公开(公告)号：US20160164337A1

公开(公告)日：2016-06-09

申请号：US15042073

申请日：2016-02-11

Applicant: MEDTRONIC, INC.

Inventor： David P. Olson ,  William C. Phillips ,  Garrett R. Sipple ,  Yu Wang

IPC: H02J7/02

CPC classification number: H02J50/90 ,  A61B5/686 ,  A61M5/172 ,  A61N1/37 ,  A61N1/37217 ,  A61N1/37252 ,  A61N1/37276 ,  A61N1/3787 ,  G16H40/67 ,  H02J7/025 ,  H02J50/10 ,  H02J50/80 ,  H02J2007/0096

Abstract: Far field telemetry operations are conducted between an external device and an implantable medical device while power is being transferred to the implantable medical device for purposes of recharging a battery of the implantable medical device. The far field operations may include exchanging recharge information that has been collected by the implantable medical device which allows the external device to exercise control over the recharge process. The far field operations may include suspending far field telemetry communications for periods of time while power continues to be transferred where suspending far field telemetry communications may include powering down far field telemetry communication circuits of the implantable medical device for periods of time which may conserve energy. The far field operations may further include transferring programming instructions to the implantable medical device.

Abstract translation: 在将外部设备和可植入医疗设备之间进行远场遥测操作，同时将电力传送到可植入医疗设备，以便为可植入医疗设备的电池再充电。 远场操作可以包括交换由可植入医疗设备收集的补充信息，其允许外部设备对再充电过程进行控制。 远场操作可以包括在继续传送功率的同时暂停远场遥测通信一段时间，其中悬挂远场遥测通信可以包括在可以节省能量的时间段内断电可植入医疗设备的远场遥测通信电路。 远场操作还可以包括将编程指令传送到可植入医疗装置。

公开(公告)号：US09318916B2

公开(公告)日：2016-04-19

申请号：US14246071

申请日：2014-04-05

Applicant: Medtronic, Inc.

Inventor： David P. Olson ,  William C. Phillips ,  Garrett R. Sipple ,  Yu Wang

IPC: A61N1/00 ,  H02J7/02 ,  A61N1/372 ,  A61N1/378 ,  A61B5/00 ,  A61M5/172 ,  A61N1/37

CPC classification number: H02J50/90 ,  A61B5/686 ,  A61M5/172 ,  A61N1/37 ,  A61N1/37217 ,  A61N1/37252 ,  A61N1/37276 ,  A61N1/3787 ,  G16H40/67 ,  H02J7/025 ,  H02J50/10 ,  H02J50/80 ,  H02J2007/0096

Abstract: Far field telemetry operations are conducted between an external device and an implantable medical device while power is being transferred to the implantable medical device for purposes of recharging a battery of the implantable medical device. The far field operations may include exchanging recharge information that has been collected by the implantable medical device which allows the external device to exercise control over the recharge process. The far field operations may include suspending far field telemetry communications for periods of time while power continues to be transferred where suspending far field telemetry communications may include powering down far field telemetry communication circuits of the implantable medical device for periods of time which may conserve energy. The far field operations may further include transferring programming instructions to the implantable medical device.

Abstract translation: 在将外部设备和可植入医疗设备之间进行远场遥测操作，同时将电力传送到可植入医疗设备，以便为可植入医疗设备的电池再充电。 远场操作可以包括交换由可植入医疗设备收集的补充信息，其允许外部设备对再充电过程进行控制。 远场操作可以包括在继续传送功率的同时暂停远场遥测通信一段时间，其中悬挂远场遥测通信可以包括在可以节省能量的时间段内断电可植入医疗设备的远场遥测通信电路。 远场操作还可以包括将编程指令传送到可植入医疗装置。

公开(公告)号：US11318250B2

公开(公告)日：2022-05-03

申请号：US16450399

申请日：2019-06-24

Applicant: Medtronic, Inc.

Inventor： David P. Olson ,  William C. Phillips ,  Andrew L. Schmeling

IPC: A61N1/37 ,  A61M5/142 ,  H02J50/70 ,  A61N1/378 ,  H02J7/00 ,  A61M5/172 ,  A61N1/365 ,  H02J50/12 ,  H02J7/02

Abstract: A mechanism for transferring energy from an external power source to an implantable medical device is disclosed. A sensor may be used to measure a parameter that correlates to a temperature of the system that occurs during the transcutaneous coupling of energy. For example, the sensor may measure temperature of a surface of an antenna of the external power source. The measured parameter may then be compared to a programmable limit. A control circuit such as may be provided by the external power source may then control the temperature based on the comparison. The programmable limit may be, for example, under software control so that the temperature occurring during transcutaneous coupling of energy may be modified to fit then-current circumstances.

公开(公告)号：US10369275B2

公开(公告)日：2019-08-06

申请号：US15784821

申请日：2017-10-16

Applicant: MEDTRONIC, INC.

Inventor： David P. Olson ,  William C. Phillips ,  Andrew L. Schmeling

IPC: A61N1/37 ,  A61M5/142 ,  H02J50/70 ,  A61N1/378 ,  A61M5/172 ,  A61N1/365 ,  H02J50/12 ,  H02J7/04 ,  H02J7/02

Abstract: A mechanism for transferring energy from an external power source to an implantable medical device is disclosed. A sensor may be used to measure a parameter that correlates to a temperature of the system that occurs during the transcutaneous coupling of energy. For example, the sensor may measure temperature of a surface of an antenna of the external power source. The measured parameter may then be compared to a programmable limit. A control circuit such as may be provided by the external power source may then control the temperature based on the comparison. The programmable limit may be, for example, under software control so that the temperature occurring during transcutaneous coupling of energy may be modified to fit then-current circumstances.

公开(公告)号：US10335603B2

公开(公告)日：2019-07-02

申请号：US15217998

申请日：2016-07-23

Applicant: MEDTRONIC, INC.

Inventor： Gerald G. Lindner ,  William C. Phillips ,  Dominique Piguet ,  Daniel T. Pyne ,  Micah A. Litow ,  James Strom ,  Mark G. Wosmek

IPC: A61N1/375

Abstract: Medical devices include stimulation and/or sensing circuitry that is interconnected to electrical components by a flexible circuit body having exposed portions of circuit traces that are attached to electrical contacts of the electrical components. Each circuit trace may span a separate window formed in an insulative body of the flexible circuit body, or a plurality of circuit traces may span a single window or may be freely extending from the insulative body. The exposed portion of the circuit trace may be plated with a conductive metal and then attached to the electrical contact of the electrical component. The flexible circuit body may be an extension from a flexible electrical circuit board containing the circuit. The circuit may be present on a circuit board that includes electrical contacts and where the flexible circuit body has exposed portions of circuit traces attached to the electrical contacts of the circuit board.

公开(公告)号：US20180036477A1

公开(公告)日：2018-02-08

申请号：US15784821

申请日：2017-10-16

Applicant: MEDTRONIC, INC.

Inventor： David P. Olson ,  William C. Phillips ,  Andrew L. Schmeling

IPC: A61M5/142 ,  A61N1/378 ,  A61N1/365 ,  H02J7/02 ,  A61M5/172 ,  H02J7/04

CPC classification number: A61M5/14276 ,  A61M5/142 ,  A61M5/1723 ,  A61M2205/3327 ,  A61M2205/3368 ,  A61M2205/52 ,  A61M2205/8206 ,  A61M2205/8237 ,  A61M2209/01 ,  A61N1/3655 ,  A61N1/3787 ,  H02J7/025 ,  H02J7/047 ,  H02J50/12 ,  H02J50/70

Abstract: A mechanism for transferring energy from an external power source to an implantable medical device is disclosed. A sensor may be used to measure a parameter that correlates to a temperature of the system that occurs during the transcutaneous coupling of energy. For example, the sensor may measure temperature of a surface of an antenna of the external power source. The measured parameter may then be compared to a programmable limit. A control circuit such as may be provided by the external power source may then control the temperature based on the comparison. The programmable limit may be, for example, under software control so that the temperature occurring during transcutaneous coupling of energy may be modified to fit then-current circumstances.

公开(公告)号：US20160354611A1

公开(公告)日：2016-12-08

申请号：US15217998

申请日：2016-07-23

Applicant: MEDTRONIC, INC.

Inventor： Gerald G. Lindner ,  William C. Phillips ,  Dominique Piguet ,  Daniel T. Pyne ,  Micah A. Litow ,  James Strom ,  Mark G. Wosmek

IPC: A61N1/375

CPC classification number: A61N1/3754 ,  A61N1/3752 ,  Y10T29/49117

Abstract: Medical devices include stimulation and/or sensing circuitry that is interconnected to electrical components by a flexible circuit body having exposed portions of circuit traces that are attached to electrical contacts of the electrical components. Each circuit trace may span a separate window formed in an insulative body of the flexible circuit body, or a plurality of circuit traces may span a single window or may be freely extending from the insulative body. The exposed portion of the circuit trace may be plated with a conductive metal and then attached to the electrical contact of the electrical component. The flexible circuit body may be an extension from a flexible electrical circuit board containing the circuit. The circuit may be present on a circuit board that includes electrical contacts and where the flexible circuit body has exposed portions of circuit traces attached to the electrical contacts of the circuit board.

Abstract translation: 医疗设备包括刺激和/或感测电路，其通过柔性电路体互连到电气部件，柔性电路体具有连接到电气部件的电触点的电路迹线的暴露部分。 每个电路迹线可以跨越形成在柔性电路体的绝缘体中的单独的窗口，或者多个电路迹线可以跨越单个窗口或者可以从绝缘体自由延伸。 电路迹线的暴露部分可以镀有导电金属，然后连接到电气部件的电接触。 柔性电路体可以是包含电路的柔性电路板的延伸部。 电路可以存在于包括电触点的电路板上，并且其中柔性电路体具有连接到电路板的电触点的电路迹线的暴露部分。

公开(公告)号：US11742959B2

公开(公告)日：2023-08-29

申请号：US17411212

申请日：2021-08-25

Applicant: Medtronic, Inc.

Inventor： William C. Phillips ,  Andrew L. Schmeling

IPC: H04B15/00 ,  A61B50/33 ,  A61N1/372

CPC classification number: H04B15/00 ,  A61B50/33 ,  A61N1/37217

Abstract: Disclosed is a system for reducing or eliminating interference during communication. Disclosed is a system to position an implantable medical device at an orientation or position to reduce or eliminate interference. Therefore, a communication may be maintained with the IMD over a selected period of time.

公开(公告)号：US20210106835A1

公开(公告)日：2021-04-15

申请号：US17129758

申请日：2020-12-21

Applicant: MEDTRONIC, INC.

Inventor： David P. Olson ,  William C. Phillips ,  Garrett R. Sipple ,  Yu Wang

IPC: A61N1/372 ,  H02J50/10 ,  H02J50/80 ,  H02J50/90 ,  A61N1/378 ,  G16H40/67 ,  A61B5/00 ,  A61M5/172

Abstract: Far field telemetry operations are conducted between an external device and an implantable medical device while power is being transferred to the implantable medical device for purposes of recharging a battery of the implantable medical device. The far field operations may include exchanging recharge information that has been collected by the implantable medical device which allows the external device to exercise control over the recharge process. The far field operations may include suspending far field telemetry communications for periods of time while power continues to be transferred where suspending far field telemetry communications may include powering down far field telemetry communication circuits of the implantable medical device for periods of time which may conserve energy. The far field operations may further include transferring programming instructions to the implantable medical device.

公开(公告)号：US20170317518A1

公开(公告)日：2017-11-02

申请号：US15650598

申请日：2017-07-14

Applicant: MEDTRONIC, INC.

Inventor： David P. Olson ,  William C. Phillips ,  Garrett R. Sipple ,  Yu Wang

IPC: H02J7/02 ,  A61M5/172 ,  A61N1/372 ,  A61B5/00 ,  A61N1/378 ,  H02J7/00 ,  A61N1/37

CPC classification number: H02J7/025 ,  A61B5/686 ,  A61M5/172 ,  A61N1/37 ,  A61N1/37217 ,  A61N1/37252 ,  A61N1/37276 ,  A61N1/3787 ,  G16H40/67 ,  H02J50/10 ,  H02J50/80 ,  H02J50/90 ,  H02J2007/0096

Abstract: Far field telemetry operations are conducted between an external device and an implantable medical device while power is being transferred to the implantable medical device for purposes of recharging a battery of the implantable medical device. The far field operations may include exchanging recharge information that has been collected by the implantable medical device which allows the external device to exercise control over the recharge process. The far field operations may include suspending far field telemetry communications for periods of time while power continues to be transferred where suspending far field telemetry communications may include powering down far field telemetry communication circuits of the implantable medical device for periods of time which may conserve energy. The far field operations may further include transferring programming instructions to the implantable medical device.