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    • 2. 发明申请
    • CHOPPER MIXER TELEMETRY CIRCUIT
    • CHOPPER混频器电视电路
    • WO2008133624A1
    • 2008-11-06
    • PCT/US2007/010383
    • 2007-04-30
    • MEDTRONIC, INC.GREVIOUS, John, J.DENISON, Timothy, J.
    • GREVIOUS, John, J.DENISON, Timothy, J.
    • H03D3/00
    • H03D3/007A61N1/3727H03F3/393
    • This disclosure describes a chopper mixer telemetry circuit for use in a wireless receiver. The receiver may be located in an implantable medical device (IMD) or external programmer. The chopper mixer telemetry circuit may include a mixer amplifier that operates as a synchronous demodulator to provide selective extraction of wireless signals received from a transmitter while suppressing out-of- band noise that can undermine the reliability of the telemetry link between an IMD or programmer and another device. The mixer amplifier may utilize parallel signal paths to convert the received telemetry signal into an in-phase (I) signal component and a quadrature (Q) signal component and recombine the I and Q signal components to reconstruct the total signal independently of the phase mismatch between the transmitter and receiver. Each signal path may include a chopper- stabilized mixer amplifier that amplifies telemetry signals within a desired band while suppressing out-of-band noise.
    • 本公开描述了一种用于无线接收机的斩波混频器遥测电路。 接收器可以位于可植入医疗装置(IMD)或外部编程器中。 斩波器混频器遥测电路可以包括混频器放大器,其作为同步解调器操作以提供从发射机接收的无线信号的选择性提取,同时抑制可能破坏IMD或编程器之间的遥测链路的可靠性的带外噪声, 另一台设备。 混频器放大器可以利用并行信号路径将接收到的遥测信号转换为同相(I)信号分量和正交(Q)信号分量,并重新组合I和Q信号分量,以独立于相位失配重构总信号 在发射机和接收机之间。 每个信号路径可以包括斩波稳定的混频放大器,其在抑制带外噪声的同时放大期望频带内的遥测信号。
    • 6. 发明申请
    • UNIVERSAL RECHARGING OF AN IMPLANTABLE MEDICAL DEVICE
    • 可移植医疗器械的通用补充
    • WO2010047983A3
    • 2011-04-07
    • PCT/US2009060306
    • 2009-10-12
    • MEDTRONIC INCGREVIOUS JOHN JKALLMYER TODD A
    • GREVIOUS JOHN JKALLMYER TODD A
    • A61N1/378
    • A61N1/3787A61N1/3706A61N1/37229
    • Techniques associated with a universal recharging device for recharging a power source of implantable medical devices (IMDs). The recharging device includes an interface to allow an antenna assembly to be removably coupled. The antenna assembly has a primary coil and a corresponding sense coil. The sense coil has a configuration that is selected based on the configuration of the primary coil. The sense coil is adapted to prevent voltage across the primary coil from exceeding a maximum voltage amplitude allowable with the recharging device. The maximum voltage amplitude may be selected based on a maximum magnetic field strength to which a patient is to be exposed. In one embodiment, the maximum voltage amplitude is programmable.
    • 与通用再充电装置相关联的用于再充电可植入医疗装置(IMD)的电源的技术。 充电装置包括允许天线组件可拆卸地联接的接口。 天线组件具有初级线圈和对应的感测线圈。 感测线圈具有基于初级线圈的配置选择的配置。 感测线圈适于防止初级线圈两端的电压超过充电装置允许的最大电压幅度。 可以基于要暴露患者的最大磁场强度来选择最大电压幅度。 在一个实施例中,最大电压幅度是可编程的。
    • 7. 发明申请
    • CLOSED LOOP LONG RANGE RECHARGING
    • 关闭环路长期收紧
    • WO2009055579A1
    • 2009-04-30
    • PCT/US2008/080975
    • 2008-10-23
    • MEDTRONIC, INC.WAHLSTRAND, Carl D.KAST, John E.DENISON, Timothy J.GREVIOUS, John J.KALLMYER, Todd A.
    • WAHLSTRAND, Carl D.KAST, John E.DENISON, Timothy J.GREVIOUS, John J.KALLMYER, Todd A.
    • A61N1/378
    • A61N1/3787A61N1/37229
    • A charging system for an implantable medical device having a secondary coil. The charging system includes an external power source having at least one primary coil, a modulation circuit operatively coupled to the primary coil and capable of driving it in a manner characterized by a charging parameter, and a sensor in communication with the modulation circuit and capable of sensing a condition indicating a need to adjust the charging parameter during a charging process. The parameter may be varied so that data sensed by the sensor meets a threshold requirement, which may be based on a patient preference, a government regulation, a recommendation promulgated by a health authority and/or a requirement associated with another device carried by the patient. In one embodiment, the regulation dictates maximum magnetic field exposure, and a field limiting circuit is employed to adjust the charging process.
    • 一种具有次级线圈的可植入医疗装置的充电系统。 充电系统包括具有至少一个初级线圈的外部电源,可操作地耦合到初级线圈并且能够以特征在于充电参数的方式驱动它的调制电路,以及与调制电路通信的传感器,并且能够 感测在充电过程中指示需要调整充电参数的条件。 该参数可以变化,使得由传感器感测的数据满足阈值要求,其可以基于患者偏好,政府法规,卫生当局颁布的建议和/或与患者携带的另一装置相关联的要求 。 在一个实施例中,调节规定了最大磁场曝光,并且采用场限制电路来调节充电过程。