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    • 4. 发明授权
    • Telemetry listening window management for an implantable medical device
    • 用于植入式医疗设备的遥测监听窗口管理
    • US08131377B2
    • 2012-03-06
    • US11776170
    • 2007-07-11
    • Jess W. ShiJordi Parramon
    • Jess W. ShiJordi Parramon
    • A61N1/08
    • A61N1/37252A61N1/3605A61N1/37205Y10S128/903
    • An improved arbitration scheme for allowing concurrent stimulation and telemetry listening in a microstimulator is disclosed. A listening window for telemetry is permitted to proceed, and access to the microstimulator's coil granted, during at least a portion of the inter-pulse period that follows the issuance of a stimulation pulse. This is permissible because access to the coil is not needed during the entirety of the inter-pulse period. For example, the listening window can issue during that portion of the inter-pulse period when the decoupling capacitor is discharged, but cannot issue during that portion of the inter-pulse period when the compliance voltage is being generated for the next stimulation pulse. However, because compliance voltage generation occupies only a small portion of the inter-pulse period, the technique is not substantially limited. By allowing the listening window to issue during the majority of the inter-pulse period, the listening window produces smaller gaps between the pulses, and stimulation therapy is thus brought closer to its ideal.
    • 公开了一种用于允许微型激励器中的并发刺激和遥测监听的改进的仲裁方案。 在发出刺激脉冲之后的脉冲间期间的至少一部分期间,允许遥测监听窗口继续进行微型刺激器线圈的访问。 这是允许的,因为在整个脉冲间期间不需要对线圈的访问。 例如,当解耦电容器放电时,在脉冲周期的该部分期间可以发出监听窗口,但是当为下一个刺激脉冲产生顺从性电压时,不能在脉冲间期间的那部分期间发出监听窗口。 然而,由于顺应性电压产生仅占脉冲周期的一小部分,所以该技术基本上不受限制。 通过允许在大多数脉冲间期间发出听音窗口,收听窗口在脉冲之间产生较小的间隙,因此刺激疗法更接近其理想。
    • 8. 发明授权
    • Sample and hold circuitry for monitoring voltages in an implantable neurostimulator
    • 用于监测植入式神经刺激器电压的采样和保持电路
    • US09061140B2
    • 2015-06-23
    • US13237172
    • 2011-09-20
    • Jess W. ShiEmanuel FeldmanJordi Parramon
    • Jess W. ShiEmanuel FeldmanJordi Parramon
    • G01R27/08A61N1/08A61N1/02A61N1/36A61B5/04A61N1/39
    • A61N1/36125A61B5/04001A61N1/025A61N1/08A61N1/378A61N1/3937
    • Sample and hold circuitry for monitoring electrodes and other voltages in an implantable neurostimulator is disclosed. The sample and hold circuitry in one embodiment contains multiplexers to selected appropriate voltages and to pass them to two storage capacitors during two different measurement phases. The capacitors are in a later stage serially connected to add the two voltages stored on the capacitors, and voltages present at the top and bottom of the serial connection are then input to a differential amplifier to compute their difference. The sample and hold circuitry is particularly useful in calculating the resistance between two electrodes, and is further particularly useful when resistance is measured using a biphasic pulse. The sample and hold circuitry is flexible, and can be used to measure other voltages of interest during biphasic or monophasic pulsing.
    • 公开了用于在可植入神经刺激器中监测电极和其它电压的采样和保持电路。 在一个实施例中,采样和保持电路包含多个选择的合适电压,并在两个不同的测量阶段期间将其传送到两个存储电容器。 电容器串联连接以增加存储在电容器上的两个电压,然后将存在于串行连接顶部和底部的电压输入到差分放大器以计算其差值。 采样和保持电路在计算两个电极之间的电阻时特别有用,当使用双相脉冲测量电阻时,采样和保持电路特别有用。 采样和保持电路是灵活的,并且可以用于在双相或单相脉冲期间测量感兴趣的其他电压。
    • 10. 发明申请
    • Sample and Hold Circuitry for Monitoring Voltages in an Implantable Neurostimulator
    • 用于监测植入式神经刺激器中的电压的采样和保持电路
    • US20120092031A1
    • 2012-04-19
    • US13237172
    • 2011-09-20
    • Jess W. ShiEmanuel FeldmanJordi Parramon
    • Jess W. ShiEmanuel FeldmanJordi Parramon
    • G01R27/08A61N1/372
    • A61N1/36125A61B5/04001A61N1/025A61N1/08A61N1/378A61N1/3937
    • Sample and hold circuitry for monitoring electrodes and other voltages in an implantable neurostimulator is disclosed. The sample and hold circuitry in one embodiment contains multiplexers to selected appropriate voltages and to pass them to two storage capacitors during two different measurement phases. The capacitors are in a later stage serially connected to add the two voltages stored on the capacitors, and voltages present at the top and bottom of the serial connection are then input to a differential amplifier to compute their difference. The sample and hold circuitry is particularly useful in calculating the resistance between two electrodes, and is further particularly useful when resistance is measured using a biphasic pulse. The sample and hold circuitry is flexible, and can be used to measure other voltages of interest during biphasic or monophasic pulsing.
    • 公开了用于在可植入神经刺激器中监测电极和其它电压的采样和保持电路。 在一个实施例中,采样和保持电路包含多个选择的合适电压,并在两个不同的测量阶段期间将其传送到两个存储电容器。 电容器串联连接以增加存储在电容器上的两个电压,然后将存在于串行连接顶部和底部的电压输入到差分放大器以计算其差值。 采样和保持电路在计算两个电极之间的电阻时特别有用,当使用双相脉冲测量电阻时,采样和保持电路特别有用。 采样和保持电路是灵活的,并且可以用于在双相或单相脉冲期间测量感兴趣的其他电压。