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    • 2. 发明授权
    • Implantable pulse generators using rechargeable zero-volt technology lithium-ion batteries
    • 使用可充电零伏技术的锂离子电池的可植入脉冲发生器
    • US07177691B2
    • 2007-02-13
    • US10419002
    • 2003-04-18
    • Paul M MeadowsCarla Mann WoodsHisashi TsukamotoJoey Chen
    • Paul M MeadowsCarla Mann WoodsHisashi TsukamotoJoey Chen
    • A61N1/375
    • A61N1/3787A61N1/08A61N1/36071
    • An implantable medical device, such as an implantable pulse generator (IPG) used with a spinal cord stimulation (SCS) system, includes a rechargeable lithiumion battery having an anode electrode with a substrate made substantially from titanium. Such battery construction allows the rechargeable battery to be discharged down to zero volts without damage to the battery. The implantable medical device includes battery charging and protection circuitry that controls the charging of the battery so as to assure its reliable and safe operation. A multi-rate charge algorithm is employed that minimizes charging time while ensuring the battery cell is safely charged. Fast charging occurs at safer lower battery voltages (e.g., battery voltage above about 2.5 V), and slower charging occurs when the battery nears full charge higher battery voltages (e.g., above about 4.0 V). When potentially less-than-safe very low voltages are encountered (e.g., less than 2.5 V), then very slow (trickle) charging occurs to bring the battery voltage back up to the safer voltage levels where more rapid charging can safely occur. The battery charging and protection circuitry also continuously monitors the battery voltage and current. If the battery operates outside of a predetermined range of voltage or current, the battery protection circuitry disconnects the battery from the particular fault, i.e. charging circuitry or load circuits.
    • 可植入医疗装置,例如与脊髓刺激(SCS)系统一起使用的植入式脉冲发生器(IPG),包括具有阳极电极的可再充电锂离子电池,该阳极电极基本上由钛制成。 这种电池结构允许可再充电电池被放电到零伏特而不损坏电池。 可植入医疗装置包括电池充电和保护电路,其控制电池的充电,以确保其可靠和安全的操作。 使用多速率充电算法,其最小化充电时间,同时确保电池单元被安全地充电。 快速充电发生在更安全的较低的电池电压(例如,电池电压高于约2.5V)时,并且当电池接近充满更高的电池电压(例如高于约4.0V)时,发生较慢的充电。 当遇到潜在的不太安全的非常低的电压(例如,小于2.5V)时,发生非常慢的(涓流)充电,以使电池电压恢复到更安全的电压水平,其中可以安全地发生更快速的充电。 电池充电和保护电路还连续监测电池电压和电流。 如果电池在预定的电压或电流范围之外运行,则电池保护电路将电池与特定故障(即充电电路或负载电路)断开连接。
    • 4. 发明授权
    • Implantable devices using rechargeable zero-volt technology lithium-ion batteries
    • 可植入器件采用可充电零伏技术的锂离子电池
    • US07184836B1
    • 2007-02-27
    • US10419018
    • 2003-04-18
    • Paul M MeadowsCarla Mann WoodsJoey ChenHisashi Tsukamoto
    • Paul M MeadowsCarla Mann WoodsJoey ChenHisashi Tsukamoto
    • A61N1/18
    • A61N1/3787A61N1/08A61N1/36071
    • An implantable medical device, such as an implantable pulse generator (IPG) used with a spinal cord stimulation (SCS) system, includes a rechargeable lithium-ion battery having an anode electrode with a substrate made substantially from titanium. Such battery construction allows the rechargeable battery to be discharged down to zero volts without damage to the battery. The implantable medical device includes battery charging and protection circuitry that controls the charging of the battery so as to assure its reliable and safe operation. A multi-rate charge algorithm is employed that minimizes charging time while ensuring the battery cell is safely charged. Fast charging occurs at safer lower battery voltages (e.g., battery voltage above about 2.5 V), and slower charging occurs when the battery nears full charge higher battery voltages (e.g., above about 4.0 V). When potentially less-than-safe very low voltages are encountered (e.g., less than 2.5 V), then very slow (trickle) charging occurs to bring the battery voltage back up to the safer voltage levels where more rapid charging can safely occur. The battery charging and protection circuitry also continuously monitors the battery voltage and current. If the battery operates outside of a predetermined range of voltage or current, the battery protection circuitry disconnects the battery from the particular fault, i.e. charging circuitry or load circuits.
    • 诸如与脊髓刺激(SCS)系统一起使用的可植入脉冲发生器(IPG)的可植入医疗装置包括可充电锂离子电池,其具有阳极电极和基本上由钛制成的基底。 这种电池结构允许可再充电电池被放电到零伏特而不损坏电池。 可植入医疗装置包括电池充电和保护电路,其控制电池的充电,以确保其可靠和安全的操作。 使用多速率充电算法,其最小化充电时间,同时确保电池单元被安全地充电。 快速充电发生在更安全的较低的电池电压(例如,电池电压高于约2.5V)时,并且当电池接近充满更高的电池电压(例如高于约4.0V)时,发生较慢的充电。 当遇到潜在的不太安全的非常低的电压(例如,小于2.5V)时,发生非常慢的(涓流)充电,以使电池电压恢复到更安全的电压水平,其中可以安全地发生更快速的充电。 电池充电和保护电路还连续监测电池电压和电流。 如果电池在预定的电压或电流范围之外运行,则电池保护电路将电池与特定故障(即充电电路或负载电路)断开连接。
    • 5. 发明授权
    • Implantable devices using rechargeable zero-volt technology lithium-ion batteries
    • 可植入器件采用可充电零伏技术的锂离子电池
    • US07295878B1
    • 2007-11-13
    • US10970879
    • 2004-10-22
    • Paul M MeadowsCarla Mann WoodsJoey ChenHisashi Tsukamoto
    • Paul M MeadowsCarla Mann WoodsJoey ChenHisashi Tsukamoto
    • A61N1/08
    • A61N1/3787A61N1/3605
    • An implantable medical device, such as an implantable pulse generator (IPG) used with a spinal cord stimulation (SCS) system, includes a rechargeable lithium-ion battery having an anode electrode with a substrate made substantially from titanium. Such battery construction allows the rechargeable battery to be discharged down to zero volts without damage to the battery. The implantable medical device includes battery charging and protection circuitry that controls the charging of the battery so as to assure its reliable and safe operation. A multi-rate charge algorithm is employed that minimizes charging time while ensuring the battery cell is safely charged. Slow charging occurs at lower battery voltages (e.g., battery voltage below about 2.5 V), and fast charging occurs when the battery voltage has reached a safe level (e.g., above about 2.5 V). When potentially less-than-safe very low voltages are encountered (e.g., less than 2.5 V), then very slow (trickle) charging occurs to bring the battery voltage back up to the safer voltage levels where more rapid charging can safely occur. The battery charging and protection circuitry also continuously monitors the battery voltage and current. If the battery operates outside of a predetermined range of voltage or current, the battery protection circuitry disconnects the battery from the particular fault, i.e. charging circuitry or load circuits.
    • 诸如与脊髓刺激(SCS)系统一起使用的可植入脉冲发生器(IPG)的可植入医疗装置包括可充电锂离子电池,其具有阳极电极和基本上由钛制成的基底。 这种电池结构允许可再充电电池被放电到零伏特而不损坏电池。 可植入医疗装置包括电池充电和保护电路,其控制电池的充电,以确保其可靠和安全的操作。 使用多速率充电算法,其最小化充电时间,同时确保电池单元被安全地充电。 在较低的电池电压(例如,电池电压低于约2.5V)下发生慢速充电,并且当电池电压达到安全水平(例如高于约2.5V)时,发生快速充电。 当遇到潜在的不太安全的非常低的电压(例如,小于2.5V)时,发生非常慢的(涓流)充电,以使电池电压恢复到更安全的电压水平,其中可以安全地发生更快速的充电。 电池充电和保护电路还连续监测电池电压和电流。 如果电池在预定的电压或电流范围之外运行,则电池保护电路将电池与特定故障(即充电电路或负载电路)断开连接。
    • 6. 发明授权
    • Rechargeable spinal cord stimulator system
    • 充电脊髓刺激器系统
    • US07801615B2
    • 2010-09-21
    • US11947753
    • 2007-11-29
    • Paul MeadowsCarla Mann WoodsDavid PetersonJoey ChenDavid Payne
    • Paul MeadowsCarla Mann WoodsDavid PetersonJoey ChenDavid Payne
    • A61N1/00
    • A61N1/37252A61N1/0553A61N1/36071A61N1/36185A61N1/37241A61N1/37247A61N1/3787H01H85/201H01H85/32
    • Implantable pulse generators and spinal cord stimulation (SCS) systems are provided. The implantable pulse generator comprises telemetry circuitry configured for wirelessly receiving programming signals from an external programmer, and a plurality of bi-directional current sources configured for being respectively coupled to a plurality of electrodes. The implantable pulse generator further comprises control circuitry configured for directing the bi-directional current sources to output current pulses of a selected amplitude and polarity to the electrodes in accordance with the programming signals. The SCS system may comprise a plurality of electrodes, an external programmer configured for transmitting programming signals, and the afore-described implantable pulse generator as described above. In one embodiment, the SCS system further comprises one or more stimulation leads carrying the electrodes, in which case, the implantable pulse generator may further include a connector removably mated to the stimulation lead(s).
    • 提供了植入式脉冲发生器和脊髓刺激(SCS)系统。 可植入式脉冲发生器包括配置用于无线地接收来自外部编程器的编程信号的遥测电路和被配置为分别耦合到多个电极的多个双向电流源。 可植入脉冲发生器还包括控制电路,其被配置为根据编程信号将双向电流源引导至选定的幅度和极性的电流脉冲至电极。 SCS系统可以包括多个电极,被配置为用于发送编程信号的外部编程器和如上所述的上述可植入脉冲发生器。 在一个实施例中,SCS系统还包括携带电极的一个或多个刺激引线,在这种情况下,可植入脉冲发生器还可包括可拆卸地配合到刺激引线的连接器。
    • 7. 发明授权
    • Rechargeable spinal cord stimulation system
    • 充电脊髓刺激系统
    • US07769462B2
    • 2010-08-03
    • US11625283
    • 2007-01-20
    • Paul M. MeadowsCarla Mann WoodsDavid K. PetersonJoey ChenDavid H. Payne
    • Paul M. MeadowsCarla Mann WoodsDavid K. PetersonJoey ChenDavid H. Payne
    • A61N1/00
    • A61N1/37252A61N1/0553A61N1/36071A61N1/36185A61N1/37241A61N1/37247A61N1/3787H01H85/201H01H85/32
    • A spinal cord stimulation (SCS) system includes multiple electrodes, multiple, independently programmable, stimulation channels within an implantable pulse generator (IPG) which channels can provide concurrent, but unique stimulation fields, permitting virtual electrodes to be realized. The SCS system includes a replenishable power source (e.g., rechargeable battery), that may be recharged using transcutaneous power transmissions between antenna coil pairs. An external charger unit, having its own rechargeable battery can be used to charge the IPG replenishable power source. A real-time clock can provide an auto-run schedule for daily stimulation. An included bi-directional telemetry link in the system informs the patient or clinician the status of the system, including the state of charge of the IPG battery. Other processing circuitry in the IPG allows electrode impedance measurements to be made. Further circuitry in the external battery charger can provide alignment detection for the coil pairs.
    • 脊髓刺激(SCS)系统包括在可植入脉冲发生器(IPG)内的多个电极,多个独立可编程的刺激通道,其通道可以提供同时但独特的刺激场,允许实现虚拟电极。 SCS系统包括可补充电源(例如,可充电电池),其可以使用天线线圈对之间的经皮功率传输进行再充电。 可以使用具有自己的可充电电池的外部充电器单元为IPG可补充电源充电。 实时时钟可以提供每日刺激的自动运行时间表。 系统中包括的双向遥测连接通知患者或临床医生系统的状态,包括IPG电池的充电状态。 IPG中的其他处理电路允许进行电极阻抗测量。 外部电池充电器中的进一步电路可以为线圈对提供对准检测。
    • 8. 发明申请
    • RECHARGEABLE SPINAL CORD STIMULATOR SYSTEM
    • 可充电脊髓刺激系统
    • US20090062883A1
    • 2009-03-05
    • US11947753
    • 2007-11-29
    • Paul M. MeadowsCarla Mann WoodsDavid K. PetersonJoey ChenDavid H. Payne
    • Paul M. MeadowsCarla Mann WoodsDavid K. PetersonJoey ChenDavid H. Payne
    • A61N1/34
    • A61N1/37252A61N1/0553A61N1/36071A61N1/36185A61N1/37241A61N1/37247A61N1/3787H01H85/201H01H85/32
    • A spinal cord stimulation (SCS) system includes multiple electrodes, multiple, independently programmable, stimulation channels within an implantable pulse generator (IPG) which channels can provide concurrent, but unique stimulation fields, permitting virtual electrodes to be realized. The SCS system includes a replenishable power source (e.g., rechargeable battery), that may be recharged using transcutaneous power transmissions between antenna coil pairs. An external charger unit, having its own rechargeable battery can be used to charge the IPG replenishable power source. A real-time clock can provide an auto-run schedule for daily stimulation. An included bi-directional telemetry link in the system informs the patient or clinician the status of the system, including the state of charge of the IPG battery. Other processing circuitry in the IPG allows electrode impedance measurements to be made. Further circuitry in the external battery charger can provide alignment detection for the coil pairs.
    • 脊髓刺激(SCS)系统包括在可植入脉冲发生器(IPG)内的多个电极,多个独立可编程的刺激通道,其通道可以提供同时但独特的刺激场,允许实现虚拟电极。 SCS系统包括可补充电源(例如,可充电电池),其可以使用天线线圈对之间的经皮功率传输进行再充电。 可以使用具有自己的可充电电池的外部充电器单元为IPG可补充电源充电。 实时时钟可以提供每日刺激的自动运行时间表。 系统中包括的双向遥测连接通知患者或临床医生系统的状态,包括IPG电池的充电状态。 IPG中的其他处理电路允许进行电极阻抗测量。 外部电池充电器中的进一步电路可以为线圈对提供对准检测。
    • 10. 发明授权
    • Implantable pulse generators using rechargeable zero-volt technology lithium-ion batteries
    • 使用可充电零伏技术的锂离子电池的可植入脉冲发生器
    • US06553263B1
    • 2003-04-22
    • US09627803
    • 2000-07-28
    • Paul M. MeadowsCarla M. MannHisashi TsukamotoJoey Chen
    • Paul M. MeadowsCarla M. MannHisashi TsukamotoJoey Chen
    • A61N140
    • A61N1/3787A61N1/08A61N1/36071
    • An implantable medical device, such as an implantable pulse generator (IPG) used with a spinal cord stimulation (SCS) system, includes a rechargeable lithium-ion battery having an anode electrode with a substrate made substantially from titanium. Such battery construction allows the rechargeable battery to be discharged down to zero volts without damage to the battery. The implantable medical device includes battery charging and protection circuitry that controls the charging of the battery so as to assure its reliable and safe operation. A multi-rate charge algorithm is employed that minimizes charging time while ensuring the battery cell is safely charged. Fast charging occurs at safer lower battery voltages (e.g., battery voltage above about 2.5 V), and slower charging occurs when the battery nears full charge higher battery voltages (e.g., above about 4.0 V). When potentially less-than-safe very low voltages are encountered (e.g., less than 2.5 V), then very slow (trickle) charging occurs to bring the battery voltage back up to the safer voltage levels where more rapid charging can safely occur. The battery charging and protection circuitry also continuously monitors the battery voltage and current. If the battery operates outside of a predetermined range of voltage or current, the battery protection circuitry disconnects the battery from the particular fault, i.e. charging circuitry or load circuits.
    • 诸如与脊髓刺激(SCS)系统一起使用的可植入脉冲发生器(IPG)的可植入医疗装置包括具有阳极电极的可再充电锂离子电池,其具有基本上由钛制成的衬底。 这种电池结构允许可再充电电池被放电到零伏特而不损坏电池。 可植入医疗装置包括电池充电和保护电路,其控制电池的充电,以确保其可靠和安全的操作。 使用多速率充电算法,其最小化充电时间,同时确保电池单元被安全地充电。 快速充电发生在更安全的较低的电池电压(例如,电池电压高于约2.5V)时,并且当电池接近充满更高的电池电压(例如高于约4.0V)时,发生较慢的充电。 当遇到潜在的不太安全的非常低的电压(例如,小于2.5V)时,发生非常慢的(涓流)充电,以使电池电压恢复到更安全的电压水平,其中可以安全地发生更快速的充电。 电池充电和保护电路还连续监测电池电压和电流。 如果电池在预定的电压或电流范围之外运行,则电池保护电路将电池与特定故障(即充电电路或负载电路)断开连接。