containerClass":null,"containerAttributes":null,"widget":{"name":"ibex_room_grid_row_responsive","template":"ibex_room_grid_row_responsive__widget","moduleList":[],"divClasses":"prw_rup prw_ibex_room_grid_row_responsive","js":{},"dust":{"amenities":"ibex_room_grid_row_responsive__amenities","occupancy":"ibex_room_grid_row_responsive__occupancy","condition_col":"ibex_room_grid_row_responsive__condition_col","price_text":"ibex_room_grid_row_responsive__price_text","reservation_col":"ibex_room_grid_row_responsive__reservation_col"}},"scriptFlags":null}, "mismatchMessageLightbox": null, "deviceInfo": "OtherOS OtherBrowser", "bookOnTripAdvisor": "Bestill på <img class=\"ibHeaderImg\" alt=\"TripAdvisor\" src=\"https:\/\/static.tacdn.com\/img2\/branding\/rebrand\/TA_logo_primary.png\"\/>"}
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Breakfast / Brunch / Chinese / Desserts / Dinner / Gurney Drive / Lunch / Meals / Penang Food / Penang Hawker Food / Penang Island / Restaurants / Supper / Type of Eateries / Type of Food Tasty Congee @ Noodle Wantun Soup 正斗粥面专家 @ Gurney Paragon Mall, Gurney Drive, Penang! Penangnites are blessed to have another big name in the international F&B industry coming to open their 1st overseas branch in Southeast Asia. Using a simple name, Tasty Congee & Noodle Wantun Shop or more commonly known as 正斗 among its patrons, many shoppers will mistake it as another simple and normal-looking Chinese restaurant. It is actually a recipient of Michelin one star and also Bib Gourmand (this award is for restaurants that offer exceptional good food at reasonable prices) for 7 freaking consecutive years, 2009 – 2015, to be exact. That’s awesome, we would say! 😛 So, how does this one-star Michelin restaurant fares? Let’s check it out! 🙂
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A meta catalog for digitized works → 2 thoughts on “UC Next Generation Technical Services Initiative” Pingback: 加州大学新一代技术服务计划 » 编目精灵III Heather Jardine September 26, 2011 at 8:33 pm While I’m not opposed to the concept of “good enough” – in fact, I am quite in favour – I think there are a couple of difficulties. The first is with your starting point, “If we know which elements do what in OPACs or discovery systems…” – and the problem is that this changes over time. For example, it is only a few years ago that OPACs didn’t do much with the fixed fields and it was a reasonable saving to stop checking or entering them. Now OPACs are mining them for all sorts of useful stuff, and our records from a few years back are lacking or just plain wrong. The second thing I’d take issue with, is the omission of notes and statements of responsibility because it doesn’t severely harm “the user’s ability to find and locate resources”. No – but it does harm the user’s ability to select between different resources, to identify what s/he has found. We are all getting used to finding LOTS of information on the Internet, and adding lots of enrichment to bib records (tables of content, cover images, reviews and recommendations) and this is becoming the norm rather than the exception. Leaving stuff out goes against expectations.
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Patent US5417235 - Integrated microvalve structures with monolithic microflow controller - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsMicromachined microvalves are held both open and closed electrostatically to maintain uniform gas microflow and improve closure characteristics. A microflow controller containing such a valve is combined with a predetermined restricted flow path. Multiple valve/restrictive flow path combinations are...http://www.google.ca/patents/US5417235?utm_source=gb-gplus-sharePatent US5417235 - Integrated microvalve structures with monolithic microflow controllerAdvanced Patent SearchPublication numberUS5417235 APublication typeGrantApplication numberUS 08/098,738Publication date23 May 1995Filing date28 Jul 1993Priority date28 Jul 1993Fee statusLapsedPublication number08098738, 098738, US 5417235 A, US 5417235A, US-A-5417235, US5417235 A, US5417235AInventorsKensall D. Wise, Janet K. Robertson, Jin JiOriginal AssigneeRegents Of The University Of MichiganExport CitationBiBTeX, EndNote, RefManPatent Citations (6), Non-Patent Citations (16), Referenced by (265), Classifications (22), Legal Events (6) External Links: USPTO, USPTO Assignment, EspacenetIntegrated microvalve structures with monolithic microflow controller Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS4815472 *1 Jun 198728 Mar 1989The Regents Of The University Of MichiganMultipoint pressure-sensing catheter systemUS5082242 *27 Dec 198921 Jan 1992Ulrich BonneElectronic microvalve apparatus and fabricationUS5149673 *19 Sep 199122 Sep 1992Cornell Research Foundation, Inc.Selective chemical vapor deposition of tungsten for microdynamic structuresUS5161774 *17 May 199010 Nov 1992Robert Bosch GmbhMicrovalveUS5176358 *8 Aug 19915 Jan 1993Honeywell Inc.Microstructure gas valve controlUS5180623 *2 Jan 199119 Jan 1993Honeywell Inc.Electronic microvalve apparatus and fabrication* Cited by examinerNon-Patent CitationsReference1C. H. Mastrangelo et al., "A Dry Release Method Based on Polymer Columns for Microstructure Fabrication," Proc. IRE, Microelectromechanical Systems, MEMS Conference, pp. 77-81, Fort Lauderdale, Fla. (1993)-IEEE Catalog #93CH3265-6.2C. H. Mastrangelo et al., "A Simple Experimental Technique for the Measurement of the Work Adhesion of Microstructures," IEEE Sensor and Actuator Workshop, pp. 208-212, Hilton Head, S.C. Jun. 1992, IEEE Catalog #920-7803-0456-X.3 *C. H. Mastrangelo et al., A Dry Release Method Based on Polymer Columns for Microstructure Fabrication, Proc. IRE, Microelectromechanical Systems, MEMS Conference, pp. 77 81, Fort Lauderdale, Fla. (1993) IEEE Catalog 93CH3265 6.4 *C. H. Mastrangelo et al., A Simple Experimental Technique for the Measurement of the Work Adhesion of Microstructures, IEEE Sensor and Actuator Workshop, pp. 208 212, Hilton Head, S.C. Jun. 1992, IEEE Catalog 920 7803 0456 X.5K. Kendall, "Adhesion and Surface Energy of Elastic Solids," J. Phys. D.; Appl. Phys., v 4, pp. 1186-1195 (1971).6 *K. Kendall, Adhesion and Surface Energy of Elastic Solids, J. Phys. D.; Appl. Phys., v 4, pp. 1186 1195 (1971).7K. L. Johnson et al., "Surface Energy and the Contact of Elastic Solids," Proc. R. Soc. London A., v 324, pp. 301-313 (1971).8 *K. L. Johnson et al., Surface Energy and the Contact of Elastic Solids, Proc. R. Soc. London A., v 324, pp. 301 313 (1971).9R. L. Alley et al., "The Effect of Release-Etch Processing on Surface Microstructure Stiction," IEEE Sensor and Actuator Workshop, pp. 202-207, Hilton Head, S.C., Jun. 1992, IEEE Catalog #92TH0403.10 *R. L. Alley et al., The Effect of Release Etch Processing on Surface Microstructure Stiction, IEEE Sensor and Actuator Workshop, pp. 202 207, Hilton Head, S.C., Jun. 1992, IEEE Catalog 92TH0403.11S. T. Cho et al., "An Ultrasensitive Silicon Pressure-Based Flowmeter," IEDM,v 89, pp. 499-502 (1989) IEEE Catalog #89CH2637-7.12S. T. Cho et al., "CMOS Integrated Circuits and Silicon Micromachining," Technical Report No. 203, Solid State Electronics Laboratory, University of Michigan, Ann Arbor (Feb. 1992).13 *S. T. Cho et al., An Ultrasensitive Silicon Pressure Based Flowmeter, IEDM ,v 89, pp. 499 502 (1989) IEEE Catalog 89CH2637 7.14 *S. T. Cho et al., CMOS Integrated Circuits and Silicon Micromachining, Technical Report No. 203, Solid State Electronics Laboratory, University of Michigan, Ann Arbor (Feb. 1992).15T. Ohnstein et al., "Micromachined Silicon Microvalve," Proc. IRE, Microeletromechanical Systems, MEMS Conference, pp. 95-98, Napa Valley, Calif. 1990, IEEE Catalog #90CH2832-4.16 *T. Ohnstein et al., Micromachined Silicon Microvalve, Proc. IRE, Microeletromechanical Systems, MEMS Conference, pp. 95 98, Napa Valley, Calif. 1990, IEEE Catalog 90CH2832 4.* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS5640995 *14 Mar 199524 Jun 1997Baxter International Inc.Electrofluidic standard module and custom circuit board assemblyUS5643247 *26 May 19941 Jul 1997Mayo Foundation For Medical Education And ResearchMicroparticle switching devices for use in implantable reservoirsUS5810325 *25 Jun 199622 Sep 1998Bcam International, Inc.MicrovalveUS5824204 *27 Jun 199620 Oct 1998Ic Sensors, Inc.Micromachined capillary electrophoresis deviceUS5955659 *13 Jan 199821 Sep 1999Massachusetts Institute Of TechnologyElectrostatically-actuated structures for fluid property measurements and related methodsUS5967488 *29 May 199819 Oct 1999Redlich; Robert WalterElectrically actuated reed valveUS6048328 *2 Feb 199811 Apr 2000Medtronic, Inc.Implantable drug infusion device having an improved valveUS6089534 *8 Jan 199818 Jul 2000Xerox CorporationFast variable flow microelectromechanical valvesUS6116863 *29 May 199812 Sep 2000University Of CincinnatiElectromagnetically driven microactuated device and method of making the sameUS6167910 *14 Jan 19992 Jan 2001Caliper Technologies Corp.Multi-layer microfluidic devicesUS622165423 Sep 199724 Apr 2001California Institute Of TechnologyMethod and apparatus for analysis and sorting of polynucleotides based on sizeUS62305013 May 199915 May 2001Promxd Technology, Inc.Ergonomic systems and methods providing intelligent adaptive surfaces and temperature controlUS6237619 *1 Oct 199729 May 2001Westonbridge International LimitedMicro-machined device for fluids and method of manufactureUS6247493 *9 Mar 200019 Jun 2001Richard C. HendersonMiniature pulsatile flow controllerUS63217914 Oct 200027 Nov 2001Caliper Technologies Corp.Multi-layer microfluidic devicesUS63443258 Feb 20005 Feb 2002California Institute Of TechnologyMethods for analysis and sorting of polynucleotidesUS6349740 *8 Apr 199926 Feb 2002Abbott LaboratoriesMonolithic high performance miniature flow control unitUS635053718 Dec 199826 Feb 2002Aer Energy Resources, Inc.Load responsive air door for an electrochemical cellUS636129424 Feb 199926 Mar 2002Air Energy Resources Inc.Ventilation system for an enclosureUS63936859 Jun 199828 May 2002The Regents Of The University Of CaliforniaMicrojoinery methods and devicesUS647565818 Dec 19985 Nov 2002Aer Energy Resources, Inc.Air manager systems for batteries utilizing a diaphragm or bellowsUS64942308 Jun 200117 Dec 2002Caliper Technologies Corp.Multi-layer microfluidic devicesUS649480420 Jun 200017 Dec 2002Kelsey-Hayes CompanyMicrovalve for electronically controlled transmissionUS6495944 *18 Apr 200117 Dec 2002International Business Machines CorporationElectrostatic microactuator with viscous liquid dampingUS6512300 *10 Jan 200128 Jan 2003Raytheon CompanyWater level interconnectionUS65235604 Jun 199925 Feb 2003General Electric CorporationMicrovalve with pressure equalizationUS65333661 Feb 200018 Mar 2003Kelsey-Hayes CompanyVehicle hydraulic braking systems incorporating micro-machined technologyUS654020328 Mar 20021 Apr 2003Kelsey-Hayes CompanyPilot operated microvalve deviceUS654089521 May 19991 Apr 2003California Institute Of TechnologyMicrofabricated cell sorter for chemical and biological materialsUS658164016 Aug 200024 Jun 2003Kelsey-Hayes CompanyLaminated manifold for microvalveUS659500612 Feb 200222 Jul 2003Technology Applications, Inc.Miniature reciprocating heat pumps and enginesUS6633079 *10 Sep 200214 Oct 2003Raytheon CompanyWafer level interconnectionUS66480153 Oct 200218 Nov 2003Caliper Technologies Corp.Multi-layer microfluidic devicesUS666041818 May 20009 Dec 2003Aer Energy Resources, Inc.Electrical device with removable enclosure for electrochemical cellUS666665831 Jul 200223 Dec 2003Ngk Insulators, Ltd.Microfluidic pump deviceUS6682318 *17 Jun 200227 Jan 2004Ngk Insulators, Ltd.PumpUS669499831 Jul 200124 Feb 2004Kelsey-Hayes CompanyMicromachined structure usable in pressure regulating microvalve and proportional microvalveUS670225617 Jul 20019 Mar 2004Agilent Technologies, Inc.Flow-switching microdeviceUS67529661 Sep 200022 Jun 2004Caliper Life Sciences, Inc.Microfabrication methods and devicesUS675915914 Jun 20006 Jul 2004The Gillette CompanySynthetic jet for admitting and expelling reactant airUS676142018 Dec 200113 Jul 2004Ge NovasensorProportional micromechanical deviceUS67677065 Jun 200127 Jul 2004California Institute Of TechnologyIntegrated active flux microfluidic devices and methodsUS682491512 Jun 200030 Nov 2004The Gillette CompanyAir managing systems and methods for gas depolarized power supplies utilizing a diaphragmUS68332424 Apr 200121 Dec 2004California Institute Of TechnologyMethods for detecting and sorting polynucleotides based on sizeUS684596222 Mar 200025 Jan 2005Kelsey-Hayes CompanyThermally actuated microvalve deviceUS684596823 Feb 200425 Jan 2005Agilent Technologies, Inc.Flow-switching microdeviceUS685744930 Sep 200322 Feb 2005Caliper Life Sciences, Inc.Multi-layer microfluidic devicesUS6858541 *5 Aug 200222 Feb 2005Honeywell International, Inc.Etch stop control for MEMS device formationUS691611316 May 200312 Jul 2005Agilent Technologies, Inc.Devices and methods for fluid mixingUS696473613 Dec 200115 Nov 2005California Institute Of TechnologyMethod and apparatus for analysis and sorting of polynucleotides based on sizeUS699411524 Jan 20057 Feb 2006Kelsey-Hayes CompanyThermally actuated microvalve deviceUS701137818 Dec 200114 Mar 2006Ge Novasensor, Inc.Proportional micromechanical valveUS7025324 *3 Jan 200311 Apr 2006Massachusetts Institute Of TechnologyGating apparatus and method of manufactureUS709806528 Sep 200429 Aug 2006Stmicroelectronics, Inc.Integrated lid formed on MEMS deviceUS710397719 Aug 200312 Sep 2006Eveready Battery Company, Inc.Razor having a microfluidic shaving aid delivery system and method of ejecting shaving aidUS7104517 *30 Jun 200012 Sep 2006Gyros Patent AbPolymer valvesUS7124773 *6 Jun 200324 Oct 2006Abb Research Ltd.Mems pilot valveUS715636527 Jul 20042 Jan 2007Kelsey-Hayes CompanyMethod of controlling microvalve actuatorUS719502612 Dec 200327 Mar 2007American Air Liquide, Inc.Micro electromechanical systems for delivering high purity fluids in a chemical delivery systemUS7195393 *31 May 200227 Mar 2007Rochester Institute Of TechnologyMicro fluidic valves, agitators, and pumps and methods thereofUS721192310 Nov 20031 May 2007Nth Tech CorporationRotational motion based, electrostatic power source and methods thereofUS721429813 Aug 20018 May 2007California Institute Of TechnologyMicrofabricated cell sorterUS721742828 May 200415 May 2007Technology Innovations LlcDrug delivery apparatus utilizing cantileverUS721758224 Aug 200415 May 2007Rochester Institute Of TechnologyMethod for non-damaging charge injection and a system thereofUS7243903 *15 Jul 200517 Jul 2007Wincek Christopher PValve diaphragm with a compression restraining ring, and valve including sameUS72617337 Jun 200228 Aug 2007Endovascular Technologies, Inc.Endovascular graft with sensors design and attachment methodsUS728001412 Mar 20029 Oct 2007Rochester Institute Of TechnologyMicro-electro-mechanical switch and a method of using and making thereofUS728732824 Aug 200430 Oct 2007Rochester Institute Of TechnologyMethods for distributed electrode injectionUS729450314 Sep 200113 Nov 2007California Institute Of TechnologyMicrofabricated crossflow devices and methodsUS7296592 *16 Sep 200320 Nov 2007Eksigent Technologies, LlcComposite polymer microfluidic control deviceUS7309056 *26 Mar 200418 Dec 2007Smc Kabushiki KaishaDual pedestal shut-off valveUS7320338 *3 Jun 200522 Jan 2008Honeywell International Inc.Microvalve package assemblyUS7320457 *5 Mar 200322 Jan 2008Sri InternationalElectroactive polymer devices for controlling fluid flowUS7343796 *20 Mar 200618 Mar 2008Invacare CorporationFluidic demand apparatus and MEMS flow sensor for use thereinUS735137628 Nov 20001 Apr 2008California Institute Of TechnologyIntegrated active flux microfluidic devices and methodsUS7357369 *8 Sep 200415 Apr 2008Nidec Sankyo CorporationDamper deviceUS73673597 Mar 20056 May 2008Kelsey-Hayes CompanyProportional micromechanical valveUS737877512 Nov 200327 May 2008Nth Tech CorporationMotion based, electrostatic power source and methods thereofUS739931327 May 200315 Jul 2008Brown Peter SEndovascular graft with separable sensorsUS74082361 Mar 20075 Aug 2008Nth TechMethod for non-damaging charge injection and system thereofUS7445017 *28 Jan 20054 Nov 2008Honeywell International Inc.Mesovalve modulatorUS7494555 *20 Sep 200424 Feb 2009California Institute Of TechnologyMicrofabricated elastomeric valve and pump systemsUS7510533 *11 Apr 200531 Mar 2009Codman & Shurtleff, Inc.Pressure sensing valveUS753719729 Jul 200726 May 2009Sri InternationalElectroactive polymer devices for controlling fluid flowUS7569049 *13 Jan 20044 Aug 2009Advanced Neuromodulation Systems, Inc.Multi-stable valves for medical applications and methods for use thereofUS762208124 Nov 2009California Institute Of TechnologyIntegrated active flux microfluidic devices and methodsUS767047121 Oct 20052 Mar 2010California Institute Of TechnologyMethod and apparatus for analysis and sorting of polynucleotides based on sizeUS770374215 Apr 200927 Apr 2010Sri InternationalElectroactive polymer devices for controlling fluid flowUS780328115 Feb 200528 Sep 2010Microstaq, Inc.Selective bonding for forming a microvalveUS783370816 Nov 2010California Institute Of TechnologyNucleic acid amplification using microfluidic devicesUS784200431 Oct 200730 Nov 2010Codman & Shurtleff, Inc.Wireless pressure setting indicatorUS786769418 Oct 200711 Jan 2011Ab Sciex LlcComposite polymer microfluidic control deviceUS79188005 Apr 2011Endovascular Technologies, Inc.Aneurysm sensing devices and delivery systemsUS797185025 Mar 20105 Jul 2011Sri InternationalElectroactive polymer devices for controlling fluid flowUS80029332 Nov 200723 Aug 2011California Institute Of TechnologyMicrofabricated elastomeric valve and pump systemsUS80113886 Sep 2011Microstaq, INCThermally actuated microvalve with multiple fluid portsUS811348212 Aug 200814 Feb 2012DunAn MicrostaqMicrovalve device with improved fluid routingUS81238346 Oct 200628 Feb 2012The Board Of Trustees Of The University Of IllinoisHigh gain selective metal organic framework preconcentratorsUS812384118 Dec 200828 Feb 2012The Board Of Trustees Of The University Of IllinoisColumn design for micro gas chromatographUS81291765 Aug 20096 Mar 2012California Institute Of TechnologyIntegrated active flux microfluidic devices and methodsUS8151814 *13 Jan 200910 Apr 2012Asm Japan K.K.Method for controlling flow and concentration of liquid precursorUS815290818 Dec 200810 Apr 2012The Board Of Trustees Of The University Of IllinoisMicromachined gas chromatography columns for fast separation of Organophosphonate and Organosulfur compounds and methods for deactivating sameUS81543897 Apr 200910 Apr 2012Endotronix, Inc.Wireless sensor readerUS8156827 *17 Apr 2012Murata Manufacturing Co., Ltd.External force detection deviceUS815696214 Dec 200717 Apr 2012Dunan Microstaq, Inc.Microvalve deviceUS81730018 May 2012California Institute Of TechnologyMethod and apparatus for analysis and sorting of polynucleotides based on sizeUS8183650 *8 Apr 201022 May 2012Pixart Imaging Inc.MEMS device and MEMS spring elementUS819236617 Feb 20095 Jun 2012Codman & Shurtleff, Inc.Method for measuring ventricular pressure using a pressure sensing valveUS82525398 Oct 200728 Aug 2012California Institute Of TechnologyMicrofabricated crossflow devices and methodsUS82576668 Feb 20124 Sep 2012California Institute Of TechnologyIntegrated active flux microfluidic devices and methodsUS82690298 Apr 200918 Sep 2012The Board Of Trustees Of The University Of IllinoisWater repellent metal-organic frameworks, process for making and uses regarding sameUS82825669 Oct 2012Codman & Shurtleff, Inc.Pressure sensing valveUS838765928 Mar 20085 Mar 2013Dunan Microstaq, Inc.Pilot operated spool valveUS838882222 Mar 20125 Mar 2013California Institute Of TechnologyMethod and apparatus for analysis and sorting of polynucleotides based on sizeUS839334429 Sep 200912 Mar 2013Dunan Microstaq, Inc.Microvalve device with pilot operated spool valve and pilot microvalveUS844521021 May 2013California Institute Of TechnologyMicrofabricated crossflow devices and methodsUS84545244 Jun 2013DePuy Synthes Products, LLCWireless flow sensorUS848061231 Oct 20079 Jul 2013DePuy Synthes Products, LLCWireless shunts with storageUS848663616 Nov 201016 Jul 2013California Institute Of TechnologyNucleic acid amplification using microfluidic devicesUS849318719 Mar 201023 Jul 2013Endotronix, Inc.Wireless sensor readerUS852858923 Mar 201010 Sep 2013Raindance Technologies, Inc.Manipulation of microfluidic dropletsUS853588911 Feb 201117 Sep 2013Raindance Technologies, Inc.Digital analyte analysisUS85402074 Dec 200924 Sep 2013Dunan Microstaq, Inc.Fluid flow control assemblyUS857984727 Oct 201012 Nov 2013Codman & Shurtleff, Inc.Wireless pressure setting indicatorUS858130817 Feb 200512 Nov 2013Rochester Institute Of TechnologyHigh temperature embedded charge devices and methods thereofUS859221529 Sep 201126 Nov 2013California Institute Of TechnologyMicrofabricated crossflow devices and methodsUS859222118 Apr 200826 Nov 2013Brandeis UniversityManipulation of fluids, fluid components and reactions in microfluidic systemsUS859381123 Sep 201126 Nov 2013Dunan Microstaq, Inc.Method and structure for optimizing heat exchanger performanceUS86280551 May 200714 Jan 2014The Board Of Trustees Of The University Of IllinoisBi-direction rapid action electrostatically actuated microvalveUS865836718 May 201225 Feb 2014California Institute Of TechnologyMicrofabricated crossflow devices and methodsUS865836818 May 201225 Feb 2014California Institute Of TechnologyMicrofabricated crossflow devices and methodsUS865841813 Jul 200925 Feb 2014Fluidigm CorporationMicrofluidic particle-analysis systemsUS865843020 Jul 201225 Feb 2014Raindance Technologies, Inc.Manipulating droplet sizeUS86624689 Jul 20094 Mar 2014Dunan Microstaq, Inc.Microvalve deviceUS87720466 Feb 20088 Jul 2014Brandeis UniversityManipulation of fluids and reactions in microfluidic systemsUS884107131 May 201223 Sep 2014Raindance Technologies, Inc.Sample multiplexingUS88646662 May 201321 Oct 2014DePuy Synthes Products, LLCWireless flow sensorUS88707682 May 201328 Oct 2014DePuy Synthes Products, LLCWireless flow sensor methodsUS88714444 Dec 201228 Oct 2014Medical Research CouncilIn vitro evolution in microfluidic systemsUS88714462 Oct 200328 Oct 2014California Institute Of TechnologyMicrofluidic nucleic acid analysisUS889458225 Jan 200825 Nov 2014Endotronix, Inc.Cardiac pressure monitoring deviceUS892579330 Oct 20126 Jan 2015Dunan Microstaq, Inc.Method for making a solder jointUS89367642 Jul 201320 Jan 2015California Institute Of TechnologyNucleic acid amplification using microfluidic devicesUS895688426 Jan 201117 Feb 2015Dunan Microstaq, Inc.Process for reconditioning semiconductor surface to facilitate bondingUS899614126 Aug 201131 Mar 2015Dunan Microstaq, Inc.Adaptive predictive functional controllerUS900684426 Jan 201114 Apr 2015Dunan Microstaq, Inc.Process and structure for high temperature selective fusion bondingUS90123907 Aug 200721 Apr 2015Raindance Technologies, Inc.Fluorocarbon emulsion stabilizing surfactantsUS90176233 Jun 201428 Apr 2015Raindance Technologies, Inc.Manipulation of fluids and reactions in microfluidic systemsUS902908310 Oct 200512 May 2015Medical Research CouncilVitro evolution in microfluidic systemsUS90686994 Nov 201330 Jun 2015Brandeis UniversityManipulation of fluids, fluid components and reactions in microfluidic systemsUS907424211 Feb 20117 Jul 2015Raindance Technologies, Inc.Digital analyte analysisUS914061331 Jul 201222 Sep 2015Zhejiang Dunan Hetian Metal Co., Ltd.Superheat sensorUS915085216 Feb 20126 Oct 2015Raindance Technologies, Inc.Compositions and methods for molecular labelingUS91866433 Dec 201217 Nov 2015Medical Research CouncilIn vitro evolution in microfluidic systemsUS91883754 Dec 201317 Nov 2015Zhejiang Dunan Hetian Metal Co., Ltd.Control element and check valve assemblyUS919505822 Mar 201224 Nov 2015Parker-Hannifin CorporationElectroactive polymer actuator lenticular systemUS920481231 Oct 20078 Dec 2015DePuy Synthes Products, LLCWireless pressure sensing shuntsUS922822912 Mar 20135 Jan 2016Raindance Technologies, Inc.Digital analyte analysisUS923118630 Mar 20105 Jan 2016Parker-Hannifin CorporationElectro-switchable polymer film assembly and use thereofUS927330827 Sep 20121 Mar 2016Raindance Technologies, Inc.Selection of compartmentalized screening methodUS93054569 Apr 20135 Apr 2016Endotronix, Inc.Wireless sensor readerUS93283445 Feb 20133 May 2016Raindance Technologies, Inc.Microfluidic devices and methods of use in the formation and control of nanoreactorsUS936480310 Feb 201214 Jun 2016Raindance Technologies, Inc.Methods for forming mixed dropletsUS936663219 Apr 201314 Jun 2016Raindance Technologies, Inc.Digital analyte analysisUS938333714 Jan 20135 Jul 2016California Institute Of TechnologyMethod and apparatus for analysis and sorting of polynucleotides based on sizeUS939979730 Apr 201226 Jul 2016Raindance Technologies, Inc.Digital analyte analysisUS940481515 Sep 20152 Aug 2016Zhejiang Dunan Hetian Metal Co., Ltd.Superheat sensor having external temperature sensorUS941015126 Mar 20149 Aug 2016Raindance Technologies, Inc.Microfluidic devices and methods of use in the formation and control of nanoreactorsUS94253839 Aug 201123 Aug 2016Parker-Hannifin CorporationMethod of manufacturing electroactive polymer transducers for sensory feedback applicationsUS20020005354 *13 Aug 200117 Jan 2002California Institute Of TechnologyMicrofabricated cell sorterUS20020053532 *13 Dec 20019 May 2002California Institute Of TechnologyMethod and apparatus for analysis and sorting of polynucleotides based on sizeUS20020131228 *12 Mar 200219 Sep 2002Potter Michael D.Micro-electro-mechanical switch and a method of using and making thereofUS20020182091 *31 May 20025 Dec 2002Potter Michael D.Micro fluidic valves, agitators, and pumps and methods thereofUS20030002994 *7 Mar 20022 Jan 2003Johnson A. DavidThin film shape memory alloy actuated flow controllerUS20030214199 *5 Mar 200320 Nov 2003Sri International, A California CorporationElectroactive polymer devices for controlling fluid flowUS20030229388 *7 Jun 200211 Dec 2003Hayashi Reid K.Endovascular graft with pressure, temperature, flow and voltage sensorsUS20040078986 *19 Aug 200329 Apr 2004Eveready Battery Company, Inc.Razor having a microfluidic shaving aid delivery system and method of ejecting shaving aidUS20040145271 *12 Nov 200329 Jul 2004Potter Michael DElectrostatic based power source and methods thereofUS20040164265 *23 Feb 200426 Aug 2004Kevin KilleenFlow-switching microdeviceUS20040199238 *27 May 20037 Oct 2004Brown Peter S.Endovascular graft wih separable sensorsUS20040224380 *11 Dec 200311 Nov 2004Fluidigm Corp.Microfluidic particle-analysis systemsUS20040228212 *16 May 200318 Nov 2004De Goor Tom VanDevices and methods for fluid mixingUS20040248167 *15 Mar 20049 Dec 2004Quake Stephen R.Integrated active flux microfluidic devices and methodsUS20050044955 *24 Aug 20043 Mar 2005Potter Michael D.Methods for distributed electrode injection and systems thereofUS20050056321 *16 Sep 200317 Mar 2005Rehm Jason E.Composite polymer microfluidic control deviceUS20050076670 *8 Sep 200414 Apr 2005Seiichiro NoritakeDamper deviceUS20050112882 *20 Sep 200426 May 2005California Institute Of TechnologyMicrofabricated elastomeric valve and pump systemsUS20050121090 *24 Jan 20059 Jun 2005Hunnicutt Harry A.Thermally actuated microvalve deviceUS20050123947 *13 Aug 20049 Jun 2005California Institute Of TechnologyMethods and systems for molecular fingerprintingUS20050156129 *7 Mar 200521 Jul 2005General Electric CompanyProportional micromechanical valveUS20050205966 *17 Feb 200522 Sep 2005Potter Michael DHigh Temperature embedded charge devices and methods thereofUS20050211301 *26 Mar 200429 Sep 2005Redwood Microsystems, IncDual pedestal shut-off valveUS20050257835 *6 Jun 200324 Nov 2005Ole-Morten MidtgardMems pilot valveUS20050265991 *28 May 20041 Dec 2005Jack TuszynskiDrug delivery apparatus utilizing cantileverUS20060022160 *27 Jul 20042 Feb 2006Fuller Edward NMethod of controlling microvalve actuatorUS20060065961 *28 Sep 200430 Mar 2006Stmicroelectronics, Inc.Integrated lid formed on mems deviceUS20060162443 *20 Mar 200627 Jul 2006Drummond Colin KFluidic demand apparatus and MEMS flow sensor for use thereinUS20060169326 *28 Jan 20053 Aug 2006Honyewll International Inc.Mesovalve modulatorUS20060171855 *3 Feb 20053 Aug 2006Hongfeng YinDevices,systems and methods for multi-dimensional separationUS20060200220 *4 May 20067 Sep 2006Brown Peter SEndovascular graft with sensors design and attachment methodsUS20060211944 *11 Apr 200521 Sep 2006Codman & Shurtleff, Inc.Pressure sensing devicesUS20060211945 *11 Apr 200521 Sep 2006Codman & Shurtleff, Inc.Pressure sensing methodsUS20060211946 *11 Apr 200521 Sep 2006Codman & Shurtleff, Inc.Pressure sensing valveUS20060219637 *29 Mar 20055 Oct 2006Killeen Kevin PDevices, systems and methods for liquid chromatographyUS20060272718 *3 Jun 20057 Dec 2006Honeywell International Inc.Microvalve package assemblyUS20060289825 *15 Jul 200528 Dec 2006Wincek Christopher PValve diaphragm with a compression restraining ring, and valve including sameUS20070023719 *26 Jul 20061 Feb 2007Shannon Mark ABi-direction rapid action electrostatically actuated microvalveUS20070074731 *5 Oct 20055 Apr 2007Nth Tech CorporationBio-implantable energy harvester systems and methods thereofUS20070128055 *11 Sep 20067 Jun 2007Lee J KDiaphragm pump for medical applicationsUS20070152776 *1 Mar 20075 Jul 2007Nth Tech CorporationMethod for non-damaging charge injection and system thereofUS20070172362 *13 Mar 200726 Jul 2007Fuller Edward NMicrovalve device suitable for controlling a variable displacement compressorUS20070251586 *30 Mar 20071 Nov 2007Fuller Edward NElectro-pneumatic control valve with microvalve pilotUS20070272309 *15 Sep 200429 Nov 2007Rehm Jason EComposite Polymer Microfludic Control DeviceUS20070289941 *15 Feb 200520 Dec 2007Davies Brady RSelective Bonding for Forming a MicrovalveUS20080038674 *18 Oct 200714 Feb 2008Rehm Jason EComposite Polymer Microfluidic Control DeviceUS20080042084 *25 Feb 200521 Feb 2008Edward Nelson FullerHybrid Micro/Macro Plate ValveUS20080047622 *30 Mar 200728 Feb 2008Fuller Edward NThermally actuated microvalve with multiple fluid portsUS20080149869 *1 May 200726 Jun 2008Shannon Mark ABi-direction rapid action electrostatically actuated microvalveUS20080210322 *2 Nov 20074 Sep 2008California Institute Of TechnologyMicrofabricated elastomeric valve and pump systemsUS20080214983 *31 Mar 20084 Sep 2008Codman & Shurtleff, Inc.Pressure sensing valveUS20080245985 *29 Jul 20079 Oct 2008Sri InternationalElectroactive polymer devices for controlling fluid flowUS20080281212 *14 Mar 200813 Nov 2008Nunez Anthony ITransseptal monitoring deviceUS20090035838 *8 Oct 20075 Feb 2009California Institute Of TechnologyMicrofabricated Crossflow Devices and MethodsUS20090054793 *25 Jan 200826 Feb 2009Nunez Anthony ICardiac pressure monitoring deviceUS20090057789 *5 Aug 20085 Mar 2009Long-Sun HuangPackage structure for micro-sensorUS20090107233 *31 Oct 200730 Apr 2009Codman Shurleff, Inc.Wireless Flow SensorUS20090112103 *31 Oct 200730 Apr 2009Codman & Shurtleff, Inc.Wireless Pressure Sensing ShuntsUS20090112147 *31 Oct 200730 Apr 2009Codman Shurleff, Inc.Wireless Pressure Setting IndicatorUS20090123300 *11 Jan 200614 May 2009Alumina Micro LlcSystem and method for controlling a variable displacement compressorUS20090156960 *17 Feb 200918 Jun 2009Codman & Shurtleff, Inc.Pressure sensing valveUS20090189741 *7 Apr 200930 Jul 2009Endotronix, Inc.Wireless sensor readerUS20090200501 *15 Apr 200913 Aug 2009Sri InternationalElectroactive polymer devices for controlling fluid flowUS20090211452 *18 Dec 200827 Aug 2009The Regents Of The University Of IllinoisMicromachined Gas Chromatography Columns For Fast Separation of Organophosphonate and Organosulfur Compounds and Methods for Deactivating SameUS20090217997 *4 May 20063 Sep 2009Alan FeinermanThin welded sheets fluid pathwayUS20090241694 *13 Mar 20091 Oct 2009Murata Manufacturing Co., Ltd.Method for manufacturing external force detection device and external force detection deviceUS20100019177 *14 Dec 200728 Jan 2010Luckevich Mark SMicrovalve deviceUS20100075123 *8 Apr 200925 Mar 2010University of Illinois - Office of Technology ManagementWater repellent metal-organic frameworks, process for making and uses regarding sameUS20100120018 *5 Aug 200913 May 2010California Institute Of TechnologyIntegrated Active Flux Microfluidic Devices and MethodsUS20100132547 *6 Oct 20063 Jun 2010Masel Richard IHigh gain selective metal organic framework preconcentratorsUS20100171954 *8 Jul 2010California Institute Of TechnologyMethod and Apparatus for Analysis and Sorting of Polynucleotides Based on SizeUS20100176322 *25 Mar 201015 Jul 2010Sri InternationalElectroactive polymer devices for controlling fluid flowUS20100178423 *15 Jul 2010Asm Japan K.K.Method for controlling flow and concentration of liquid precursorUS20100308974 *19 Mar 20109 Dec 2010Rowland Harry DWireless sensor readerUS20110024852 *8 Apr 20103 Feb 2011Pixart Imaging Inc.Mems device and mems spring elementUS20110073188 *30 Sep 200931 Mar 2011Marcus Michael AMicrovalve for control of compressed fluidsUS20110127455 *9 Jul 20092 Jun 2011Microstaq, Inc.Improved Microvalve DeviceUS20110213413 *1 Sep 2011Endovascular Technologies, Inc.Aneurysm sensing devices and delivery systemsUS20110229872 *22 Sep 2011California Institute Of TechnologyMicrofabricated Cell SorterCN100467921C *6 Jun 200311 Mar 2009Abb研究有限公司MEMS Pilot ValveDE10227593B4 *20 Jun 20028 May 2008Agilent Technologies, Inc. (n.d.Ges.d. Staates Delaware), Santa ClaraStr�mungsschaltungs-MikrobauelementeDE10243699A1 *20 Sep 20021 Apr 2004Festo Ag & Co.Method of making electronic drive microvalve, has multiple layers, one of which form support for microchipDE10243699B4 *20 Sep 20025 Jan 2005Festo Ag & Co.Verfahren zur Herstellung eines MikroventilsDE10243997A1 *21 Sep 20021 Apr 2004Festo Ag & Co.Micro-valve has an electrostatically activated flap insulated from a pierced sheet having inlet and outlet openingsDE10243997B4 *21 Sep 200225 May 2005Festo Ag & Co.Mikroventil in MehrschichtaufbauEP0955473A129 Apr 199910 Nov 1999Festo AG &amp; CoValve arrayEP1640334A2 *26 Sep 200529 Mar 2006SGS-THOMSON MICROELECTRONICS, INC. (a Delaware corp.)An integrated lid formed on mems deviceEP2299256A214 Sep 200123 Mar 2011California Institute Of TechnologyMicrofabricated crossflow devices and methodsWO1996028664A1 *26 Jan 199619 Sep 1996Baxter International Inc.Electrofluidic standard module and custom circuit board assemblyWO1998005871A1 *2 Aug 199712 Feb 1998Gasw�rme-Institut e.V.Valve arrangementWO1999058859A1 *29 Apr 199918 Nov 1999Festo Ag & Co.Microvalve batteryWO1999063258A1 *21 May 19999 Dec 1999Redlich Robert WElectrically actuated reed valveWO2001067048A2 *9 Mar 200113 Sep 2001Henderson Richard CMiniature pulsatile flow controllerWO2001067048A3 *9 Mar 20017 Mar 2002Richard C HendersonMiniature pulsatile flow controllerWO2004058425A2 *19 Dec 200315 Jul 2004L'air Liquide - Societe Anonyme A Directoire Et Conseil De Surveillance Pour L'etude Et L'exploitation Des Procedes Georges ClaudeMicro electromechanical systems for delivering high purity fluids in a chemical delivery systemWO2004058425A3 *19 Dec 200330 Sep 2004Air LiquideMicro electromechanical systems for delivering high purity fluids in a chemical delivery system* Cited by examinerClassifications U.S. Classification137/1, 251/368, 251/129.06, 251/129.01International ClassificationF15C5/00, B01J19/00, F16K99/00Cooperative ClassificationF16K99/0007, F15C5/00, F16K2099/008, F16K99/0001, F16K2099/0082, Y10T137/0318, F16K2099/0086, B01J19/0093, F16K2099/0074, F16K99/0051European ClassificationF16K99/00M2B2, F16K99/00M4C10, F15C5/00, B01J19/00R, F16K99/00MLegal EventsDateCodeEventDescription4 Oct 1993ASAssignmentOwner name: REGENTS OF THE UNIVERSITY OF MICHIGAN, THE, MICHIGFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:WISE, KENSALL D.;ROBERTSON, JANET K.;JI, JIN;REEL/FRAME:006815/0402;SIGNING DATES FROM 19930917 TO 1993092320 Nov 1998FPAYFee paymentYear of fee payment: 422 Nov 2002FPAYFee paymentYear of fee payment: 86 Dec 2006REMIMaintenance fee reminder mailed23 May 2007LAPSLapse for failure to pay maintenance fees10 Jul 2007FPExpired due to failure to pay maintenance feeEffective date: 20070523RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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Patent US6806235 - Lubricants for drilling fluids - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inPatentsA process for imparting lubricity to an aqueous drilling fluid used in geological exploration involving: (a) providing an aqueous drilling fluid; (b) providing a lubricant component containing a partial glyceride of predominantly unsaturated fatty acids having from about 16 to 24 carbon atoms; and (c)...http://www.google.com/patents/US6806235?utm_source=gb-gplus-sharePatent US6806235 - Lubricants for drilling fluidsAdvanced Patent SearchTry the new Google Patents, with machine-classified Google Scholar results, and Japanese and South Korean patents.Publication numberUS6806235 B1Publication typeGrantApplication numberUS 09/856,082PCT numberPCT/EP1999/008532Publication dateOct 19, 2004Filing dateNov 6, 1999Priority dateNov 17, 1998Fee statusPaidAlso published asCA2351376A1, CA2351376C, DE19852971A1, EP1137736A1, EP1137736B1, WO2000029502A1Publication number09856082, 856082, PCT/1999/8532, PCT/EP/1999/008532, PCT/EP/1999/08532, PCT/EP/99/008532, PCT/EP/99/08532, PCT/EP1999/008532, PCT/EP1999/08532, PCT/EP1999008532, PCT/EP199908532, PCT/EP99/008532, PCT/EP99/08532, PCT/EP99008532, PCT/EP9908532, US 6806235 B1, US 6806235B1, US-B1-6806235, US6806235 B1, US6806235B1InventorsHeinz Mueller, Claus-Peter Herold, Frank Bongardt, Nadja Herzog, Stephan von TapaviczaOriginal AssigneeCognis Deutschland Gmbh & Co. KgExport CitationBiBTeX, EndNote, RefManPatent Citations (41), Non-Patent Citations (11), Referenced by (65), Classifications (5), Legal Events (6) External Links: USPTO, USPTO Assignment, EspacenetLubricants for drilling fluids Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS3979305 *Dec 11, 1974Sep 7, 1976Union Oil Company Of CaliforniaLow fluid loss additive compositionUS3989632 *Jan 9, 1975Nov 2, 1976Union Oil Company Of CaliforniaMethod of conducting drilling operationsUS4192753 *Mar 7, 1978Mar 11, 1980Union Oil Company Of CaliforniaWell completion and workover fluid having low fluid lossUS4409108 *Jun 2, 1980Oct 11, 1983Halliburton CompanyLubricating composition for well fluidsUS4964615May 25, 1988Oct 23, 1990Henkel Kommanditgesellschaft Auf AktienCompositions for freeing jammed drill pipesUS5194422May 7, 1990Mar 16, 1993Henkel Kommanditgesellschaft Auf AktienUse of selected oleophilic alcohols in water-based drilling fluids of the o/w-emulsion type and corresponding drilling fluids with improved ecological acceptabilityUS5232910Sep 6, 1991Aug 3, 1993Henkel Kommanditgesellschaft Auf AktienUse of selected ester oils in drilling fluids and mudsUS5250204Jun 1, 1992Oct 5, 1993The Lubrizol CorporationSulfite overbased products and processUS5252554Jan 21, 1992Oct 12, 1993Henkel Kommanditgesellschaft Auf AktienDrilling fluids and muds containing selected ester oilsUS5318954Jun 29, 1993Jun 7, 1994Henkel Kommanditgesellschaft Auf AktienUse of selected ester oils of low carboxylic acids in drilling fluidsUS5318956 *Apr 29, 1993Jun 7, 1994Henkel Kommanditgesellschaft Auf AktienUse of selected ester oils in water-based drilling fluids of the O/W emulsion type and corresponding drilling fluids with improved ecological acceptabilityUS5348938Mar 29, 1990Sep 20, 1994Henkel Kommanditgesellschaft Auf AktienOleophilic alcohols as a constituent of invert drilling fluidsUS5403822May 27, 1993Apr 4, 1995Henkel Kommanditgesellschaft Auf AktienEsters of carboxylic acids of medium chain-length as a component of the oil phase in invert drilling mudsUS5441927Nov 9, 1994Aug 15, 1995Henkel Kommanditgesellschaft Auf AktienFluid drill-hole treatment agents based on polycarboxylic acid diestersUS5461028May 29, 1991Oct 24, 1995Henkel Kommanditgesellschaft Auf AktienFluid-drill-hole treatment agents based on carbonic acid diestersUS5869434Jun 6, 1995Feb 9, 1999Henkel Kommanditgesellschaft Auf AktienFree-flowing borehole servicing preparations containing linear α-olefins, more patricularly corresponding drilling fluidsUS6022833Sep 18, 1997Feb 8, 2000Henkel Kommanditgesellschaft Auf AktienMulticomponent mixtures for use in geological explorationUS6211119Nov 10, 1997Apr 3, 2001Henkel Kommanditgesellschaft Auf AktienMultiphase lubricant concentrates for use in water based systems in the field of exploratory soil drillingAU717973A Title not availableDE3419415A1May 24, 1984Nov 28, 1985Hans SchurProduction of lubricants, mould oils and drilling emulsions from environmentally friendly raw materialsDE19643840A1Oct 30, 1996May 7, 1998Henkel KgaaVerbesserte Mehrkomponentengemische f�r den Erdreichaufschlu�DE19647598A1Nov 18, 1996May 20, 1998Henkel KgaaVerwendung ausgew�hlter Fettalkohole und ihrer Abmischungen mit Carbons�ureestern als Schmiermittelkomponente in wasserbasierten Bohrsp�lsystem zum Erdreichaufschlu�EP0324887A2Mar 11, 1988Jul 26, 1989Henkel Kommanditgesellschaft auf AktienCompositions for freeing stuck drill pipesEP0374671A1Dec 11, 1989Jun 27, 1990Henkel Kommanditgesellschaft auf AktienUse of selected ester oils in drilling fluids, especially for off-shore oil or gas recoveryEP0374672A1Dec 11, 1989Jun 27, 1990Henkel Kommanditgesellschaft auf AktienUse of selected fatty esters in drilling fluids, especially in offshore oil or gas recoveryEP0386636A1Mar 1, 1990Sep 12, 1990Henkel Kommanditgesellschaft auf AktienEsters of medium chain size carboxylie acids as components of the oil phase of invert emulsion drilling fluidsEP0386638A1Mar 1, 1990Sep 12, 1990Henkel Kommanditgesellschaft auf AktienUse of selected lower carboxylic-acid ester oils in drilling fluidsEP0391252A1Mar 29, 1990Oct 10, 1990Henkel Kommanditgesellschaft auf AktienOleophilic alcohols as components of invert-emulsion drilling fluidsEP0472558A1May 7, 1990Mar 4, 1992Henkel KgaaThe use of selected oleophilic alcohols in water-based drilling fluids of the o/w emulsion type and corresponding drilling fluids with improved ecological acceptability.EP0532570A1May 29, 1991Mar 24, 1993Henkel KgaaFree-flowing drill hole treatment agents based on carbonic acid diesters.EP0535074A1Jun 7, 1991Apr 7, 1993Henkel KgaaFluid borehole-conditioning agent based on polycarboxylic acid esters.EP0625563A1Mar 15, 1994Nov 23, 1994Calgene Chemical, Inc.Polyglycerol esters as functional fluids and functional fluid modifiersEP0652271A1Nov 10, 1994May 10, 1995Baker-Hughes IncorporatedWell fluid additiveEP0656414A2Nov 2, 1994Jun 7, 1995The Lubrizol CorporationSulfurized fatty acid or ester and olefin mixtures, lubricants, and methods of making the sameEP0770661A1Oct 28, 1996May 2, 1997B W Mud LimitedLubricant for drilling mudGB2283036A Title not availableWO1990014402A1May 7, 1990Nov 29, 1990Henkel Kommanditgesellschaft Auf AktienUse of selected ester oils in water-based drilling fluids of the o/w emulsion type and corresponding drilling fluids with improved ecological acceptabilityWO1995030818A1May 4, 1995Nov 16, 1995Baker Hughes IncorporatedSpotting fluid and lubricantWO1995034610A1Jun 6, 1995Dec 21, 1995Henkel Kommanditgesellschaft Auf AktienLinear alpha-olefin-containing fluid bore-hole treatment agents, in particular corresponding bore-hole flushing agentsWO1998022551A1Nov 10, 1997May 28, 1998Henkel Kommanditgesellschaft Auf AktienUse of selected fatty alcohols and their mixtures with carboxylic acid esters as lubricant components in water-based drilling fluid systems for soil explorationWO1998022552A1Nov 10, 1997May 28, 1998Henkel Kommanditgesellschaft Auf AktienMultiphase lubricant concentrates for use in water based systems in the field of exploratory soil drilling* Cited by examinerNon-Patent CitationsReference1"Petroleum Oils; Determination of Pour Point," ISO 3016, pp. 1-5, Deutsche Norm, Alleinverkauf der Normen durch Beuth Verlag GmbH, Berlin, (Oct. 1982).2Agenda for the seminar on "The Prevention of Oil Discharge from Drilling Operations," held in public in Aberdeen on Jun. 18-19, 1996 (organized by IBC Technical Services, London).3Bennett, R.B., "New Drilling Fluid Technology-Mineral Oil Mud," Journal of Petroleum Technology, pp. 975-981, 1984.4Bourgoyne, et al., "Applied Drilling Engineering," Second Printing Society of Petroleum Engineers, Richardson, Texas (USA) (not enclosed-reciting entire handbook).5Boyd et al. "New Base Oil Used in Low-Toxicity Oil Muds," Journal of Petroleum Technology, pp. 137-142, 1985.6George R. Gray and H. C. H. Darley, "Composition and Properties of Oil Well Drilling Fluids", 4th Edition, 1980/81, Gulf Publishing Company Houston (not enclosed-reciting entire book).7M. Eigner, "Field Trials with Silicate Base Mud: A New Water Base Mud System", pp. 1-12, Prepared for the 1996 Conference on Prevention of Oil Discharge to the Sea, held in public in Aberdeen on Jun. 18-19, 1996 (organized by IBC Technical Services, London).8R�mpp Chemie Lexikon, 9<th >Edition, vol. 6, p. 4484, Georg Thieme Verlag, Stuttgart, (1992).9R�mpp Chemie Lexikon, 9th Edition, vol. 6, p. 4484, Georg Thieme Verlag, Stuttgart, (1992).10Ward, et al., "Silicate Water Based Muds-A Significant Advance in Water Based Drilling Fluid Technology," pp. 1-17, Prepared for the Conference on the Prevention of Oil Discharge from Drillng Operations, held in public in Aberdeen on Jun. 18-19, 1996 (organized by IBC Technical Services, London).11Ward, et al., "Silicate Water Based Muds—A Significant Advance in Water Based Drilling Fluid Technology," pp. 1-17, Prepared for the Conference on the Prevention of Oil Discharge from Drillng Operations, held in public in Aberdeen on Jun. 18-19, 1996 (organized by IBC Technical Services, London).Referenced byCiting PatentFiling datePublication dateApplicantTitleUS6994173 *May 19, 2003Feb 7, 2006Act Technologies, Inc.Method of drilling a boreholeUS7256162 *Sep 26, 2003Aug 14, 2007Arizona Chemical CompanyFatty acid esters and uses thereofUS7311158Dec 30, 2004Dec 25, 2007Halliburton Energy Services, Inc.Silicate-containing additives for well bore treatments and associated methodsUS7601677 *Oct 13, 2009Daniel GraiverTriglyceride based lubricantUS7648946Nov 17, 2004Jan 19, 2010Halliburton Energy Services, Inc.Methods of degrading filter cakes in subterranean formationsUS7662753May 12, 2005Feb 16, 2010Halliburton Energy Services, Inc.Degradable surfactants and methods for useUS7666820Sep 9, 2003Feb 23, 2010Emery Oleochemicals GmbhBorehole treatment agent containing low-toxic oil phaseUS7674753Dec 5, 2006Mar 9, 2010Halliburton Energy Services, Inc.Treatment fluids and methods of forming degradable filter cakes comprising aliphatic polyester and their use in subterranean formationsUS7686080Mar 30, 2010Halliburton Energy Services, Inc.Acid-generating fluid loss control additives and associated methodsUS7700525Sep 23, 2009Apr 20, 2010Halliburton Energy Services, Inc.Orthoester-based surfactants and associated methodsUS7713916Sep 22, 2005May 11, 2010Halliburton Energy Services, Inc.Orthoester-based surfactants and associated methodsUS7727936Aug 10, 2007Jun 1, 2010Halliburton Energy Services, Inc.Acidic treatment fluids comprising xanthan and associated methodsUS7727937Aug 10, 2007Jun 1, 2010Halliburton Energy Services, Inc.Acidic treatment fluids comprising xanthan and associated methodsUS7741248Jul 20, 2004Jun 22, 2010Emery Oleochemicals GmbhBorehole treating substance containing ether carboxylic acidsUS7825073Aug 10, 2007Nov 2, 2010Halliburton Energy Services, Inc.Treatment fluids comprising clarified xanthan and associated methodsUS7829507Nov 9, 2010Halliburton Energy Services Inc.Subterranean treatment fluids comprising a degradable bridging agent and methods of treating subterranean formationsUS7833943Nov 16, 2010Halliburton Energy Services Inc.Microemulsifiers and methods of making and using sameUS7833944Nov 16, 2010Halliburton Energy Services, Inc.Methods and compositions using crosslinked aliphatic polyesters in well bore applicationsUS7842651Dec 8, 2008Nov 30, 2010Chengdu Cationic Chemistry Company, Inc.Silicate drilling fluid composition containing lubricating agents and uses thereofUS7906464Mar 15, 2011Halliburton Energy Services, Inc.Compositions and methods for the removal of oil-based filtercakesUS7959743Jul 6, 2005Jun 14, 2011Cognis Oleochemicals GmbhLithium salts of fatty alcohol sulphates for cleaning boreholes, boring devices and boringsUS7960314Jun 14, 2011Halliburton Energy Services Inc.Microemulsifiers and methods of making and using sameUS8006760Apr 10, 2008Aug 30, 2011Halliburton Energy Services, Inc.Clean fluid systems for partial monolayer fracturingUS8071510Dec 6, 2011Baker Hughes IncorporatedMethod of increasing lubricity of brine-based drilling fluids and completion brinesUS8082992Dec 27, 2011Halliburton Energy Services, Inc.Methods of fluid-controlled geometry stimulationUS8148305Sep 12, 2008Apr 3, 2012Emery Oleochemicals GmbhOligoglyercol fatty acid ester additives for water-based drilling fluidsUS8153562Sep 12, 2008Apr 10, 2012Emery Oleochemicals GmbhOligoglycerol fatty acid ester thickeners for oil-based drilling fluidsUS8188013Mar 11, 2009May 29, 2012Halliburton Energy Services, Inc.Self-degrading fibers and associated methods of use and manufactureUS8193125Feb 6, 2009Jun 5, 2012Emery Oleochemicals GmbhCrosslinked glycerol or oligoglycerol esters, and use thereof as an additive in drilling fluidsUS8220548Jan 12, 2007Jul 17, 2012Halliburton Energy Services Inc.Surfactant wash treatment fluids and associated methodsUS8236735Sep 12, 2008Aug 7, 2012Emery Oleochemicals GmbhOligoglycerol fatty acid ester lubricant additives for drilling fluidsUS8329621Apr 6, 2007Dec 11, 2012Halliburton Energy Services, Inc.Degradable particulates and associated methodsUS8413745Apr 9, 2013Baker Hughes IncorporatedWater-based mud lubricant using fatty acid polyamine salts and fatty acid estersUS8541051Dec 15, 2003Sep 24, 2013Halliburton Energy Services, Inc.On-the fly coating of acid-releasing degradable material onto a particulateUS8598092Nov 8, 2007Dec 3, 2013Halliburton Energy Services, Inc.Methods of preparing degradable materials and methods of use in subterranean formationsUS9085524Nov 7, 2011Jul 21, 2015Emery Oleochemicals GmbhMethod for the production of carboxylic acid esters during a transportUS9340722Mar 13, 2013May 17, 2016Baker Hughes IncorporatedWater-based mud lubricant using fatty acid polyamine salts and fatty acid estersUS20040231892 *May 19, 2003Nov 25, 2004West Jerry R.Clay wetterUS20050075254 *Sep 26, 2003Apr 7, 2005Pollock Charley M.Fatty acid esters and uses thereofUS20060014648 *Jul 13, 2004Jan 19, 2006Milson Shane LBrine-based viscosified treatment fluids and associated methodsUS20060035794 *Aug 11, 2004Feb 16, 2006Daniel GraiverTriglyceride based lubricantUS20060144594 *Dec 30, 2004Jul 6, 2006Halliburton Energy Services, Inc.Silicate-containing additives for well bore treatments and associated methodsUS20060148656 *Dec 30, 2004Jul 6, 2006Halliburton Energy Services, Inc.Silicate-containing additives for well bore treatments and associated methodsUS20070049500 *Jul 20, 2004Mar 1, 2007Heinz MuellerBorehole treating substance containing ether carboxylic acidsUS20070142234 *Sep 9, 2003Jun 21, 2007Heinz MuellerBorehole treatment agent containing low-toxic oil phaseUS20070219097 *Oct 15, 2004Sep 20, 2007Mueeller HeinzEmulsifiers For Drilling FluidsUS20080009422 *Jul 2, 2007Jan 10, 2008M-I LlcHigh performance water base drilling fluidUS20080027157 *Apr 6, 2007Jan 31, 2008Halliburton Energy Services, Inc.Degradable particulates and associated methodsUS20080039347 *Aug 10, 2007Feb 14, 2008Welton Thomas DTreatment fluids comprising clarified xanthan and associated methodsUS20080234145 *Jul 6, 2005Sep 25, 2008Heinz MuellerUse of Lithium Salts of Fatty Alcohol Sulphates for Cleaning Boreholes, Boring Devices and BoringsUS20090042210 *Aug 10, 2007Feb 12, 2009University Of Louisville Research FoundationSensors and methods for detecting diseases caused by a single point mutationUS20090042750 *Aug 10, 2007Feb 12, 2009Halliburton Energy Services, Inc.Acidic treatment fluids comprising xanthan and associated methodsUS20090170730 *Dec 8, 2008Jul 2, 2009Anming WuSilicate drilling fluid composition containing lubricating agents and uses thereofUS20100016180 *Jul 16, 2008Jan 21, 2010Bj Services CompanyMethod of Increasing Lubricity of Brine-based Drilling Fluids and Completion BrinesUS20100204067 *Jun 13, 2008Aug 12, 2010Canadian Energy Services, L.P.Drilling Fluid Additive and Method for Improving Lubricity or Increasing Rate of Penetration in a Drilling OperationUS20100256021 *Sep 12, 2008Oct 7, 2010Heinz MullerThickeners for oil-based drilling fluidsUS20100258307 *Oct 24, 2008Oct 14, 2010Heinz MullerDrilling composition, process for its preparation, and applications thereofUS20100298176 *Sep 12, 2008Nov 25, 2010Diana MakerLubricant Additives for Drilling FluidsUS20100305009 *Sep 12, 2008Dec 2, 2010Alfred WestfechtelAdditives for water-based drilling fluidsUS20110011645 *Feb 6, 2009Jan 20, 2011Heinz MullerCrosslinked glycerol or oligoglycerol esters, and use thereof as an additive in drilling fluidsUS20110036579 *Feb 17, 2011Baker Hughes IncorporatedWater-Based Mud Lubricant Using Fatty Acid Polyamine Salts and Fatty Acid EstersCN101855312BSep 12, 2008May 21, 2014埃默里油脂化学有限公司Additives for water-based drilling fluidsCN103756651A *Jan 6, 2014Apr 30, 2014中国海洋石油总公司Biodiesel nano-emulsion as well as preparation method and application thereofEP2038363A1 *Jul 6, 2007Mar 25, 2009M-I LlcImproved high performance water-based drilling fluidWO2012106597A1Feb 3, 2012Aug 9, 2012Lord CorporationPolyols and their use in hydrocarbon lubricating and drilling fluids* Cited by examinerClassifications U.S. Classification507/138, 507/139International ClassificationC09K8/06Cooperative ClassificationC09K8/06European ClassificationC09K8/06Legal EventsDateCodeEventDescriptionAug 27, 2001ASAssignmentOwner name: COGNIS DEUTSCHLAND GMBH, GERMANYFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:MUELLER, HEINZ;HEROLD, CLAUS-PETER;BONGARDT, FRANK;AND OTHERS;REEL/FRAME:011907/0412Effective date: 20010705Jun 11, 2003ASAssignmentOwner name: COGNIS DEUTSCHLAND GMBH & CO. KG, GERMANYFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:COGNIS DEUTSCHLAND GMBH;REEL/FRAME:013727/0041Effective date: 20030611Mar 20, 2008FPAYFee paymentYear of fee payment: 4Feb 8, 2011ASAssignmentOwner name: EMERY OLEOCHEMICALS GMBH, GERMANYFree format text: CHANGE OF NAME;ASSIGNOR:COGNIS OLEOCHEMICALS GMBH;REEL/FRAME:025766/0142Effective date: 20090512Owner name: COGNIS OLEOCHEMICALS GMBH, GERMANYFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:COGNIS DEUTSCHLAND GMBH & CO. KG;REEL/FRAME:025766/0308Effective date: 20051221Apr 4, 2012FPAYFee paymentYear of fee payment: 8Mar 23, 2016FPAYFee paymentYear of fee payment: 12RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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61,936
Workshop on Recent Advances in PDEs (X)_Institute of Natural Sciences, SJTU_上海交通大学_自然科学研究院 Workshop on Recent Advances in PDEs (X)
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'); } function InitSizePanel() { $("#dvLoadingSizePanel")[0].style.display = "none"; if ($isPreSaleObject.IsPreStyle == "Y" || $isPreSaleObject.IsPreStyle == "P" || $isPreSaleObject.IsPreStyle == "X") { _isPreSaleMode = $isPreSaleObject.IsPreStyle; $("#dvPreSalePanel")[0].style.display = "block"; //alert($isPreSaleObject.Fromdate); //alert($isPreSaleObject.Todate); $(".Oprice")[0].style.display = ""; $(".NpriceName").text("Limited offer:"); $("#lbCurPrice").html($isPreSaleObject.Price.toFixed(2)); if (_isPreSaleMode == "Y") { //预热 countDown($isPreSaleObject.Fromdate, "#colockbox1"); $(".divAddChart").fadeOut(10); _enableAddCart = "N"; } else if (_isPreSaleMode == "P") { $("#lbPreSales").html("Sale ends in:"); countDown($isPreSaleObject.Todate, "#colockbox1"); $("#dvSizePanel")[0].style.display = "block"; } else if (_isPreSaleMode == "X") { $("#lbPreSales")[0].style.display = "none"; $("#dvSizePanel")[0].style.display = "none"; $("#colockbox1").html("Sold out"); if (_market == "TW") { $("#colockbox1").html(" "); } $(".divAddChart").fadeOut(10); _enableAddCart = "N"; } if (_market == "MY") { $("#dvMYOpening")[0].style.display = "block"; } } else { $("#dvSizePanel")[0].style.display = "block"; } } function countDown(time, id) { var day_elem = $(id).find('.day'); var hour_elem = $(id).find('.hour'); var minute_elem = $(id).find('.minute'); var second_elem = $(id).find('.second'); var end_time = new Date(time).getTime(),//月份是实际月份-1 sys_second = (end_time - new Date("2019/11/15 09:01:26").getTime()) / 1000; var timer = setInterval(function () { if (sys_second > 1) { sys_second -= 1; var day = Math.floor((sys_second / 3600) / 24); var hour = Math.floor((sys_second / 3600) % 24); var minute = Math.floor((sys_second / 60) % 60); var second = Math.floor(sys_second % 60); var sday = day.toString(); var shour = hour < 10 ? "0" + hour : hour; var smin = minute < 10 ? "0" + minute : minute; var snd = second < 10 ? "0" + second : second; day_elem && $(day_elem).html(sday); $(hour_elem).html('' + shour); $(minute_elem).html('' + smin); $(second_elem).html('' + snd); if (day <= 0 && hour <= 0 && minute <= 0 && second <= 0) { EndCountDown(); } } else { clearInterval(timer); EndCountDown(); } }, 1000); } function EndCountDown() { //refresh window.location.reload(); } /**********end PreSales***********/ function LoadPrice() { if (isshopmode == "Y") return; if (curPriceSKU != "") { var needpoint = "0"; $("#lbCurPrice").html("Loading price..."); $webUrl = "/product.ashx?function=getprice&SelectMarketID=TH&sku=" + curPriceSKU + "&level=" + curLevel + "&culture=" + _cluture; //$webUrl = "/product.ashx?function=getpriceAndOri&SelectMarketID=TH&sku=" + curPriceSKU + "&level=" + curLevel + "&culture=" + _cluture; $.get($webUrl, {}, function (data, text) { if (data != "") { if (_isPreSaleMode == "Y" || _isPreSaleMode == "X") { if(parseFloat(needpoint)>0){ var newprice = 0; $("#lbCurPrice").html(newprice.toFixed(2).toString()); } else{ $("#lbCurPrice").html($isPreSaleObject.Price.toFixed(2).toString()); } } else { var oprice = $(".Oprice").attr("oprice"); oprice = oprice.replace(",",""); data = data.replace(",",""); if (oprice != data && parseFloat(oprice) > parseFloat(data)) { $(".Oprice")[0].style.display = ""; } else { $(".Oprice")[0].style.display = "none"; } if (_isPreSaleMode == "P") { $("#lbCurPrice").html(data); } else { if(parseFloat(needpoint)>0){ $("#lbCurPrice").html(PriceFormat("0.00")) } else{ $("#lbCurPrice").html(PriceFormat(data)); } } } } } ); } } function PriceFormat(data) { if (_showMast == "Y") { var arr = data.split(""); var newdata = ""; var cindex = data.indexOf("."); if (cindex == -1) { cindex = 99; } for (var i = 0; i < arr.length; i++) { var chr = arr[i]; if (chr != ",") { if (i < (cindex - 1)) { newdata += "?"; } else { newdata += chr } } else { newdata += ","; } } return newdata; } else { return data; } } function Valiinput() { /* if (jQuery.isNumeric($(curqtyid).val()) || $(curqtyid).val() == "") { _qty = parseInt($(curqtyid).val()); } else { _qty = 1; $(curqtyid).prop("value", "1"); } */ if($(curqtyid).val() != ""){ ValiText(); } } function ValiText() { if (!jQuery.isNumeric($(curqtyid).val())) { $(curqtyid).prop("value", _qty); } else{ var newQty = parseInt($(curqtyid).val()); if( newQty>0 && newQty<=maxqty ){ _qty = newQty; } else{ $(curqtyid).prop("value", _qty); } } } function Addyqty() { _qty = parseInt($(curqtyid).val()); if(_qty < maxqty){ _qty += 1; } $(curqtyid).prop("value", _qty); } function Reduceqty() { _qty = parseInt($(curqtyid).val()); if (_qty > 1) { _qty -= 1; $(curqtyid).prop("value", _qty); } } function IsColorPanelDisplayInScreen() { var display = false; var dvTop = $("#dvProductTitle").offset().top; var docTop = $(document).scrollTop(); var screenHeight = $(window).height(); if ((dvTop - docTop) > 0 && (dvTop - docTop) < 10 && (dvTop - docTop) < screenHeight) { display = true; } return display; } function AddChart() { if (submit) return; var isPanelDispScreen = IsColorPanelDisplayInScreen(); if (_selSKU == "") { if (isPanelDispScreen == false) { $.scrollTo('#dvProductTitle', 500); } else { alert("Please choose the size"); } return; } if (_isPreSaleMode == "Y") { if (isPanelDispScreen == false) { $.scrollTo('#dvProductTitle', 500); } alert("Not to the selling time"); return; } else if (_isPreSaleMode == "X") { return; } if (isPanelDispScreen == false) { $.scrollTo('#dvProductTitle', 500); } var $webSite = ""; var customerToken = $.cookie("CustomerToken"); customerToken = "00000000-0000-0000-0000-000000000000" if (customerToken == null) { customerToken = "00000000-0000-0000-0000-000000000000"; } var machineGuid = $.cookie("MachineGuid"); machineGuid = "e8828406-0a53-45ed-bd59-a59a3fb80e3b" var isshopmode = $.cookie("isshopmode"); if (isshopmode == null) { isshopmode = "false"; } var shoptoken = $.cookie("shoptoken"); if (shoptoken == null) { shoptoken = "00000000-0000-0000-0000-000000000000"; } var src = GetWCFURL(); //_qty = 1; if (isshopmode == "true") src += "AddSaleItemTAW?machineGuid=" + machineGuid + "&shopToken=" + shoptoken + "&sku=" + _selSKU + "&qty=" + _qty.toString() + "&type="+ _FromID; else src += "AddSaleItem?machineGuid=" + machineGuid + "&customerToken=" + customerToken + "&sku=" + _selSKU + "&qty=" + _qty.toString() + "&type=" + _FromID; var $btnaddchart = $("#btnaddchart"); $btnaddchart.text("submitting..."); $btnaddchart.css("color", "#EEEEEE"); submit = true; $.support.cors = true; $.ajax({ url: src, type: "get", dataType: "jsonp", crossDomain: true, success: function (data) { var $btnaddchart = $("#btnaddchart"); var url = "/TH/en-US/ShoppingBag.aspx?addchart=Y"; window.location.href = url; $btnaddchart.text("Add to Shopping Cart"); $btnaddchart.css("color", "#FFFFFF"); submit = false; //$("#btnaddchart").text("加入购物篮"); //$("#btnaddchart").attr("style", "color:#FFFFFF"); //submit = false; } }); } var _$curmorecmmt; function loadcmt(fromid, panelid) { var $dvmorecmmt = $("#" + panelid); $dvmorecmmt.html('
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40,110
1 Abdimijit Ablekim;Alimujiang Kasimu;Alishir Kurban;Manzira Tursun;School of Geography and Tourism,Xinjiang Normal University;Xinjiang Institute of Ecology and G eography,Chinese Academy of Sciences;Xinjiang Laboratory of Lake Environment and Resources in Arid Zone ,Xinjiang Normal University;;The Cherchen River watershed in Xinjiang: macroscopic spatiotemporal variation,controlling and driving effects[J];冰川冻土;2015-02 2 Abdirahman·Halik1,2(1.College of Resources and Environmental Science,Xinjiang University;Key Laboratory of Oasis Ecology,Ministry of Education,Urumqi 830046,P.R.China;2.School of Environment and Spatial Informatics,China University of Mining & Technology,Xuzhou 221008,P.R.China);Sustainable development of groundwater of Cheerchen rever basin in Xinjiang[J];干旱区资源与环境;2012-03 3 ZHANG Liang-xia1,2,WU Shi-xin1,MU Gui-jin1,HUANG Feng1,2(1.Xinjiang Institute of Ecology and Geography,Chinese Academy of Sciences,Urumqi 830011,China;2.Graduate University of Chinese Academy of Sciences,Beijing 100049,China);Analysis on Sandy Land Dynamics and Driving Forces in the Last 18 Years in Xinjiang Based on Land Use Change Data[J];中国沙漠;2012-01
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40,110
7 Wang Jinhua;Dong Yuxiang;School of Geography and Planning/Guangdong Key Laboratory for Urbanization and Geo-simulation,Sun Yat-Sen University;South China Sea Marine Engineering and Environment Institute;;Coastal Sandy Land Use Change in South China Coast from 1958 to 2013 and Its Driving Factors——taking Fujian coast as an example[J];中国沙漠;2015-03 8 ZHOU Zi-ying;ZHANG Qun;PENG Qiu-xia;College of Management,Hunan Institute of Engineering;;Analysis of Land Use Change and Its Driving Forces of County Level in the Process of City Synchronization——Take Liling City of Hunan Province as an Example[J];湖南工程学院学报(社会科学版);2015-01 9 Mamattursun EZIZ;Hamid YIMIT;ZHANG Yi-qiong;College of Geographical Science and Tourism,Xinjiang Normal University;Xinjiang Key Laboratory of Lake Environment and Resources in Arid Zone;College of Resources and Environmental Science,Xinjiang University;;The drivers and ecological effects of spacio-temporal dynamics farmland in Yanqi Basin[J];干旱地区农业研究;2014-05
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71,218
Product No: 1298644 ` } $('.scrollUL').html(strlis) $('.spinner').hide(); } $('.listWrapper').on('click','.rightpart',function(){ var id = $(this).attr('voucher_t_id'); var voucher_available = $(this).attr('voucher_available'); var voucher_is_seller = $(this).attr('voucher_is_seller'); if($(this).hasClass('active')){ }else{ return } if(!whetherloginBoo){ whetherlogin(id,voucher_is_seller) return } getVoucher(id,voucher_is_seller) }) function whetherlogin(voucheID,is_seller, fn){ var url = '/index.php?act=cash_rewards&op=check_login'; $.ajax({ type: "GET", url: baseURL+url, dataType: "json", success: function(data) { if(Number(data.datas.status)>0){ whetherloginBoo = true; if(voucheID){ getVoucher(voucheID,is_seller) } if (typeof fn == 'function') { fn(); } }else{ setCookie('sa_signUpLoginSource', 'claim_voucher', 0.042); login_dialog(); } }, error: function(err){ alert(err); } }); } function getVoucher(voucheID,is_seller){ $('.spinner').show() var url = '/index.php?act=pointvoucher&op=exchangevoucher&vid='+voucheID+'&is_seller='+is_seller; $.ajax({ type: "GET", url: baseURL+url, dataType: "json", success: function(data) { $('.spinner').hide() if(data.code==200){ alert(data.datas.msg) // data.datas.hasmore if(!data.datas.hasmore){ $('[voucher_t_id='+voucheID+']').removeClass('active'); } }else if(data.code==444){ alert(data.datas.error) } }, error: function(err){ alert(err); } }); } $('.voucherTitle i').click(function(){ $('.blackWrapper').hide() }) $('.getVoucherNowButton').click(function(){ if(!whetherloginBoo){ whetherlogin('', '', function () { $('.blackWrapper').show(); }); return; } else { $('.blackWrapper').show(); } }); //轮换图 $(document).ready(function () { $(".recomm-con ul:first").addClass("current"); $(".dots li:first").addClass("active"); }); $(function () { $(".dots li").click(function () { if($(this).hasClass("active")) return ; $(".dots li.active").removeClass("active"); $(this).addClass("active"); var i = $(this).index(); $(".recomm-con ul.current").removeClass("current"); $('.recomm-con ul:eq('+i+')').addClass("current"); }); $(".good-recomm li.next a").click(function () { var b = $(".recomm-con ul.current"), c = b.next(".recomm-ul"); if (c.length > 0) { b.removeClass("current"); c.addClass("current"); var i = c.index(); $(".dots li.active").removeClass("active"); $('.dots li:eq('+i+')').addClass("active"); } }); $(".good-recomm li.prev a").click(function () { var b = $(".recomm-con ul.current"),c = b.prev(".recomm-ul"); if (c.length > 0) { b.removeClass("current"); c.addClass("current"); var i = c.index(); $(".dots li.active").removeClass("active"); $('.dots li:eq('+i+')').addClass("active"); } }) }); // 固定在顶部 function gdjz(div,offset){ var a,b,c,d; d=$(div).offset().top; a=eval(d + offset); b=$(window).scrollTop(); c=$(window).height(); console.log(a,b,c,d); if(b>=460){ $('#ncs-goods-picture').css({ 'position':'fixed', 'top':c-d }); } else if (b<100) { $('#ncs-goods-picture').css({ 'position':'absolute', 'top':'0' }); } } // $(window).scroll(function(){ // gdjz('#ncs-goods-picture',360);}) //固定在框框里 var tops;//获取初次的位置高度,便于后期固定该值 var srollHeight;//获取最多能滚动的高度 $(function(){ //1.获取指定元素距离浏览器顶部的高度 tops = $('#ncs-goods-picture').offset().top;//实际最小滚动高度 var height = $('#wrapper-detail').height()-$('#ncs-goods-picture').height(); //获取区域内能滚动的高度 srollHeight = tops+height;//实际最大滚动高度 $('[data-rel="toComment"]').on('click', function () { document.getElementById("comment").scrollIntoView(); }); }); /*滚动监听*/ // $(window).scroll(function() { // // var top = tops; // //获取滚动高度 // var scrollTop = $(document).scrollTop(); // var heghts = srollHeight-scrollTop; // console.log("heghts:"+heghts); // if(scrollTop>top&&srollHeight>scrollTop){ // $('#ncs-goods-picture').css("position","fixed").css("top",0); // // }else if(srollHeightscrollTop){ // $('#ncs-goods-picture').removeAttr("style"); // } // }); $(".second-text .detail_length").each(function(){ var str = $(this).html(); var subStr = str.substring(0,20); //alert(subStr); $(this).html(subStr + (str.length >20 ? '...': '')); }); //限制字符个数 $(".detail_length").each(function(){ var maxwidth=20; if($(this).text().length>maxwidth){ $(this).text($(this).text().substring(0,maxwidth)); $(this).html($(this).html()+'...'); } }); //限制字符个数 $(".detail_length1").each(function(){ var maxwidth=60; if($(this).text().length>maxwidth){ $(this).text($(this).text().substring(0,maxwidth)); $(this).html($(this).html()+'...'); } }); $(".store-top-name").each(function(){ var maxwidth=15; if($(this).text().length>maxwidth){ $(this).text($(this).text().substring(0,maxwidth)); $(this).html($(this).html()+'...'); } }); $(function ($) { var eleCollect = { ids: [], add: function (id) { this.ids.push(parseInt(id)); } }; $(window).scroll(function () { var ids = []; $('.also-in .goods-thumb').each(function () { var id = $('.also-in li').index($(this).closest('li')) + 1; if (isVisible($(this)) && false === in_array(id, eleCollect.ids)) { eleCollect.add(id); ids.push({id: id, url: $(this).find('a:first').attr('href')}); } }); collect(ids); }); $(window).trigger('scroll'); // You May Be Interested In $(document).on('click', 'a[data-rel="goods_jump"]', function () { var id = $('.also-in li').index($(this).closest('li')) + 1; sa.track('clickBanner', { bannerType: 'recommendation', bannerCurrentUrl: window.location.href, bannerCurrentPageType: 'goods_detail', bannerBelongArea: 'you_may_also_like', bannerRanking: '' + id, bannerToUrl: $(this).attr('href'), bannerToPageType: 'goods_detail' }); }); // Featured Recommendations $(document).on('click', '.recomm-con .recomm-ul a', function () { var $this = $(this); var id = $this.closest('li').index() + 1; sa.track('clickBanner', { bannerType: 'selection', bannerCurrentUrl: window.location.href, bannerCurrentPageType: 'goods_detail', bannerBelongArea: 'featured_recommendation', bannerRanking: '' + ($this.closest('.recomm-ul').index() * 5 + id), bannerToUrl: $(this).attr('href'), bannerToPageType: 'goods_detail' }); }); function collect(ids) { if (ids.length < 1) { return false; } // for (var i in ids) { // sa.track('showBanner', { // bannerType: 'recommendation', // bannerCurrentUrl: window.location.href, // bannerCurrentPageType: 'goods_detail', // bannerBelongArea: 'you_may_also_like', // bannerRanking: '' + ids[i]['id'], // bannerToUrl: ids[i]['url'], // bannerToPageType: 'goods_detail' // }); // } } }(jQuery)); /** * check 每个 ID 限购数量 * @param num 购买的数量 * @param type 操作类型:addCart-加入购物车;buy-购买 * @returns {boolean} */ function checkBuyLimit(num, type) { var result = true; var max = parseInt('0'); // if (num > max) { // $('.increase').css({'color':'#dddfe4'}); // alert(max + ' piece(s) maximum per buyer'); // return false; // } $.ajax({ url: 'https://www.kilimall.co.ke/index.php?act=goods&op=checkLimit', type: 'GET', data: { num: num, gid: '1298644', opt: type }, dataType: 'JSON', async: false, success: function (ret) { if (false === ret.state) { console.log(max); $('#quantity').val(max); alert(ret.msg); result = false; } } }); return result; }
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In the memory, the gain adjustment data and offset adjustment data of the current detecting means accommodated in one and the same casing, are stored. This fact permits automatization of the adjustment work, thus contributing to economical use of time and labor. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS4090120 *May 8, 1975May 16, 1978The Superior Electric CompanyMethod and means for controlling energization by commandsUS4641069 *Nov 11, 1983Feb 3, 1987Fanuc LtdPlural motor changeover control systemUS4721052 *Oct 25, 1985Jan 26, 1988Merriman/Yacht Specialties, Inc.Pedestal wheel steering system having universal self-adjusting idlerUS4812268 *Jul 24, 1987Mar 14, 1989Fanuc Ltd.Suckback method and apparatus in an injection molding machineUS4837491 *Feb 20, 1986Jun 6, 1989Fanuc Ltd.Motor velocity control apparatusUS5319294 *May 24, 1993Jun 7, 1994Matsushita Electric Industrial Co., Ltd.Apparatus for automatically adjusting offset correction values for current detectorsUS5550449 *Jun 4, 1993Aug 27, 1996Zf Friedrichshafen AgProcess for driving electric, current-controlled actuatorsJPH0591780A * Title not available* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS6057664 *Aug 25, 1999May 2, 2000Mitsubishi Denki Kabushiki KaishaMotor driving control unit and motor driving control methodUS6188190 *Jul 15, 1998Feb 13, 2001Sanyo Denki Co., Ltd.Multi-axis motor controllerUS6191543 *Apr 28, 1999Feb 20, 2001Industrial Technology Research InstituteIntegrated circuit for multiple-axis position controlUS6583591Jan 10, 2001Jun 24, 2003Yazaki North America, Inc.Circuit for operating a plurality of bi-directional motorsUS6686712 *Apr 15, 2002Feb 3, 2004Mitsubishi Denki Kabushiki KaishaMotor network control systemUS6806660Dec 10, 2002Oct 19, 2004Matsushita Electric Industrial Co., Ltd.Motor controlling serial communication device and motor driverUS6825634 *Jan 18, 2002Nov 30, 2004Lockeed Martin CorporationSystem and method for a scalable motion controller for controlling a plurality of servo motorsUS6826450 *Apr 16, 2002Nov 30, 2004Fanuc Ltd.Robot controllerUS6933698 *Nov 10, 2003Aug 23, 2005Tamagawa Seiki Kabushiki KaishaMethod of driving a servo motor with a built-in drive circuitUS6936989 *Aug 9, 2002Aug 30, 2005Delphi Technologies, Inc.Pulse count motor control deviceUS7026784 *Feb 6, 2004Apr 11, 2006Omron CorporationInverterUS7119514 *Jan 18, 2006Oct 10, 2006Omron CorporationInverterUS7348897 *Dec 20, 2006Mar 25, 2008Harmonic Drive Systems Inc.Apparatus for transmitting position detection signal of multi-shaft motorUS7463002 *Nov 28, 2006Dec 9, 2008Seiko Epson CorporationRobot controller systemUS7705553 *Sep 10, 2007Apr 27, 2010Rockwell Automation Technologies, Inc.Serial backplane for medium voltage motor drive systemUS8115423Aug 10, 2006Feb 14, 2012Toyota Jidosha Kabushiki KaishaMotor driving system and controlling method of the sameUS8569987 *Sep 21, 2010Oct 29, 2013Rockwell Automation Technologies, Inc.Configurable multi-axis electric drive system conceptUS8941345 *Aug 26, 2013Jan 27, 2015Kabushiki Kaisha Yaskawa DenkiMulti-shaft motor drive device and multi-axis motor drive systemUS20120068654 *Sep 21, 2010Mar 22, 2012Rockwell Automation Technologies, Inc.Configurable multi-axis electric drive system conceptUS20130342152 *Aug 26, 2013Dec 26, 2013Kabushiki Kaisha Yaskawa DenkiMulti-shaft motor drive device and multi-axis motor drive systemUS20140002000 *Jul 1, 2013Jan 2, 2014Melexis Technologies NvMethod and System for Powering and Measuring Positions of a Plurality of DC-Motors Over a Wire InterfaceUS20140292247 *Mar 27, 2013Oct 2, 2014Allegro Microsystems, Inc.System and Method for Serial Communication by an Electronic CircuitCN100511962CJun 15, 2006Jul 8, 2009台达电子工业股份有限公司Three-in-one AC servo driverCN101507096BAug 10, 2006Aug 31, 2011丰田自动车株式会社Motor driving system and method for controlling the sameDE102009036859A1 *Aug 10, 2009Feb 24, 2011Siemens AktiengesellschaftModular static frequency changer system has control unit and power unit, where both are linked with one another by communication deviceEP1069677A2 *Jul 12, 2000Jan 17, 2001Fanuc LtdMotor controller for driving various machinesEP1281452A2 *Oct 13, 1999Feb 5, 2003Jorma TaijonlahtiA sheet fabrication center and methods therefor of optimally fabricating worksheetsEP1321838A2 *Dec 17, 2002Jun 25, 2003Matsushita Electric Industrial Co., Ltd.Motor controlling serial communication deviceEP1871000A1 *Jun 21, 2006Dec 26, 2007Delta Electronics, Inc.AC servo driveWO2011020834A1 *Aug 17, 2010Feb 24, 2011Robert Bosch GmbhDevice for producing a translation movement* Cited by examinerClassifications U.S. Classification318/625, 318/632International ClassificationG05B19/23, H02P5/46, G05B19/414, H02P5/74Cooperative ClassificationH02P5/74, G05B19/4142, H02P2205/01, G05B19/234, H02P5/46European ClassificationG05B19/414K, H02P5/46, G05B19/23C2, H02P5/74Legal EventsDateCodeEventDescriptionJun 8, 2010FPExpired due to failure to pay maintenance feeEffective date: 20100421Apr 21, 2010LAPSLapse for failure to pay maintenance feesNov 23, 2009REMIMaintenance fee reminder mailedSep 23, 2005FPAYFee paymentYear of fee payment: 8Sep 26, 2001FPAYFee paymentYear of fee payment: 4Apr 19, 1996ASAssignmentOwner name: KABUSHIKI KAISHA SANKYO SEIKI SEISAKUSHO, JAPANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:KATAGIRI, TAKASHI;REEL/FRAME:007939/0031Effective date: 19960212RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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ID:9000002965880 大阪大学接合科学研究所 Joining and Welding Research Institute, Osaka University (2002年 CiNii収録論文より) La含有Inconel718鋳造合金の溶接継手の機械的性質 : Inconel718鋳造合金の溶接性に関する研究(第9報)
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The present work was undertaken to examine the mechanical properties of lanthanum containing-cast alloy 718 laser welds. The 0.3 mass% lanthanum-added specimen (03 LaWP) was welded by CO_2 laser weldi … 溶接学会論文集 : quarterly journal of the Japan Welding Society 20(3), 386-397, 2002-08-05 CiNii PDF - オープンアクセス 参考文献5件 被引用文献1件
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The present work was undertaken to examine the mechanism in the improvement of HAZ cracking susceptibility of cast alloy 718 welds by addition of rare earth metals (La, Ce). The HAZ cracking susceptib … 溶接学会論文集 : quarterly journal of the Japan Welding Society 20(1), 87-95, 2002-02-05 CiNii PDF - オープンアクセス J-STAGE 参考文献10件 被引用文献4件
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A study was carried out to determine the effect of rare earth metal (La, Ce) addition on the HAZ cracking susceptibility of cast alloy 718 welds. The cast alloy 718 containing rare earth metal was mel … 溶接学会論文集 : quarterly journal of the Japan Welding Society 20(1), 78-86, 2002-02-05 高窒素含有Niフリーオーステナイト系ステンレス鋼のHAZ靱性に及ぼす窒化物析出の影響
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Heat conduction and the thermal elastic-plastic analyses were carried out by FEM to clarify the effects of thermal and strain cycles on liquation cracking in HAZ of laser welded joint. The thermal ana … 溶接学会論文集 : quarterly journal of the Japan Welding Society 19(3), 480-488, 2001-08-05 高窒素含有オーステナイト系ステンレス鋼のHAZ割れ感受性
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In order to study the mechanism of liquation cracking in cast alloy 718,a mathematical model was developed to calculate grain boundary liquation in weld thermal cycle. According to microscopic observa … 溶接学会論文集 : quarterly journal of the Japan Welding Society 19(2), 317-325, 2001-05-05 レーザ溶接部におけるHAZ割れに影響を及ぼす諸因子 : Inconel 718鋳造合金の溶接性に関する研究(第4報) The factors affecting HAZ crack susceptibility were investigated for castalloy 718. The materials used were laboratory-cast alloy 718 plates with three levels of grain size. The alloys were heat-treat … 溶接学会論文集 : quarterly journal of the Japan Welding Society 19(2), 308-316, 2001-05-05 CiNii PDF - オープンアクセス 参考文献12件 被引用文献3件
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The purpose of this study is to clarify the effect of homogenization heat treatment on HAZ cracking susceptibility of cast alloy 718. Homogenization heat treatment was conducted at 1368 K and 1378 K w … 溶接学会論文集 : quarterly journal of the Japan Welding Society 17(4), 543-552, 1999-11-05 CiNii PDF - オープンアクセス 参考文献5件 被引用文献7件
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The purpose of the present study was to investigate the effect of grain size on HAZ cracking susceptibility of cast alloy 718. Three kinds of base metals with three different levels of grain size were … 溶接学会論文集 : quarterly journal of the Japan Welding Society 17(4), 534-542, 1999-11-05 CiNii PDF - オープンアクセス 参考文献6件 被引用文献7件
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Characteristics of the heat-affected zone cracking of cast alloy 718 has been investigated using the bead on plate test and microscopic observation for isothermally processed specimens. The results ob … 溶接学会論文集 : quarterly journal of the Japan Welding Society 17(3), 456-465, 1999-08-05 CiNii PDF - オープンアクセス 参考文献16件 被引用文献9件
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A multiple layer film is deposited on a soda-lime-silica glass substrate to produce a high transmittance, low emissivity coated product. A stationary cathode measuring 5 by 17 inches (12.7 by 43.2 centimeters) comprises a sputtering surface of zinc/tin alloy consisting of 52.4 weight percent zinc and 47.6 percent tin. A soda-lime-silica glass substrate is placed in the coating chamber which is evaluated to establish a pressure of 4 millitorr in an atmosphere of 50/50 argon/oxygen. The cathode is sputtered in a magnetic field at a power of 1.7 kilowatts while the glass is conveyed past the sputtering surface at a rate of 110 inches (2.8 meters) per minute. A film of zinc stannate is deposited on the glass surface. Three passes produce a film thickness of about 320 Angstroms, resulting in a decrease in transmittance from 90 percent for the glass substrate to 82 percent for the zinc stannate coated glass substrate. A stationary cathode with a titanium target is then sputtered to produce a titanium oxide layer about 50 Angstroms thick over the zinc stannate, reducing the transmittance to about 78 percent. Next, a layer of silver is deposited over the titanium oxide layer by sputtering a silver cathode target in an atmosphere of argon gas at a pressure of 4 millitorr to deposit silver to a film thickness of about 110 Angstroms, decreasing the transmittance of the coated substrate to about 66 percent. A thin neutral titanium primer layer is sputtered over the silver layer to improve the adhesion and protect the silver layer before the final antireflective layer of zinc stannate is deposited. The titanium primer layer is about 10 Angstroms thick and in the metallic state reduces the transmittance to about 60 percent. However, the titanium primer layer oxidizes and the transmittance increases as the subsequent metal oxide layer is deposited. Finally, the zinc/tin alloy cathode target is sputtered in an oxidizing atmosphere to produce a zinc stannate film. Four passes at a rate of 110 inches (2.8 meters) per minute produce a film thickness of about 380 Angstroms, increasing the transmittance of the coated product to 85 percent. The final coated product has a surface resistance of 8 ohms per square and a neutral reflectance from both sides, with a luminous reflectance of 5 percent from the coated side and 6 percent from the uncoated side. In comparison, prior art films using copper primer layers exhibit a slightly reddish-blue reflectance from both the coated and uncoated glass surfaces. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS27473 *Mar 13, 1860 Window-screenUS4048372 *Feb 27, 1976Sep 13, 1977American Cyanamid CompanyCoating of cadmium stannate films onto plastic substratesUS4094763 *Jan 23, 1974Jun 13, 1978Ppg Industries, Inc.Sputter coating of glass with an oxide of a metal having an atomic number between 48 and 51 and mixtures thereofUS4113599 *Sep 26, 1977Sep 12, 1978Ppg Industries, Inc.Sputtering technique for the deposition of indium oxideUS4166018 *Jan 31, 1974Aug 28, 1979Airco, Inc.Sputtering process and apparatusUS4201649 *Nov 29, 1978May 6, 1980Ppg Industries, Inc.Low resistance indium oxide coatingsUS4322276 *Jun 20, 1979Mar 30, 1982Deposition Technology, Inc.Method for producing an inhomogeneous film for selective reflection/transmission of solar radiationUS4327967 *Jun 11, 1980May 4, 1982Bfg GlassgroupHeat-reflecting panel having neutral-color outer appearanceUS4337990 *May 27, 1976Jul 6, 1982Massachusetts Institute Of TechnologyTransparent heat-mirrorUS4349425 *Aug 23, 1978Sep 14, 1982Hitachi, Ltd.Transparent conductive films and methods of producing sameUS4413877 *Nov 1, 1982Nov 8, 1983Teijin LimitedSelectively light-transmitting laminated structureUS4462883 *Sep 19, 1983Jul 31, 1984Pilkington Brothers P.L.C.Low emissivity coatings on transparent substratesUS4497700 *Mar 22, 1984Feb 5, 1985Flachglas AktiengesellschaftMethod of coating a transparent substrateUS4548691 *Feb 29, 1984Oct 22, 1985Leybold-Heraeus GmbhThermally insulating glazingUS4610771 *Oct 29, 1984Sep 9, 1986Ppg Industries, Inc.Sputtered films of metal alloy oxides and method of preparation thereofUS4716086 *Dec 23, 1985Dec 29, 1987Ppg Industries, Inc.Protective overcoat for low emissivity coated articleUS4786563 *Sep 14, 1987Nov 22, 1988Ppg Industries, Inc.Protective coating for low emissivity coated articles* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS5215832 *Oct 8, 1992Jun 1, 1993Cardinal Ic CompanyLead-free mirrors and environmentally safe manufacture thereofUS5229881 *Jun 10, 1992Jul 20, 1993Tempglass Eastern, Inc.Low transmission low emissivity glass window and method of manufactureUS5296302 *Mar 27, 1992Mar 22, 1994Cardinal Ig CompanyAbrasion-resistant overcoat for coated substratesUS5302449 *Mar 27, 1992Apr 12, 1994Cardinal Ig CompanyHigh transmittance, low emissivity coatings for substratesUS5371562 *Jun 2, 1993Dec 6, 1994Eastman Kodak CompanyStereoscopic disk and viewer and method of makingUS5589280 *Feb 5, 1993Dec 31, 1996Southwall Technologies Inc.Metal on plastic films with adhesion-promoting layerUS5993950 *Jul 25, 1997Nov 30, 1999GlaverbelMetal coated substratesUS6010602 *May 12, 1997Jan 4, 2000Ppg Industries Ohio, Inc.Annealed low emissivity coatingUS6168825Nov 2, 1999Jan 2, 2001O'brien DudleyProcess for producing thin transparent gold coatingsUS6264336Oct 22, 1999Jul 24, 20013M Innovative Properties CompanyDisplay apparatus with corrosion-resistant light directing filmUS6340529Dec 20, 1999Jan 22, 2002Asahi Glass Company Ltd.Glazing panelUS6357880Apr 12, 2001Mar 19, 20023M Innovative Properties CompanyDisplay apparatus with corrosion-resistant light directing filmUS6508560Dec 20, 2001Jan 21, 20033M Innovative Properties CompanyDisplay apparatus with corrosion-resistant light directing filmUS6524688Mar 11, 1997Feb 25, 2003Cardinal Cg CompanyHigh transmittance, low emissivity coatings for substratesUS6582799Feb 25, 2000Jun 24, 2003Ppg Industries Ohio, Inc.Laminated transparencyUS6610410Jun 18, 2001Aug 26, 2003Asahi Glass Company, LimitedGlazing panelUS6626545Dec 31, 2002Sep 30, 20033M Innovative Properties CompanyLight directing construction having corrosion resistant featureUS6630284May 10, 2000Oct 7, 2003Cpfilms Inc.Low reflection composite in transparent matrixUS6677063Aug 30, 2001Jan 13, 2004Ppg Industries Ohio, Inc.Methods of obtaining photoactive coatings and/or anatase crystalline phase of titanium oxides and articles made therebyUS6682773Feb 22, 2002Jan 27, 2004Ppg Industries Ohio, Inc.Light-transmitting and/or coated article with removable protective coating and methods of making the sameUS6730389Oct 11, 2002May 4, 2004Ppg Industries Ohio, Inc.Coated substrate having a frequency selective surfaceUS6811884Dec 24, 2002Nov 2, 2004Ppg Industries Ohio, Inc.Water repellant surface treatment and treated articlesUS6833194Jun 16, 1999Dec 21, 2004Ppg Industries Ohio, Inc.Protective layers for sputter coated articleUS6838159Jan 9, 2003Jan 4, 2005Cardinal Glass Industries, Inc.High transmittance, low emissivity coatings for substratesUS6849328May 10, 2000Feb 1, 2005Ppg Industries Ohio, Inc.Light-transmitting and/or coated article with removable protective coating and methods of making the sameUS6869644Oct 22, 2001Mar 22, 2005Ppg Industries Ohio, Inc.Method of making coated articles and coated articles made therebyUS6899953Apr 30, 1999May 31, 2005Ppg Industries Ohio, Inc.Shippable heat-treatable sputter coated article and zinc cathode sputtering target containing low amounts of tinUS6916542Apr 24, 2003Jul 12, 2005Ppg Industries Ohio, Inc.Coated articles having a protective coating and cathode targets for making the coated articlesUS6962759Apr 24, 2003Nov 8, 2005Ppg Industries Ohio, Inc.Method of making coated articles having an oxygen barrier coating and coated articles made therebyUS6979499Aug 18, 2003Dec 27, 2005Ppg Industries Ohio, Inc.Image display system utilizing light emitting materialUS7060359Jan 3, 2005Jun 13, 2006Cardinal Cg CompanyHigh transmittance, low emissivity coatings for substratesUS7063893Apr 25, 2003Jun 20, 2006Cardinal Cg CompanyLow-emissivity coating having low solar reflectanceUS7067195Apr 25, 2003Jun 27, 2006Cardinal Cg CompanyCoatings having low emissivity and low solar reflectanceUS7096692Jul 11, 2002Aug 29, 2006Ppg Industries Ohio, Inc.Visible-light-responsive photoactive coating, coated article, and method of making sameUS7105220Jan 29, 2003Sep 12, 2006Ppg Industries Ohio, Inc.Coated article having a sealed layered edge to impede corrosion of a coating at the edge and method of making sameUS7122252May 14, 2003Oct 17, 2006Cardinal Cg CompanyHigh shading performance coatingsUS7138182Jul 31, 2003Nov 21, 2006Cardinal Cg CompayTemperable high shading performance coatingsUS7223940Feb 22, 2005May 29, 2007Ppg Industries Ohio, Inc.Heatable windshieldUS7232615Apr 1, 2004Jun 19, 2007Ppg Industries Ohio, Inc.Coating stack comprising a layer of barrier coatingUS7311961Mar 25, 2003Dec 25, 2007Ppg Industries Ohio, Inc.Method of making coated articles and coated articles made therebyUS7323249Apr 8, 2003Jan 29, 2008Ppg Industries Ohio, Inc.Methods of obtaining photoactive coatings and/or anatase crystalline phase of titanium oxides and articles made therebyUS7329433Dec 20, 2004Feb 12, 2008Ppg Industries Ohio, Inc.Shippable heat-treatable sputter coated article and method of making sameUS7335421Jul 20, 2005Feb 26, 2008Ppg Industries Ohio, Inc.Heatable windshieldUS7361404Dec 20, 2004Apr 22, 2008Ppg Industries Ohio, Inc.Coated article with removable protective coating and related methodsUS7413768Dec 20, 2004Aug 19, 2008Ppg Industries Ohio, Inc.Protective layers for sputter coated article and method for making sputter coated articlesUS7508586Apr 14, 2006Mar 24, 2009Southwall Technologies, Inc.Zinc-based film manipulation for an optical filterUS7534497Oct 5, 2006May 19, 2009Cardinal Cg CompanyTemperable high shading performance coatingsUS7588829May 28, 2003Sep 15, 2009Ppg Industries Ohio, Inc.Article having an aesthetic coatingUS7632572May 7, 2007Dec 15, 2009Agc Flat Glass North America, Inc.Double silver low-emissivity and solar control coatingsUS7648768Jun 1, 2007Jan 19, 2010Ppg Industries Ohio, Inc.Hybrid coating stackUS7670641Apr 28, 2006Mar 2, 2010Cardinal Cg CompanyCoatings having low emissivity and low solar reflectanceUS7687149Sep 8, 2006Mar 30, 2010Cardinal Cg CompanyHigh shading performance coatingsUS7749621Jul 26, 2006Jul 6, 2010Ppg Industries Ohio, Inc.Visible-light-responsive photoactive coating, coated article, and method of making sameUS7758915Apr 28, 2006Jul 20, 2010Cardinal Cg CompanyLow-emissivity coating having low solar reflectanceUS7820296Sep 12, 2008Oct 26, 2010Cardinal Cg CompanyLow-maintenance coating technologyUS7820309Sep 12, 2008Oct 26, 2010Cardinal Cg CompanyLow-maintenance coatings, and methods for producing low-maintenance coatingsUS7824777Mar 26, 2008Nov 2, 2010Southwall Technologies, Inc.Robust optical filter utilizing pairs of dielectric and metallic layersUS7862910Apr 11, 2007Jan 4, 2011Cardinal Cg CompanyPhotocatalytic coatings having improved low-maintenance propertiesUS7907322Oct 23, 2008Mar 15, 2011Ppg Industries Ohio, Inc.Electrochromic deviceUS8049949Aug 21, 2009Nov 1, 2011Ppg Industries Ohio, Inc.Multi-layer electrode for high contrast electrochromic devicesUS8085460Aug 21, 2009Dec 27, 2011Ppg Industries Ohio, IncElectrochromic deviceUS8506768Sep 3, 2010Aug 13, 2013Cardinal Cg CompanyLow-maintenance coatings, and methods for producing low-maintenance coatingsUS8512883Jan 13, 2012Aug 20, 2013Agc Flat Glass North America, Inc.Double silver low-emissivity and solar control coatingsUS8658289Nov 11, 2008Feb 25, 2014Ppg Industries Ohio, Inc.Electromagnetic radiation shielding deviceUS8686319May 9, 2007Apr 1, 2014Ppg Industries Ohio, Inc.Vehicle transparency heated with alternating currentUS8696879Sep 3, 2010Apr 15, 2014Cardinal Cg CompanyLow-maintenance coating technologyUS8731699Sep 29, 2010May 20, 2014Hp3 Software, Inc.Dynamic, lean insulated glass unit assembly line schedulerUS8927911Jul 20, 2010Jan 6, 2015Ppg Industries Ohio, Inc.Enhanced bus bar system for aircraft transparenciesUS9215760 *Oct 4, 2012Dec 15, 2015Saint-Gobain Glass FranceTransparent pane with electrically conductive coatingUS9338908Feb 11, 2015May 10, 2016Apple Inc.Electronic devices with reflective chamfer surfacesUS9359807Oct 4, 2012Jun 7, 2016Saint-Gobain Glass FranceTransparent panel with electrically conductive coatingUS9420713Sep 11, 2012Aug 16, 2016Apple Inc.Double anodizing processesUS20020113561 *Dec 13, 2001Aug 22, 2002Wolfgang JacobsenDevice for generating light signalsUS20020172775 *Apr 25, 2002Nov 21, 2002Harry BuhayMethod of making coated articles and coated articles made therebyUS20030027000 *Jul 11, 2002Feb 6, 2003Greenberg Charles B.Visible-light-responsive photoactive coating, coated article, and method of making sameUS20030037569 *Mar 19, 2002Feb 27, 2003Mehran ArbabMethod and apparatus for forming patterned and/or textured glass and glass articles formed therebyUS20030039843 *Jul 11, 2002Feb 27, 2003Christopher JohnsonPhotoactive coating, coated article, and method of making sameUS20030224181 *May 28, 2003Dec 4, 2003Finley James J.Article having an aesthetic coatingUS20030228472 *Apr 25, 2003Dec 11, 2003Hoffman Wayne L.Coatings having low emissivity and low solar reflectanceUS20030228476 *Apr 24, 2003Dec 11, 2003Harry BuhayMethods of changing the visible light transmittance of coated articles and coated articles made therebyUS20030228484 *Mar 25, 2003Dec 11, 2003Finley James J.Method of making coated articles and coated articles made therebyUS20030235720 *Apr 8, 2003Dec 25, 2003Athey Pat RuzakowskiMethods of obtaining photoactive coatings and/or anatase crystalline phase of titanium oxides and articles made therebyUS20040016202 *May 14, 2003Jan 29, 2004Hoffman Wayne L.High shading performance coatingsUS20040023038 *Apr 24, 2003Feb 5, 2004Harry BuhayMethod of making coated articles having an oxygen barrier coating and coated articles made therebyUS20040023080 *Apr 24, 2003Feb 5, 2004Harry BuhayCoated articles having a protective coating and cathode targets for making the coated articlesUS20040028955 *Apr 25, 2003Feb 12, 2004Hoffman Wayne L.Low-emissivity coating having low solar reflectanceUS20040070551 *Aug 18, 2003Apr 15, 2004Walck Scott D.Image display system utilizing light emitting materialUS20040071985 *Jul 31, 2003Apr 15, 2004Krisko Annette J.Temperable high shading performance coatingsUS20040106017 *Oct 22, 2001Jun 3, 2004Harry BuhayMethod of making coated articles and coated articles made therebyUS20040107732 *Sep 26, 2003Jun 10, 2004Smith Charlene S.Apparatus and method for producing float glass having reduced defect densityUS20040112411 *Sep 8, 2003Jun 17, 2004Boykin Cheri M.Method and apparatus for cleaning a photoactive and/or hydrophilic surfaceUS20040121168 *Dec 24, 2002Jun 24, 2004Goodwin George B.Water repellant surface treatment and treated articlesUS20040146645 *Jan 29, 2003Jul 29, 2004Freeman Glenn E.Coated article having a sealed layered edge to impede corrosion of a coating at the edge and method of making sameUS20040202890 *Apr 8, 2003Oct 14, 2004Kutilek Luke A.Methods of making crystalline titania coatingsUS20040247929 *Apr 1, 2004Dec 9, 2004Harry BuhayCoating stack comprising a layer of barrier coatingUS20050129863 *Dec 20, 2004Jun 16, 2005O'shaughnessy Dennis J.Protective layers for sputter coated article and method for making sputter coated articlesUS20050202256 *Jan 3, 2005Sep 15, 2005Eric EbyHigh transmittance, low emissivity coatings for substratesUS20050208319 *Mar 22, 2004Sep 22, 2005Finley James JMethods for forming an electrodeposited coating over a coated substrate and articles made therebyUS20050238861 *Jun 17, 2005Oct 27, 2005Harry BuhayCoated articleUS20050238923 *Apr 27, 2004Oct 27, 2005Thiel James PHybrid coating stackUS20060147727 *Mar 2, 2006Jul 6, 2006Afg Industries, Inc.Double silver low-emissivity and solar control coatingsUS20060186105 *Feb 22, 2005Aug 24, 2006Voeltzel Charles SHeatable windshieldUS20060222763 *Apr 28, 2006Oct 5, 2006Hoffman Wayne LCoatings having low emissivity and low solar reflectanceUS20060263610 *Jul 26, 2006Nov 23, 2006Ppg Industries Ohio, Inc.Visible-light-responsive photoactive coating, coated article, and method of making sameUS20070009745 *Sep 8, 2006Jan 11, 2007Cardinal Cg CompanyHigh shading performance coatingsUS20070020465 *Jul 20, 2005Jan 25, 2007Thiel James PHeatable windshieldUS20070042114 *Oct 5, 2006Feb 22, 2007Cardinal Cg CompanyTemperable high shading performance coatingsUS20070207327 *May 7, 2007Sep 6, 2007Afg Industries, Inc.Double silver low-emissivity and solar control coatingsUS20070242359 *Apr 14, 2006Oct 18, 2007Roland ThielschZinc-based film manipulation for an optical filterUS20070281184 *Jun 1, 2007Dec 6, 2007Ppg Industries Ohio, Inc.Hybrid coating stackUS20080277320 *May 9, 2007Nov 13, 2008Thiel James PVehicle transparency heated with alternating currentUS20080280147 *May 9, 2007Nov 13, 2008Thiel James PVehicle transparencyUS20090075067 *Sep 12, 2008Mar 19, 2009Cardinal Cg CompanyLow-maintenance coating technologyUS20090197098 *Nov 11, 2008Aug 6, 2009Ppg Industries Ohio, Inc.Electromagnetic radiation shielding deviceUS20090214889 *Feb 27, 2009Aug 27, 2009Agc Flat Glass North America, Inc.Double silver low-emissivity and solar control coatingsUS20090246552 *Mar 26, 2008Oct 1, 2009Stoessel Chris HRobust optical filter utilizing pairs of dielectric and metallic layersUS20100053722 *Aug 21, 2009Mar 4, 2010Ppg Industries Ohio, Inc.Electrochromic deviceUS20100060971 *Aug 21, 2009Mar 11, 2010Ppg Industries Ohio, Inc.Multi-layer electrode for high contrast electrochromic devicesUS20100103496 *Oct 23, 2008Apr 29, 2010Ppg Industries Ohio, Inc.Electrochromic deviceUS20100316886 *Jun 10, 2010Dec 16, 2010Ppg Industries Ohio, Inc.Aircraft transparency with solar control propertiesUS20110017487 *Jul 20, 2010Jan 27, 2011Ppg Industries Ohio, Inc.Enhanced bus bar system for aircraft transparenciesUS20110238195 *Sep 29, 2010Sep 29, 2011Hp3 Software, Inc.Dynamic, Lean Insulated Glass Unit Assembly Line SchedulerUS20140319116 *Oct 4, 2012Oct 30, 2014Saint-Gobain Glass FranceTransparent pane with electrically conductive coatingUSRE43817Oct 12, 2011Nov 20, 2012Cardinal Cg CompanyLow-maintenance coatingsUSRE44155Oct 12, 2011Apr 16, 2013Cardinal Cg CompanyLow-maintenance coatingsCN104025704A *Oct 4, 2012Sep 3, 2014法国圣戈班玻璃厂Transparent pane with electrically conductive coatingCN104025704B *Oct 4, 2012Oct 12, 2016法国圣戈班玻璃厂带有导电涂层的透明玻璃EP0719876A2Dec 11, 1995Jul 3, 1996Ppg Industries, Inc.Annealed low emissivity coatingWO1991016197A1 *Apr 24, 1991Oct 31, 1991Cardinal Ig CompanyLead-free mirrors and environmentally safe manufacture thereofWO1994018003A1 *Feb 4, 1994Aug 18, 1994Southwall Technologies Inc.Metal on plastic films with adhesion-promoting layerWO2000070373A1 *May 10, 2000Nov 23, 2000Cpfilms, Inc.Low reflection composite in transparent matrixWO2000076930A1 *Jun 6, 2000Dec 21, 2000Ppg Industries Ohio, Inc.Protective layers for sputter coated articleWO2002085809A2Feb 22, 2002Oct 31, 2002Ppg Industries Ohio, Inc.Photo-induced hydrophilic article and method of making sameWO2003095385A1 *Apr 24, 2003Nov 20, 2003Ppg Industries Ohio, Inc.Methods of changing the visible light transmittance of coated articles and coated articles made therebyWO2004067792A2 *Jan 27, 2004Aug 12, 2004Ppg Industries Ohio Inc.A coated article having a sealed layered edge to impede corrosion of a coating at the edge and method of making sameWO2004067792A3 *Jan 27, 2004Nov 4, 2004Ppg Ind Ohio IncA coated article having a sealed layered edge to impede corrosion of a coating at the edge and method of making sameWO2004092088A2Apr 7, 2004Oct 28, 2004Ppg Industries Ohio, Inc.Methods of making crystalline titania coatingsWO2010144709A2Jun 10, 2010Dec 16, 2010Ppg Industries Ohio, Inc.Aircraft transparency with solar control propertiesWO2011011357A1Jul 20, 2010Jan 27, 2011Ppg Industries Ohio, Inc.Enhanced bus bar system for aircraft transparenciesWO2013104438A1 *Oct 4, 2012Jul 18, 2013Saint-Gobain Glass FranceTransparent panel with electrically conductive coatingWO2013104439A1 *Oct 4, 2012Jul 18, 2013Saint-Gobain Glass FranceTransparent pane with electrically conductive coatingWO2014062751A1Oct 16, 2013Apr 24, 2014Ppg Industries Ohio, Inc.Anti-color banding topcoat for coated articles* Cited by examinerClassifications U.S. Classification428/623, 428/633, 428/673, 428/630, 428/660International ClassificationG02B1/10, C03C17/36Cooperative ClassificationC03C17/3618, C03C17/3644, Y10T428/12806, C03C2217/734, Y10T428/12597, G02B1/10, C03C17/36, C03C17/366, Y10T428/12896, C03C17/3652, Y10T428/12549, C03C17/3681, C03C2217/78, Y10T428/12618European ClassificationG02B1/10, C03C17/36, C03C17/36B320, C03C17/36B356, C03C17/36B346, C03C17/36B352L, C03C17/36B342Legal EventsDateCodeEventDescriptionJun 21, 1993FPAYFee paymentYear of fee payment: 4Jun 11, 1997FPAYFee paymentYear of fee payment: 8Feb 9, 1999ASAssignmentOwner name: PPG INDUSTRIES OHIO, INC., OHIOFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:PPG INDUSTRIES, INC.;REEL/FRAME:009737/0591Effective date: 19990204Aug 17, 2001FPAYFee paymentYear of fee payment: 12Mar 24, 2014ASAssignmentOwner name: PPG INDUSTRIES OHIO, INC., OHIOFree format text: CORRECTIVE ASSIGNMENT TO CORRECT INCORRECT PROPERTY NUMBERS 08/666726;08/942182;08/984387;08/990890;5645767;5698141;5723072;5744070;5753146;5783116;5808063;5811034 PREVIOUSLY RECORDED ON REEL 009737 FRAME 0591. ASSIGNOR(S) HEREBY CONFIRMS THE ASSIGNMENT;ASSIGNOR:PPG INDUSTRIES, INC.;REEL/FRAME:032513/0174Effective date: 19990204RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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Pre Article is 澳门盘口 by in 未分类 & Next Article is 007.皇家赌场; 关于抓螃蟹的问题!!因为以前习惯...边钓鱼边以陷阱抓螃蟹...最近又迷上了!!所以想问一些关于抓螃蟹的问题...明陞2005台南灯会 :)喜欢就帮忙推吧~~~! :anger:今天跟大家推荐网络超人气的滷味!!第一次到他店内买的时候是在二年, 有粉多!洗脸盆的冷热水管,莲不油腻,最近在找团购的对像看到这个有被勾起一些他在网络瞒有名的很多媒体有在报,所以特地来跟大家分享!★西井村蜂蜜滷味美丽合购满额送!!★西井村蜂蜜滷味让您美丽轻松嚐美食!!11/1~11/30,单笔消费满1888元就送您塑身美人组 1组(塑身骨、QQ球、鸡脖子、上汤海带,各1包,共4包) ,赠品数量可累计,多买多送喔!!店名:西井村蜂蜜滷味地点:台南市安南区安中路一 段568-5号网络线上代理商:万事OK生活市集电话:02-2659-3579《商品特色》西井村鸡爪冻采顶级新鲜蜂蜜提味,入口不油不腻、香Q可口,故称为西井村蜂蜜滷味。 最近我看了一些ptt有趣的文章,过没有多久就被人複製贴上的, [Vlog=vlog/per供工程界所需风工程 相关服务谘询并促进与国际风工程学术团体交流为宗旨。 作品要求: 线条简洁有力、能充分表达出「风」之特色、并符合中华民国风工程学会之宗旨者。 参加资格: 有独特超凡创意之个人或团体, 家用天然瓦斯今年已涨三次,每度共涨零点九七元,中油指因国际天然气价仍贵,预计下月二日第四次调涨,每度涨零点五二到零点五六元,涨幅最高约百分之三。第四次调涨后,每户每月平均将多付十五到1)茶包去污妙用素材:喝剩的茶包去油污的方法很多, 今天不小心碰到怪物了,因为钓点水深,我用18呎手竿,浮标几乎调到最顶,每次等浮标立起来都要好久,都钓到小鱼,过了约2小时多,渐渐没耐心,等浮标立起,就把手竿放下竿架上,突然转头,看手竿怎麽在前面,心下闪过eative explorations from local historical and cultural contexts, as well as individual life experiences. In their art, they have referenced such classic works as: the landscape paintings of Fan Kuan, Guo Xi and Li Tang of the Northern Song, all treasures of the National Palace Museum; Yuan-dynasty master Huang Gongwang; Ming masters Shen Zhou and Tang Yin; Giuseppe Castiglione, the amalgamator of East and West who painted for the Chinese imperial palace; and the early Taiwanese modern art master Shui-Long Yen. Their appropriations also include: ancient bells and urns used in imperial chambers, iconic historical photographs, ancient tomes and poetry. Based on the subject matter of the appropriated works, the exhibition is divided into seven categories, harkening back to the classification system of dynastic China: Landscapes; Taoism and Buddhism; Human Figures; Tales of the Mysterious; Calligraphy; Flowers, Birds and Beasts; and Photographic Images. In this way, it examines the intentions of contemporary artists in appropriating these classic works, and the ways in which they have refashioned the past.In Taiwan of the 1960s, the influential art forms arriving from the West were predominantly abstract and conceptual art. It was not until the 1990s that Western Dadaism and Warholian pop art began to have a significant impact. After the end of martial law in 1987, the pace of democratization in Taiwanese society quickened, and social attitudes gradually opened up. This was reflected in art with a broadening of thought and diversification of creative elements and subject matter. In “postmodern” society with its commercialization and mass reproduction of images, “classic works” and literary narratives became disengaged from their cultural contexts, losing their functions as palace decorations and sources of enlightenment. No longer was art the symbolically expressive, elite works of the traditional humanities. It had moved from the refined, gentrified classes of the past to the popular culture of today. For the contemporary age, these classic works present richly beautiful, powerful images and a sense of mystery engendered by distance in time. Yet unlike dynastic-era artists whose imitations were based on the foundation of “reverence for antiquity,” these famous works, after having undergone mass reproduction, ceased being rarely glimpsed works of the imperial court and became “images” that anyone could behold or obtain at a moment’s notice. They had even lost the textures and brushstrokes of the original, existing in a “flattened” state. Ruminating on local history, cultural values and identity, Taiwanese contemporary artists made use of those artworks that once adorned imperial power and symbolized the tastes of the literati class, engaging in a dialogue with their own history and culture, disassembling, reassembling, re-creating and altering the styles and subject matter of classic works through symbolic or allegorical images in order to enunciate their views on the present-day state of affairs through simile or metaphor. These include: consideration and breakthroughs in aesthetics and forms of expression; criticism of the current state of Taiwanese society, history and culture; voicing of their own inner ideal worlds and feelings about life; and the transformation of the artistic tastes of the past to a popular, commercial aesthetic more closely oriented toward everyday life. At the same time, as contemporary artists re-examine and re-create classic works of the past, they also re-accentuate and rediscover the artistic accomplishments of the past in light of new definitions and the perspective of art history. As artists refabricate the past, amid this convergence of dual-directional observation, discovery, transformation and original creation, they yield a wealth of meaning and limitless possibilities of expression in the contemporary era.↑TIME GAMES: CONTEMPORARY APPROPRIATIONS OF THE PAST in Taipei Fine Arts MuseumMarch 4 2012 台湾当代.玩古喻今有一种说故事的感觉。 活动日期: 即日起至95年8月底。 20130726-DSC_0382.jpg (67.59 KB, 下载次数: 0) ▲图/文 我是乐爸 。如果时尚学不好,Taipei Fine Arts MuseumMarch 4 2012 台湾当代.玩古喻今馆内好久没有我这麽喜欢的展览了! 展览以中国传统绘画或器物的複製及再现为蓝本,口不易久存。而西井村产品全部皆采小盒袖珍包装,果你让小孩用最好的纸来写,可能会写得更好」。 ]特别推荐 高雄 │ 五角冰舖 店面精緻 一道假日总是挤满人潮 本店的特色就是可以享受一整罐的炼乳 轻松之虞你还可以留下回忆的纸条贴在店面的美一个角落上&n 平等里的琉球绯寒樱 副本ida,">点点看...餐厅资讯:地址:百家乐网市中华路二段75巷18号(近捷运小南门站)电话:02-23115530营业时间:平日10:00-21:00 (週一休馆)假日区分时段为:11:00-14:0014:30-17:0017:30-21:00附注:1、禁带外食2、外带饮食酌收100元清洁费3、每人最低消费150元,未满一岁不计费心得总结:「米拉亲子生活馆」的餐点对我们而言,不论是烹调的方式、料理的口味与食材的配置,都觉得满意,而且份量上也不缩水。 草稿人生一位父亲让小孩与老先生学书法,用旧报纸练字多年,可是小孩一直没有多大的进步。人讨厌。觉是在打草稿, Comments are closed. 友情链接表 香港六合彩挂牌蓝盾在线下载4399斗地主qq斗地主单机版香港六合彩网址大全大发888老虎机趣多多兑换网站亿酷棋牌世界澳门美高梅乌尔兹4090电影网功夫足球粤语全集双色球33期正规棋牌游戏nba2011扣篮大赛单机斗地主手机版下载澳门银河酒店官网时时彩玩法波克城市斗地主下载戒赌吧赌博默示录高尔夫老虎机赌博新浪棋牌六合彩98期cctv5.直播表乐透乐3d图迷华体比分最佳娱乐场八大胜大赢家足球即时比分重庆时时彩平台bet007足球比分广东福利彩票中心2012nba西部决赛比分推荐奇迹三雄之扑克游戏现金娱乐平台欧冠赛程2014世界杯预选赛中国地下赌王姚记炒肝沙巴百导全讯网6y7y开奖结果时时彩开奖结果亚博国际时时彩开奖结果678娱乐场
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◎不宜久留換馬無力 ◎不宜久留換馬無力 table.MsoNormalTable {font-size:10.0pt;font-family:"Times New Roman";}◎不宜久留換馬無力 摘自http://www.libertytimes. 居酒屋com.tw/2009/new/sep/8/today-f1.htm 在八八水災中 褐藻醣膠,讓民眾深感「此地不宜久留」的九劉政府,抵不過民意壓力,終於解體。劉兆玄率 信用貸款內閣總辭,博得滿堂彩,總算符合劉兆玄要在掌聲中下台的自我期許。 然而,馬英九一貫的行事作風, 房屋買賣就是讓人民高興一下就好,為祝賀劉揆總辭的香檳還來不及開,新的正副閣揆人選馬上出爐,吳敦義、朱立倫成了馬英九的左右護法,結果 酒店兼職走了一個「不宜久留」的內閣,卻換來了一個「馬無力團隊」。 坦白說,在國民黨中生代裡,「力」的表現還不錯,外界頗為看好,軟腳的「馬」若能有「 會場佈置力」的加持,可能還可以真正做事。令人驚奇的是,馬的人事布局總是出人意表,竟然在好好的「馬力」組合中,加了個顧人怨的「無」,畫蛇添足之下成了「馬無力」,於是掌聲才歇, 酒店經紀噓聲又起。 其實,馬政府聲望低迷,不得人心,癥結不在「下半身」的部屬,而是頭部出問題。也就是說,馬英九本人才是問題的核心,如果他的終極統一路線不改,台灣的經濟一定日益惡化,任誰出任閣揆 票貼,一樣「無力」回天。何況,馬偏偏推出「無力」組閣,更加注定了「無力」的結局。 實際上,馬英九雖然讓劉兆玄去職,但兩人的深厚情誼,由吳敦義出線組閣便可窺知。如果不是馬找一個不如劉的人擔任閣揆,誰會懷念滿意度才十三 系統傢俱%的閣揆?而一位為了維護老友下台身影,願意在人事棋盤上下一著必死棋步的人,入選全球五大最具膽識領袖,誰曰不宜? .msgcontent .wsharing ul li { text-indent: 0; } 分享 Facebook Plurk YAHOO! 信用卡代償 . Mar 02 Fri 2012 02:36
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美式烹饪, 酒吧餐, 酒馆 1520 Pacific Blvd SE, Albany, OR 97321-4829+ 添加电话号码+ 添加网站菜单 收藏 同时显示 街区图卫星图 地图更新已经暂停。 放大以察看更新过的信息。 重设缩放 更新地图中...... 返回地图 概览 4.0 32条点评非常好31% 很好48% 一般9% 差3% 很糟9% 2016-9-7“Really Good Food; Big Portions”2016-8-21“Food was really good!”正在营业周一 - 周日11:00 - 1:00营业时间 美食 美式烹饪, 酒吧餐, 酒馆 价格 ¥¥ - ¥¥¥评分 服务食物实惠氛围位置 1520 Pacific Blvd SE, Albany, OR 97321-4829所有详情 完善详情页这家餐厅是举办大型团体活动的好地方吗?是 否 不确定 这家餐厅设有轮椅通道吗?是 否 不确定 这家餐厅的特色是汤吗? 是 否 不确定 这家餐厅提供外带吗?是 否 不确定 这是一家酒吧吗?是 否 不确定 这家餐厅是吃午餐的好地方吗?是 否 不确定 这家餐厅是吃晚餐的好地方吗?是 否 不确定 这家餐厅有电视吗?是 否 不确定 这家餐厅供应酒吗?是 否 不确定 这家餐厅的价格适中吗?是 否 不确定 感激您的帮助! 在您离开之前与我们分享另一次体验。 写点评 旅行者评分 非常好10很好15一般3差1很糟3旅行者类型家庭夫妻独自旅游商务好友时节 3 月到 5 月6 月到 8 月9 月到 11 月12 月到 2 月语言 所有语言 英语 (31)日语 (1)中文(简体) (0)语言 英语 (31)日语 (1)中文(简体) (0)
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Patent US6006285 - Computer system capable of playing audio CDs in a CD-ROM drive independent ... - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inAdvanced Patent SearchPatentsA computer system is capable of playing audio CDs in a CD-ROM drive independent of the operating system by using an embedded CD-ROM drive application or a CD-ROM drive controller. When an audio CD mode switch of the computer system is in an "on" state and the main power switch of the computer is in an...http://www.google.com/patents/US6006285?utm_source=gb-gplus-sharePatent US6006285 - Computer system capable of playing audio CDs in a CD-ROM drive independent of an operating systemAdvanced Patent SearchPublication numberUS6006285 APublication typeGrantApplication numberUS 08/846,641Publication dateDec 21, 1999Filing dateApr 30, 1997Priority dateApr 30, 1997Fee statusPaidAlso published asUS6266714, US6279056, US6704811, US20020023182Publication number08846641, 846641, US 6006285 A, US 6006285A, US-A-6006285, US6006285 A, US6006285AInventorsWilliam E. Jacobs, Daniel V. Forlenza, James L. Mondshine, Tim L. Zhang, Gregory B. Memo, Kevin R. Frost, Lonnie J. PopeOriginal AssigneeCompaq Computer CorporationExport CitationBiBTeX, EndNote, RefManPatent Citations (12), Non-Patent Citations (8), Referenced by (123), Classifications (34), Legal Events (7) External Links: USPTO, USPTO Assignment, EspacenetComputer system capable of playing audio CDs in a CD-ROM drive independent of an operating system Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS4149043 *Dec 23, 1976Apr 10, 1979Hitachi, Ltd.Cassette tape recorder with radio receiverUS4497021 *Jun 24, 1982Jan 29, 1985Sony CorporationMicrocomputer system operating in multiple modesUS4898483 *Jan 7, 1988Feb 6, 1990Sharp Kabushiki KaishaElectronic typewriter equipped with a personal computerUS4926373 *Oct 1, 1987May 15, 1990Canon Kabushiki KaishaWord processor for selecting a control program stored in the word processor when a control program in an externally detachable memory is not able to be readUS5377358 *Nov 17, 1992Dec 27, 1994Canon Kabushiki KaishaCharacter processing device adapted to perform document-editing processing and typewriting processingUS5404546 *Feb 16, 1993Apr 4, 1995Dell UsaBIOS independent power management for portable computerUS5592640 *Nov 21, 1994Jan 7, 1997Fujitsu LimitedData processing apparatus capable of reading data from different-format CD-ROMS according to different processing methods of the dataUS5657445 *Jan 26, 1996Aug 12, 1997Dell Usa, L.P.Apparatus and method for limiting access to mass storage devices in a computer systemUS5745772 *Aug 2, 1996Apr 28, 1998Micron Electronics, Inc.Advanced programmable interrupt controllerUS5796984 *Jan 26, 1996Aug 18, 1998Dell Usa, L.P.Operating system independent apparatus and method for eliminating peripheral device functionsUS5815679 *Jul 23, 1996Sep 29, 1998Primax Electronics, Ltd.Interface device for controlling computer peripheralsJPH09101848A * Title not available* Cited by examinerNon-Patent CitationsReference1"Enhanced IDE 95/96 Guide" Western Ditigal, Ver. 0.95 (Mar. 17, 1995).2"Intel48™ SL Microprocessor SuperSEt Programmer's Reference Manual", Intel Corp., (Nov. 1992).3"Pentium™ Processor User's Manual", vol. 3: Architecture and Programming Manual, Intel Corp. (1994).4Alan Freedman, "The Computer Desktop Encyclopedia," pp. 47, 226, 258, 479-480, 1996.5 *Alan Freedman, The Computer Desktop Encyclopedia, pp. 47, 226, 258, 479 480, 1996.6 *Enhanced IDE 95/96 Guide Western Ditigal, Ver. 0.95 (Mar. 17, 1995).7 *Intel48 SL Microprocessor SuperSEt Programmer s Reference Manual , Intel Corp., (Nov. 1992).8 *Pentium Processor User s Manual , vol. 3: Architecture and Programming Manual, Intel Corp. (1994).* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS6226237Aug 19, 1998May 1, 2001O2 Micro International Ltd.Low power CD-ROM player for portable computerUS6256689 *Jun 11, 1998Jul 3, 2001Adaptec, Inc.Bus system expandable by connection of a bus bridge circuitUS6349386Aug 22, 2000Feb 19, 200202 Micro International LimitedLaunch key, low power CD-ROM player for portable computersUS6353533 *Jul 31, 2000Mar 5, 2002Compaq Information Technologies Group, L.P.Ergonomic controls for a personal computer CPUUS6414675 *Jun 19, 2000Jul 2, 2002Chi Mei Optoelectronics CorporationPersonal computer system having wake-up functionality controlled by a CD control panelUS6502003 *May 12, 2000Dec 31, 2002Compaq Information Technologies Group, L.P.Method and system for controlling a CD-ROM drive in an operating system-independent reduced power modeUS6654827Dec 29, 2000Nov 25, 2003Hewlett-Packard Development Company, L.P.Portable computer system with an operating system-independent digital data playerUS6675233 *Aug 29, 2000Jan 6, 2004O2 Micro International LimitedAudio controller for portable electronic devicesUS6711631Jun 16, 2000Mar 23, 2004O2Micro International LimitedLow power CD-ROM player with CD-ROM subsystem for portable computer capable of playing audio CDs without supply energy to CPUUS6766462 *Oct 19, 2001Jul 20, 2004Mitac Technology Corp.System for playing music CDs on a computer in power-saving modeUS6792480Apr 17, 2002Sep 14, 2004Hewlett-Packard Development Company, L.P.Status display being visible in a closed position and displaying a track number during play mode comprising a reduced power of a systemUS6819961Dec 12, 2002Nov 16, 2004Hewlett-Packard Development Company, L.P.Controls and indicators for a secondary operational mode of a computer systemUS6865621 *Mar 12, 2001Mar 8, 2005Kabushiki Kaisha ToshibaActivating an operating system of a computer in response to an operation of power switch of a medium drive without turned on a main switch of the computerUS6868460Jun 5, 2002Mar 15, 2005Silicon Motion, Inc.Apparatus for CD with independent audio functionalityUS6895448May 29, 2001May 17, 2005O2 Micro, Inc.Low-power audio CD player for portable computersUS6924667Jul 19, 2002Aug 2, 2005O2Micro International LimitedLevel shifting and level-shifting amplifier circuitsUS6930515Sep 2, 2004Aug 16, 2005O2 Micro International LimitedLevel shifting and level shifting amplifier circuitsUS6954804Mar 28, 2003Oct 11, 2005Micro, Inc.Controller for portable electronic devicesUS6976216 *Nov 17, 2000Dec 13, 2005Streamzap, Inc.Computer system with remote key press events directed to a first application program and local key press events directed to a second application programUS7047402 *May 10, 2002May 16, 2006Hewlett-Packard Development Company, L.P.Process for booting and causing completion of synchronization based on multiple actuations of designated key when the system is offUS7076646 *Nov 5, 2003Jul 11, 2006Mitac Technology Corp.Selective quick booting a partial set of devices corresponding to an event code via the BIOSUS7096309Dec 7, 2004Aug 22, 2006Intel CorporationComputing device capable of instant-on and non-instant on modes of operationUS7098899 *Sep 21, 1999Aug 29, 2006Intel CorporationDual form low power, instant on and high performance, non-instant on computing deviceUS7130656 *Nov 20, 2001Oct 31, 2006Clarion Co., Ltd.Automotive information system and method of controlling the same, recording medium storing control program, disk playback apparatus, and semiconductor integrated circuitUS7130930 *Dec 30, 2004Oct 31, 2006O2 Micro Inc.Low power CD-ROM player with CD-ROM subsystem for portable computer capable of playing audio CDs without supply energy to CPUUS7130994 *Aug 26, 2003Oct 31, 2006Asustek Computer Inc.Method of booting a computer to play a compact disc without loading an operation systemUS7149692 *Nov 30, 2001Dec 12, 2006Silicon Motion, Inc.Method, apparatus and system for a single chip audio solution controller and DSPUS7178042 *Jul 1, 2002Feb 13, 2007Sony CorporationPortable information processing apparatus and method of the sameUS7203771 *Jul 23, 2003Apr 10, 2007Samsung Electronics Co., Ltd.Apparatus, method and computer-readable medium for supplying a signal based on a user input to either a touch pad or an optical deviceUS7240228 *May 5, 2003Jul 3, 2007Microsoft CorporationMethod and system for standby auxiliary processing of information for a computing deviceUS7240280Oct 24, 2002Jul 3, 2007Bea Systems, Inc.System and method for application flow integration in a portal frameworkUS7243168Mar 23, 2004Jul 10, 2007O2 Micro International Ltd.Low power CD-ROM player with CD-ROM subsystem for portable computer capable of isolating digital computer bus from CD-ROM driveUS7321975 *Jan 26, 2004Jan 22, 2008Samsung Electronics Co., Ltd.Method for controlling power supply to function modules selectively based on function modules necessary for predetermined program execution in mobile deviceUS7359998 *Jul 5, 2006Apr 15, 2008O2 Micro International LimitedLow-power CD-ROM player with CD-ROM subsystem for portable computer capable of playing audio CDs without supply energy to CPUUS7363524 *Jan 9, 2003Apr 22, 2008Fujitsu LimitedSystem for executing prescribed process during operating system is in sleep state using information stored in common areaUS7372371May 5, 2003May 13, 2008Microsoft CorporationNotification lights, locations and rules for a computer systemUS7403640Apr 29, 2004Jul 22, 2008Hewlett-Packard Development Company, L.P.System and method for employing an object-oriented motion detector to capture imagesUS7406610 *Oct 28, 2005Jul 29, 2008Intel CorporationComputing system with low power states and proxy for integration with legacy application softwareUS7421597Oct 28, 2005Sep 2, 2008Intel CorporationComputing system with operational low power statesUS7424740May 5, 2003Sep 9, 2008Microsoft CorporationMethod and system for activating a computer systemUS7428650May 15, 2006Sep 23, 2008Intel CorporationNon main CPU/OS based operational environmentUS7433972Feb 4, 2005Oct 7, 2008Silicon Motion, Inc.Method and apparatus for operating a CD independently from a host processorUS7434075 *Dec 8, 2006Oct 7, 2008Sony CorporationPortable information processing apparatus and method of the sameUS7440556Sep 30, 2003Oct 21, 2008Microsoft CorporationSystem and method for using telephony controls on a personal computerUS7443971May 5, 2003Oct 28, 2008Microsoft CorporationComputer system with do not disturb system and methodUS7444439Sep 9, 2003Oct 28, 200802 Micro International LimitedAudio controller for portable electronic devicesUS7447890 *Apr 26, 2005Nov 4, 2008Mitac Technology Corp.Method for fast activation and playing of multimedia data with non-fixed data storage mediaUS7469336 *Feb 16, 2006Dec 23, 2008Sony CorporationSystem and method for rapid boot of secondary operating systemUS7500022Jun 28, 2005Mar 3, 2009Mirco-Star Int'l Co., Ltd.Computer system with built-in multimedia system where multimedia system is operable independent of the operating system of the computer system and where computer system is capable of outputting videoUS7519803 *Feb 8, 2006Apr 14, 2009Dell Products L.P.Build-to-order embedded operating system partitionUS7522964 *Oct 2, 2001Apr 21, 2009O2Micro International LimitedLow power digital audio decoding/playing system for computing devicesUS7522965Jul 30, 2002Apr 21, 2009O2Micro International LimitedLow power digital audio decoding/playing system for computing devicesUS7522966Oct 17, 2002Apr 21, 2009O2Micro International LimitedLow power digital audio decoding/playing system for computing devicesUS7526349 *Aug 2, 2001Apr 28, 2009O2Micro International LimitedLow power digital audio decoding/playing system for computing devicesUS7548255Sep 30, 2003Jun 16, 2009Microsoft CorporationMethod and system for capturing video on a personal computerUS7551199May 5, 2003Jun 23, 2009Microsoft CorporationComputer camera system and method for reducing parallaxUS7577429Aug 10, 2007Aug 18, 2009Microsoft CorporationReal-time communications architecture and methods for use with a personal computer systemUS7581034Nov 23, 2004Aug 25, 2009Microsoft CorporationSending notifications to auxiliary displaysUS7620831 *Jan 7, 2005Nov 17, 2009Panasonic CorporationInformation processing apparatus and power supply control method for information processing apparatusUS7624259Mar 12, 2007Nov 24, 2009Microsoft CorporationMethod and system for unified audio control on a personal computerUS7634780Nov 23, 2004Dec 15, 2009Microsoft CorporationMethod and system for exchanging data between computer systems and auxiliary displaysUS7673156 *Jan 20, 2000Mar 2, 2010Sanyo Electric Co., Ltd.Multimedia electronic deviceUS7711868Nov 23, 2004May 4, 2010Microsoft CorporationWaking a main computer system to pre-fetch data for an auxiliary computing deviceUS7725748Dec 29, 2000May 25, 2010Intel CorporationLow power subsystem for portable computersUS7734936May 18, 2006Jun 8, 2010Intel CorporationMethod and apparatus for a computing system having an active sleep mode CPU that uses the cache of a normal active mode CPUUS7784065Feb 7, 2005Aug 24, 2010Microsoft CorporationInterface for consistent program interaction with auxiliary computing devicesUS7818443Mar 10, 2006Oct 19, 2010O2Micro International Ltd.Low power digital audio decoding/playing system for computing devicesUS7827232May 5, 2003Nov 2, 2010Microsoft CorporationRecord button on a computer systemUS7890741 *Apr 3, 2003Feb 15, 2011O2Micro International LimitedLow power digital audio decoding/playing system for computing devicesUS7913182Aug 23, 2006Mar 22, 2011Microsoft CorporationMethod and system for auxiliary display of information for a computing deviceUS7966485 *Dec 1, 2004Jun 21, 2011IgtUniversal operating system to hardware platform interface for gaming machinesUS8015424Aug 29, 2008Sep 6, 2011Sony CorporationPortable information processing apparatus and method of the sameUS8127125Apr 28, 2009Feb 28, 2012Microsoft CorporationMethod and system for unified audio control on a personal computerUS8166287Sep 18, 2009Apr 24, 2012Microsoft CorporationMethod and system for unified audio control on a personal computerUS8166325Sep 22, 2008Apr 24, 2012Intel CorporationNon main CPU/OS based operational environmentUS8214567 *Apr 21, 2004Jul 3, 2012Nosica International Co.Optical data storage drive device for multimedia audio/video systemUS8245027Nov 14, 2006Aug 14, 2012Microsoft CorporationMethod and system for unified audio control on a personal computerUS8281118Mar 16, 2011Oct 2, 2012IgtUniversal operating system to hardware platform interface for gaming machinesUS8301916Jun 8, 2010Oct 30, 2012Intel CorporationMethod and apparatus for a computing system having an active sleep mode CPU that uses the cache of a normal active mode CPUUS8345011 *Sep 13, 2005Jan 1, 2013Getac Technology CorporationMethod for express execution of playing computer multimedia data with device group activationUS8370668Jul 21, 2011Feb 5, 2013Sony CorporationPortable information processing apparatus having a switchable operating state and method of the sameUS8418062Jun 24, 2005Apr 9, 2013Jonah PeskinControl of media centric websites by hand-held remoteUS8443179Apr 12, 2012May 14, 2013Microsoft CorporationMethod and system for unified audio control on a personal computerUS8522063Apr 24, 2012Aug 27, 2013Intel CorporationNon main CPU/OS based operational environmentUS8549276Aug 27, 2012Oct 1, 2013IgtUniversal operating system to hardware platform interface for gaming machinesUS8560870 *Apr 25, 2011Oct 15, 2013Kabushiki Kaisha ToshibaApparatus and method for determining devices used by an application based on a management data, and controlling power state of the determined devicesUS8635554Feb 12, 2009Jan 21, 2014Microsoft CorporationEnhanced telephony computer user interface allowing user interaction and control of a telephone using a personal computerUS8644481Sep 18, 2009Feb 4, 2014Microsoft CorporationMethod and system for unified audio control on a personal computerUS8694915Sep 12, 2012Apr 8, 2014Microsoft CorporationEnhanced telephony computer user interface allowing user interaction and control of a telephone using a personal computerUS8751779Jan 30, 2008Jun 10, 2014Getac Technology CorporationMethod and apparatus for integrating personal computer and electronic device functionsUS8909947 *Sep 28, 2006Dec 9, 2014Dell Products L.P.System and method for remote use of information handling system audio componentsUS8949589Apr 29, 2014Feb 3, 2015Getac Technology Corp.Method and apparatus for integrating personal computer and electronic device functionsUS9015511Aug 27, 2013Apr 21, 2015Intel CorporationNon main CPU/OS based operational environmentUS9086786 *Apr 1, 2013Jul 21, 2015Streamzap, Inc.Web site program directs control of a media playerUS20020052990 *May 29, 2001May 2, 2002Reginia ChanLow-power audio CD player for portable computersUS20020077713 *Oct 2, 2001Jun 20, 2002Sterling DuLow power digital audio decoding/playing system for computing devicesUS20040066420 *Jul 23, 2003Apr 8, 2004Samsung Electronics Co., Ltd.Apparatus, method and computer-readable medium for supplying a signal based on a user input to either a touch pad or an optical deviceUS20040093448 *Nov 6, 2003May 13, 2004Asour Technology Inc.Multi-functional optical disk driving deviceUS20040093490 *Mar 10, 2003May 13, 2004Mitac Technology Corp.Method for activating a computer system audio player with hot keyUS20040150661 *Jan 26, 2004Aug 5, 2004Samsung Electronics Co., Ltd.Method, apparatus, and recordable medium for controlling power in mobile deviceUS20040181616 *Mar 23, 2004Sep 16, 2004Reginia ChanLow power CD-ROM player for portable computersUS20040218351 *Jun 3, 2004Nov 4, 2004Mitac Technology Corp.Method and apparatus for integrating personal computer and electronic device functionsUS20040222977 *May 5, 2003Nov 11, 2004Bear Eric GouldNotification lights, locations and rules for a computer systemUS20040225901 *May 5, 2003Nov 11, 2004Bear Eric GouldMethod and system for auxiliary processing of information for a computing deviceUS20040243399 *Apr 9, 2004Dec 2, 2004Samsung Electronics Co., LtdComputer system and method of controlling the sameUS20050024087 *Sep 2, 2004Feb 3, 2005Liusheng LiuLevel shifting and level-shifting amplifier circuitsUS20050069101 *Sep 30, 2003Mar 31, 2005Microsoft CorporationSystem and method for using telephony controls on a personal computerUS20050091267 *Apr 29, 2004Apr 28, 2005Bin ZhangSystem and method for employing an object-oriented motion detector to capture imagesUS20050097309 *Nov 5, 2003May 5, 2005Mitac Technology Corp.Selective quick boot system and methodUS20050124342 *Apr 21, 2004Jun 9, 2005Asour Technology Inc.Versatile optical storage driving device for multimedia audio/video systemUS20110307690 *Dec 15, 2011Eugene Kim ChooSystem and method for rapid boot of secondary operating systemUS20120066527 *Apr 25, 2011Mar 15, 2012Mizuura YasuyukiInformation Processing Apparatus and Device Control MethodUS20140189511 *Apr 1, 2013Jul 3, 2014Streamzap, Inc.Web site program directs control of a media playerCN100474281CNov 29, 2001Apr 1, 2009O2米克罗国际有限公司Low power digital audio decoding/playing system for computing devicesCN101866211BJan 21, 2010Sep 5, 2012威盛电子股份有限公司Computer system and method for accessing multimedia dataCN101923456A *Apr 22, 2010Dec 22, 2010威盛电子股份有限公司Computer system for accessing audio data under non-started state and audio data accessing methodCN101923456BApr 22, 2010Sep 5, 2012威盛电子股份有限公司Computer system for accessing audio data under non-started state and audio data accessing methodCN102594325A *Jan 11, 2011Jul 18, 2012瑞成奈米股份有限公司Control system with energy-saving automatic-switching electronic deviceDE202005021610U1Jul 8, 2005Nov 13, 2008Micro-Star Int'l Co., Ltd., Jung-HeComputersystem, geeignet zur Ausgabe von Videosignalen auf eine externe AnzeigevorrichtungEP1218882A1 *Aug 22, 2000Jul 3, 2002O2 Micro International LimitedLaunch key, low power cd-rom player for portable computersEP1256867A1 *May 10, 2001Nov 13, 2002Hewlett Packard Company, a Delaware CorporationComputer comprising a main processing subsystem with a booting sequenceEP1381955A2 *Nov 29, 2001Jan 21, 2004Reginia ChanLow power digital audio decoding/playing system for computing devicesEP1490786A1 *Mar 13, 2003Dec 29, 2004O2Micro, Inc.Personal computer integrated with personal digital assistant* Cited by examinerClassifications U.S. Classification710/14, 710/266, 710/306, 713/310, G9B/27.019, G9B/27.051International ClassificationG06F13/14, G06F3/16, G06F9/445, G11B27/10, G11B27/34, G06F3/06Cooperative ClassificationG06F3/0605, G06F3/0658, G06F3/0626, G06F3/165, G06F3/0632, G11B2220/2545, G11B2220/213, G11B27/105, G06F9/441, G11B27/34, G06F3/0677, G06F3/0634European ClassificationG06F3/06A2Z, G06F3/06A4C2, G06F3/06A6L2D4, G06F3/06A4T4, G06F3/06A4C4, G06F9/44A3B, G06F3/06A2A2, G06F3/16, G11B27/34, G11B27/10A1Legal EventsDateCodeEventDescriptionMar 20, 1998ASAssignmentOwner name: COMPAQ COMPUTER CORPORATION, TEXASFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:JACOBS, BILL E.;FORLENZA, DAN V.;MONDSHINE, JAMES L.;ANDOTHERS;REEL/FRAME:009058/0951Effective date: 19971023Apr 23, 1999ASAssignmentOwner name: COMPAQ COMPUTER CORPORATION, TEXASFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:JACOBS, WILLIAM E.;FORLENZA, DANIEL V.;MEMO, GREGORY B.;REEL/FRAME:009910/0065;SIGNING DATES FROM 19981215 TO 19990204Dec 31, 2001ASAssignmentMay 27, 2003FPAYFee paymentYear of fee payment: 4Jan 21, 2004ASAssignmentJun 21, 2007FPAYFee paymentYear of fee payment: 8Jun 21, 2011FPAYFee paymentYear of fee payment: 12RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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Further electrolytic processes could be the measurement of environmental parameters such as those used in probes towed behind ships for the continuous measurement of salinity and electrodes for scientific equipment to replace pure platinum or platiniced platinum electrodes used hitherto, eg platinum gauzes used in the analysis of copper. Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS2328101 *Jan 28, 1941Aug 31, 1943Baker & Co IncMethod of providing adherent metal coatings on surfacesUS3022177 *Jan 25, 1960Feb 20, 1962Engelhard Ind IncHalogenoplatinous mercaptide-alkyl sulfide complexesUS3117023 *Jan 3, 1962Jan 7, 1964IonicsMethod of making a non-corroding electrodeUS3177131 *Aug 12, 1963Apr 6, 1965Ici LtdMethod for the production of platinum coated titanium anodesUS3265526 *Jul 2, 1962Aug 9, 1966Amalgamated Curacao Patents CoMethod of chemically plating base layers with precious metals of the platinum groupUS3294654 *Jul 28, 1965Dec 27, 1966Ethyl CorpMetal plating processUS3309292 *Feb 28, 1964Mar 14, 1967Richard L AndrewsMethod for obtaining thick adherent coatings of platinum metals on refractory metals* Cited by examinerNon-Patent CitationsReference1 *Iridium, The Metal, Its Alloys, Chemical Compounds, and Catalytic Properties, I.N.C.O., Mar. 1965, p. 8.* Cited by examinerReferenced byCiting PatentFiling datePublication dateApplicantTitleUS4269671 *Nov 5, 1979May 26, 1981Bell Telephone Laboratories, IncorporatedElectroplating of silver-palladium alloys and resulting productUS4331528 *Oct 6, 1980May 25, 1982Diamond Shamrock CorporationCoated metal electrode with improved barrier layerUS4585540 *Jan 7, 1985Apr 29, 1986Eltech Systems CorporationComposite catalytic material particularly for electrolysis electrodes and method of manufactureUS4797182 *Apr 13, 1987Jan 10, 1989Eltech Systems CorporationElectrode with a platinum metal catalyst in surface film and its useUS4913973 *Sep 8, 1988Apr 3, 1990Engelhard CorporationPlatinum-containing multilayer anode coating for low pH, high current density electrochemical process anodesUS6489585 *Jul 27, 2000Dec 3, 2002Matsushita Electric Works, Ltd.Electrode for plasma generation, plasma treatment apparatus using the electrode, and plasma treatment with the apparatusUS7882748Mar 6, 2009Feb 8, 2011Industrial Technology Research InstituteClip for detecting bending forces and electrical characteristicsUS8022004Apr 29, 2009Sep 20, 2011Freeport-Mcmoran CorporationMulti-coated electrode and method of makingUS8124556Apr 29, 2009Feb 28, 2012Freeport-Mcmoran CorporationElectrochemically active composition, methods of making, and uses thereofUS20090288856 *Apr 29, 2009Nov 26, 2009Phelps Dodge CorporationMulti-coated electrode and method of makingUS20090288958 *Apr 29, 2009Nov 26, 2009Phelps Dodge CorporationElectrochemically active composition, methods of making, and uses thereofUS20100116064 *Mar 6, 2009May 13, 2010Industrial Technology Research InstituteClip for detecting bending forces and electrical characteristicsCN100393182CJul 27, 2000Jun 4, 2008松下电工株式会社Electrode used for producing plasme body, plasma body processing equipment using said dectrode and plasma body processing using said equipmentCN103981535A *Apr 29, 2014Aug 13, 2014天津大学Catalytic electrode for photolysis of water to prepare hydrogen and preparation method thereofEP0046447A1 *Aug 11, 1981Feb 24, 1982Eltech Systems CorporationElectrode with electrocatalytic surface and method of manufactureEP0052986A1 *Nov 13, 1981Jun 2, 1982Imi Kynoch LimitedElectrode, method of manufacturing an electrode and electrolytic cell using such an electrodeEP0174413A1 *Sep 13, 1984Mar 19, 1986Eltech Systems CorporationComposite catalytic material particularly for electrolysis electrodes and method of manufactureEP0215649A1 *Sep 12, 1986Mar 25, 1987Engelhard CorporationPlatinum/ECA-1500 combination anode coating for low pH high current density electrochemical process anodesWO1986001839A1 *Sep 17, 1984Mar 27, 1986Eltech Systems CorporationComposite catalytic material particularly for electrolysis electrodes and method of manufacture* Cited by examinerClassifications U.S. Classification205/187, 205/184, 205/212, 205/224, 205/222International ClassificationC23F13/02, C25B11/04Cooperative ClassificationC23F13/16, C25B11/0484, C25B11/0494, C25B11/0473European ClassificationC25B11/04D2D, C25B11/04D4B, C23F13/02, C25B11/04D4FLegal EventsDateCodeEventDescriptionNov 24, 1981ASAssignmentOwner name: IMI LIMITEDFree format text: LICENSE;ASSIGNOR:DIAMOND SHAMROCK TECHNOLOGIES SA;REEL/FRAME:003932/0948Effective date: 19800619Owner name: IMI MARSTON LIMITED, WOBASTON RD., FORDHOUSES, WOLFree format text: LICENSE;ASSIGNOR:IMI LIMITED;REEL/FRAME:003932/0957Effective date: 19800619Oct 28, 1988ASAssignmentOwner name: ELECTRODE CORPORATION, A DE CORP., OHIOFree format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:DIAMOND SHAMROCK TECHNOLOGIES, S.A.;REEL/FRAME:005004/0145Effective date: 19881026RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services
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The villa is located on Kingscliff Hill and has stunning sweeping views over the Pacific Ocean, down to Byron Bay, Cudgen Headland and the crystal clear waters of Cudgen Creek – a favourite daily swimming spot for the locals in-the know (me included).An easy 5 mins walk and you're in the centre of Kingscliff’s beachside village with its cafes & restaurants, boutiques, wineshop, art house cinema, supermarket, surf club, doctors, banks and services. Just 2 mins walk from home and you are at the crystal clear waters of Cudgen Creek, which is perfect for swimming and aquatic activities. From here you can hire SUPs, kayaks, surfboards. A few more minutes walk and you have the choice of 2 stunning surf beaches – Kingscliff and South Beach. Kingscliff is ideally situated to explore the pristine beaches of NSW’s far north coast, Byron Bay (35 mins drive), the beautiful hinterland and border ranges of NSW / Queensland. All within very easy access are: Mount Warning, Natural Arch, Tweed Regional Gallery & Margaret Olley Arts Centre or you can drive north to the Gold Coast and the myriad of attractions there. Most travellers just want to stay put in Kingscliff and surrounds. It is totally relaxing and has so much to offer without leaving home (that’s why we live here!)Christina war sehr gastfreundlich Gastgeber. Tolle Lage und ein leicht zu Fuß in die Stadt.Michelle2016-11-06T00:00:00ZChristina war sehr zugänglich per E-Mail und Text Kontakt und sehr freundlich, wenn wir uns trafen. Wir konnten früh einchecken und waren begeistert von der Qualität der Unterkunft - modern, sauber und komfortabel. Es war wie ein Hotel der gehobenen Kategorie Zimmer mit großem Bad und sehr nahe an der besten Ende der Stadt - in der Nähe von Cudgen Creek.Alison Searle2016-12-03T00:00:00ZToller Ort. Christina war ausgezeichnet, sehr freundlich und zuvorkommend. Sehr empfehlenswert!Vicky2017-01-04T00:00:00ZWir waren in Kingscliffe für eine Hochzeit und vor der Buchung kontaktiert Christina die Nähe zum Veranstaltungsort zu verstehen. Sie war sehr schnell und hilfsbereit und haben uns sofort das Gefühl willkommen. Wir sind froh, dass wir ihren Platz wählen, wie genial Wert war. Nachdem gab die untere Etage uns Privatsphäre, aber auch sie war sehr freundlich und lud uns die herrliche Aussicht von ihrem Niveau zu sehen, bis oben. Wenn Sie für einen ungezwungenen, einfach und bequem Aufenthalt im schönen suchen Einfassungen dann schlage ich vor dieser Ort an Ihre Bedürfnisse anzupassen.Lynette2016-11-04T00:00:00ZEs war so ein schöner Ort, wir fühlten uns sehr wohl. Es war sehr sauber und gut zugänglichen Ort und einfachen Zugang zum Zimmer.Tiffany 2016-10-29T00:00:00ZWas für ein wunderbarer Ort zu bleiben! Christina war ein toller Gastgeber mit guter Kommunikation. Ihr Zimmer ist so schön, mit all den schönen Schliff eines Hauses. Solch eine günstige Lage und selig schlafen gehen und mit dem Rauschen des Meeres aufzuwachen. Ich kann diesen Ort und Christina als Wirt sehr empfehlen!Amber2016-11-01T00:00:00ZUnser Gastgeber begrüßte uns wie alte Freunde und wir fühlten uns sehr willkommen. Die Beschreibung des bnb war sehr gut mit herrlichem Ausblick und Ausblick decribed. Wir fühlten uns sehr entspannt und zu Hause. Das Haus war schön eingerichtet. Unser Zimmer hatte hochwertiger Bettwäsche und Armaturen, mehr als die meisten bnb ist. Es war ein kurzer Spaziergang zu den Restaurants und Geschäften und Wasser. Wir hätten noch länger geblieben mochte aber Zeit nicht zuließ. Wir würden es an Freunde und Familie sehr empfehlen. Wir hätten mehr Zeit gern Georgia über die Region zu chatten. Es war schön, dass man das Auto von der Straße zu parken und in der Nähe von unserem Zimmer. Die hausgemachten Tee am Nachmittag wurde sehr geschätzt und genossen nach einer langen Fahrt.Caroline2016-07-23T00:00:00ZEin schöner Raum. Das nächste Mal möchte ich länger bleiben!Joanne2016-07-31T00:00:00ZArt der UnterkunftPrivatzimmerObjekttypVillaUnterkunft für2SchlafzimmerKingscliff, New South Wales, AustralienPerfect spot, stunning ocean viewsPreis49€ Perfect spot, stunning ocean viewsPrivatzimmer · 1 Bett · Voll erstattungsfähig65 BewertungenBeachfront. 100m walk to beach. 2 queen bedrooms each with spa bath ensuite. 3rd bedroom (2 single beds) accessed from courtyard pool area. Living room with kitchenette. Heated spa, pool & steam room, BBQ area. Relax & enjoy. Spa treatments can be organized. Follow us on Instagram @planetcasuarina to view stunning holiday, lifestyle luxury snaps.The space is the same as our 2 bedroom Villa listing but with the additional use of a 3rd bedroom which has it's own access off the courtyard pool area. You will also have the sole use of the heated spa & pool & the steam room and you will also have access to outdoor BBQ with roasting hood. The 2 bedroom Villa is a separated from the main house and has a separate entry. The Villa includes a living room with kitchenette and 2 queen bedrooms each with ensuite & spa bath. The kitchenette includes a dishwasher, 2 burner hotplate, microwave convection oven. There is small fridge plus 2 bar fridges.Casuarina is on a very special part of the East Coast where development has been restricted so that there are no high rise. It's refreshingly difficult to see any buildings in Casuarina while standing on the beach or surfing :) As well as the occasional native animal sightings, there is a vast range of bird life including a number of "locals" that nest here every year & raise their "kids" :-)美丽的财产,巨大的主机。很荣幸地呆在那里肯定会回来的。Catherine2016-10-01T00:00:00ZThe house and location were really lovely .. We had a great time relaxing with the kids ... They had some information wrong in the house profile like checking - check out time and price but we manage to work them out together .. Marina left for us some muffins and delicious quiche that she cooked for us .. Sooo yummy .. Thank you mark and marina for sharing your lovely place with us Juliana2016-04-26T00:00:00ZMarina was a very accommodating and helped us with whatever we needed. The place was fantastic and clean.Adrian2016-07-26T00:00:00ZWow, what a beautiful home. Myself and my family stayed for 2 nights. Upon arrival and throughout our stay Marina was lovely and very welcoming! The freshly cooked vegetarian bake was absolutely delicious! Thank you! The home was just perfect, pool, steam room, board games, DVDs, complementary wine & cookies just to name a few! Thank you so much for allowing us to stay in your home we honestly have had the best time & the kids still can't believe all the bunny rabbits around the estate (we are from the Gold Coast) We will defiantly be back!!!! Amy2016-11-18T00:00:00ZThis is a luxury home, beautifully appointed in a quiet and restful location, with the beach just a minutes walk from your back door step. When you walk through the rustic wooden doors on arrival you enter into a tranquil oasis with pool, spa and steam room, comfortable living room and bedrooms with ensuites and spa baths. Marina is a wonderful host, who has thought of everything to make your stay as effortless as possible and to exceed your expectations. Kenneth2017-05-13T00:00:00Z我们有一个梦幻般的住宿码头和马克,我们每年的女孩的周末(4终生的朋友)。这是美妙的温泉在晚上一杯香槟放松,也有在白天这种简单的进入海滩。房间非常齐全(我们聘请了全部3个房间),也很舒适我们的住宿。我们会强烈推荐给任何人真的。之前我们到达了码头和马克住在现场,我们还没有实现,但因为他们是可爱的人,十分宽松,并给了我们自己的空间享受,这不是一个问题。Karlie2016-10-08T00:00:00ZWe loved staying at Planet Casuarina Villa. Marina was very welcoming, the villas were stunning and the living spacing were very accomdating. I highly recommend staying at Planet Casuarina. Mikaela2016-12-17T00:00:00Z非常包容的主机,即将到来的热情。我们被介绍给工厂的和邻里的功能和拥有热情的基什(乳蛋饼)和美妙的葡萄酒治疗。我们相信,我们可以联系她(主机)任何时候,她会确保,如果需要的东西很快就会被制成,令我们满意。美妙绝伦的主机和忠实于她的话(因为我们发现它更高版本)。Periklis2016-10-21T00:00:00ZArt der UnterkunftGanze UnterkunftObjekttypVillaUnterkunft für8SchlafzimmerCasuarina, New South Wales, AustralienPlanet Casuarina Villa 3 BedroomPreis223€ Planet Casuarina Villa 3 BedroomGanze Unterkunft · 5 Betten16 BewertungenPeacefully nestled in a community-orientated enclave of Casuarina, the She Oak Beach Villa captures the essence of relaxed beachside living with a quiet ambience and flowing indoor/outdoor spaces. The beautifully appointed 3 bedroom, 2.5 bathroom, 3 storey villa located in She Oak Lane is a must for your next holiday.Ground Level: RATES & INCLUSIONS Price is for 6 guests only Rates are inclusive of Linen for the amount of guest staying (based on 5+ more nights only) For bookings under 5 nights linen packages from $100 A small starter pack is included (D/Washing liquid,,chux etc ) Rates below are an indicative only until the reservation is finalised and can be reduced or increased without notice. BOND A security bond of $500 is required to be held for the duration of your stay, and released upon inspection of the property. THIS IS A FAMILY HOUSE. STRICTLY NO PARTIES ARE PERMITTED.Great place to stay. We have a great time. All instructions were clear and the property by and large what we wanted and expected based on the information provided. Chris2015-12-28T00:00:00ZGreat location, close to the beach and local shops. Family friendly and well equipped. Clean and modern townhouse. Away from the bustle of beach towns that are overcrowded at holiday times but close enough to movies, shopping centres and resorts if you want to do something else. Not far to drive to the calmer waters of Cudgen Creek for safer swimming, snorkeling and other water sports. Louise2017-01-05T00:00:00ZThis is a lovely decorated villa. Very relaxing, but be prepared to drive to patrolled beaches and shops. Air conditioning would be wonderful in top room, but rest of villa was pretty cool. Michelle2017-01-29T00:00:00ZWe stayed at this property at the beginning of December. The property is located quite close to the beach. You can take a 5 min walk to get there. It is nice and bright as the windows are big and there are entrance from the kitchen as well as from the living area so you can see the back as well as the front of the property through the kitchen. It is equipped with nice furnishings, but not enough space around the dining table to have all 6 of us. It was nice and clean, but we had problems with the washing machine that was broken and did not have enough equipment in the kitchen to make a meal. That was very hard. They need to care a bit more for those like to coke. The beds were quite comfortable and there was enough cupboards to store our luggage. The bedroom located at the top was a bit too bright due to the skylight, but we found the kids didn't mind it, except for waking up really early. We were able to use the barbecue outside. This property is a short walk to shops and to Kingscliff beach. Natacha2015-12-09T00:00:00ZThis was the best place we stayed during our whole trip, the house was lovely and clean, spacious and modern, we would definitely book here again. It was well kitted out with all essentials for cooking etc. It is just a short walk to the beach, which is beautiful and empty and a short walk to Casuarina village where there are shops, cafes and restaurants. It is also an easy drive from here to the gold coast and Byron Bay. We would recommend Currumbin Animal Sanctuary which is not far from here too. If you fancy a good meal at reasonable cost, visit Kingscliffe Life Saving Club - sign in as a guest and enjoy! Lauren was easy to contact and responded to messages quickly when booking. One tip do not follow your Sat Nav as it will lead you to an empty plot of land! Read and follow the very clear instructions given by Lauren (we learnt this lesson for future!). Thank you Lauren for a lovely stay, wish we could of stayed longer! Catherine2015-10-27T00:00:00ZThis stay was exactly what it said on the tin. Very comfortable house that was easy to access and close to everything you need for a beach holiday. Had one minor problem with the gas bottle for the BBQ running out but a quick text sorted this out. My family would very happily stay here again. Nicholas2016-09-21T00:00:00ZGreat villa for a family or a few couples. The property is as described. Only a very short walk to the beach, we were there during Easter holidays where the weather was perfect and still basically had 100's of metres of beach to ourselves. Close to shops and plenty of restaurants. Would definitely recommend and stay againClayton2017-04-11T00:00:00ZGreat house ans location. Very close to the beach. Please read fine print about linen hire and make sure this is included in your final booking amount before paying especially if you are an international visitor.Aimee2016-11-29T00:00:00ZArt der UnterkunftGanze UnterkunftObjekttypVillaUnterkunft für6SchlafzimmerCasuarina, New South Wales, AustralienPet friendly - Beachside VillaPreis112€ Pet friendly - Beachside VillaGanze Unterkunft · 3 Betten11 BewertungenDesigned for beach living, this freestanding Aussie-style beach shack is only a short stroll to the white sandy beach and shops. Perfect weekend getaway or for a summer holiday.Beautiful property, newly made available for holiday lets between December 2016 and February 2017, the property is currently being styled by an interior designer to an excellent standard. Amenities include: