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1. 发明授权

US08315693B2 Electrocardiogram monitoring 有权
标题翻译：心电图监测
公开(公告)号：US08315693B2
公开(公告)日：2012-11-20
申请号：US11679154
申请日：2007-02-26
申请人： Zhong Qun Lu , Richard C. Nova , Paul S. Tamura , Gary A. DeBardi , David W. Tecklenburg , Tyler R. Hart , James S. Neumiller , Richard J. Cardin
发明人： Zhong Qun Lu , Richard C. Nova , Paul S. Tamura , Gary A. DeBardi , David W. Tecklenburg , Tyler R. Hart , James S. Neumiller , Richard J. Cardin
IPC分类号： A61B5/00
CPC分类号： A61N1/3925 , A61B5/0424 , A61B5/6843 , A61B5/7242 , A61N1/046 , A61N1/3931 , A61N1/3993
摘要： Techniques for determining whether one or more leads are not adequately connected to a patient, e.g., for ECG monitoring, are described. The techniques involve injection of an integrated signal (which includes a test signal) into one lead, and monitoring the driven lead and the response at the other leads, including the common mode and the difference between the other leads. These “lead-off” detection techniques may be provided by an external defibrillator that provides three-wire ECG monitoring. Techniques for determining a type of a cable coupled to a defibrillator are also described. The cable-type identification may allow a defibrillator to, for example, operate in either a three-wire ECG monitoring mode or a therapy mode, based on whether a three-wire ECG cable or a defibrillation cable is coupled to the defibrillator.
摘要翻译：描述了用于确定一个或多个引线是否不能充分地连接到患者的技术，例如用于ECG监测。这些技术涉及将一个积分信号（包括一个测试信号）注入到一个引线中，并监视其它引线的驱动引线和响应，包括共模和其它引线之间的差异。这些引线检测技术可以由提供三线ECG监测的外部除颤器提供。还描述了用于确定耦合到去纤颤器的电缆的类型的技术。基于三线ECG电缆或除颤电缆是否耦合到除颤器，电缆型识别可以允许除颤器例如以三线ECG监测模式或治疗模式操作。

2. 发明申请

US20130041421A1 ELECTROCARDIOGRAM MONITORING 有权
标题翻译：电子监控
公开(公告)号：US20130041421A1
公开(公告)日：2013-02-14
申请号：US13650570
申请日：2012-10-12
申请人： Zhong Qun Lu , Richard C. Nova , Paul S. Tamura , Gary A. DeBardi , David W. Tecklenburg , Tyler R. Hart , James S. Neumiller , Richard J. Cardin
发明人： Zhong Qun Lu , Richard C. Nova , Paul S. Tamura , Gary A. DeBardi , David W. Tecklenburg , Tyler R. Hart , James S. Neumiller , Richard J. Cardin
IPC分类号： A61N1/39 , A61B5/0402
CPC分类号： A61N1/3925 , A61B5/0424 , A61B5/6843 , A61B5/7242 , A61N1/046 , A61N1/3931 , A61N1/3993
摘要： Techniques for determining whether one or more leads are not adequately connected to a patient, e.g., for ECG monitoring, are described. The techniques involve injection of an integrated signal (which includes a test signal) into one lead, and monitoring the driven lead and the response at the other leads, including the common mode and the difference between the other leads. These “lead-off” detection techniques may be provided by an external defibrillator that provides three-wire ECG monitoring. Techniques for determining a type of a cable coupled to a defibrillator are also described. The cable-type identification may allow a defibrillator to, for example, operate in either a three-wire ECG monitoring mode or a therapy mode, based on whether a three-wire ECG cable or a defibrillation cable is coupled to the defibrillator.
摘要翻译：描述了用于确定一个或多个引线是否不能充分地连接到患者的技术，例如用于ECG监测。这些技术涉及将一个积分信号（包括一个测试信号）注入到一个引线中，并监视其它引线的驱动引线和响应，包括共模和其它引线之间的差异。这些引线检测技术可以由提供三线ECG监测的外部除颤器提供。还描述了用于确定耦合到去纤颤器的电缆的类型的技术。基于三线ECG电缆或除颤电缆是否耦合到除颤器，电缆型识别可以允许除颤器例如以三线ECG监测模式或治疗模式操作。

3. 发明授权

US6005370A Automatic rate control for defibrillator capacitor charging 失效
标题翻译：去纤颤电容充电自动速率控制
公开(公告)号：US6005370A
公开(公告)日：1999-12-21
申请号：US13805
申请日：1998-01-26
申请人： Douglas M. Gustavson , Scott O. Schweizer , David W. Tecklenburg
发明人： Douglas M. Gustavson , Scott O. Schweizer , David W. Tecklenburg
IPC分类号： A61N1/39 , H02J7/00 , H02J7/34 , H02J15/00 , H02M3/28 , H02M3/335
CPC分类号： H02J7/0052 , H02J7/345 , H02M3/33507 , H02J2007/0059
摘要： A control circuit ideally suited for a capacitor charging circuit (100) that uses an apparent measure of current flow through a circuit line to regulate current drawn from a battery through the circuit line is disclosed. A summing circuit (136) produces a difference voltage (138) of the battery voltage (152) subtracted from a threshold reference voltage (151). The difference voltage (138) is subsequently amplified by an amplifier (140), rectified by a diode (142), and added to a voltage measure (130) from a current-sense resistor (117) by a summing circuit (128). The resulting voltage measure (126) is an apparent measure of current flow and is provided to a charge controller (122) which regulates current flow through a transformer (107) by controlling the operation of a switch (108). As the voltage on the battery (102) decreases below the reference voltage set by voltage source (150), the increasing difference voltage (138) adds bias to the actual measure of current flow (130), thus providing the charge controller (122) with an apparent measure of current flow through the transformer (107) that is higher than the actual level of current flow. The charge controller is thereby deceived and reduces the current drawn from the battery through the transformer.
摘要翻译：公开了一种理想地适用于电容器充电电路（100）的控制电路，该电容器充电电路使用通过电路线的电流的表观测量来调节通过电路线从电池吸取的电流。求和电路（136）产生从阈值参考电压（151）中减去的电池电压（152）的差值电压（138）。差分电压（138）随后由放大器（140）放大，由二极管（142）整流，并通过求和电路（128）从电流检测电阻器（117）加到电压测量（130）中。所得到的电压测量（126）是电流的明显测量，并且被提供给充电控制器（122），其通过控制开关（108）的操作来调节通过变压器（107）的电流。当电池（102）上的电压降低到由电压源（150）设定的参考电压以下时，增加的差值电压（138）将偏压加到电流（130）的实际测量值上，从而提供充电控制器（122）通过变压器（107）的电流的明显测量值高于电流的实际电平。因此，充电控制器被欺骗并且减少从电池通过变压器抽取的电流。

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