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公开(公告)号:US20190115793A1
公开(公告)日:2019-04-18
申请号:US16215918
申请日:2018-12-11
Applicant: MEDTRONIC, INC.
Inventor: David P. Olson , William C. Phillips , Garrett R. Sipple , Yu Wang
IPC: H02J50/90 , G16H40/67 , H02J7/02 , A61M5/172 , A61N1/378 , H02J50/80 , H02J50/10 , A61B5/00 , A61N1/372
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.
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公开(公告)号:US09729001B2
公开(公告)日:2017-08-08
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
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.
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公开(公告)号:US11752350B2
公开(公告)日:2023-09-12
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: A61N1/37 , A61N1/372 , H02J50/10 , H02J50/80 , H02J50/90 , A61N1/378 , G16H40/67 , A61B5/00 , A61M5/172 , H02J7/00
CPC classification number: A61N1/37252 , A61B5/686 , A61M5/172 , A61N1/3787 , A61N1/37217 , G16H40/67 , H02J50/10 , H02J50/80 , H02J50/90 , A61N1/37 , A61N1/37276 , H02J7/00034
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.
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公开(公告)号:US10177609B2
公开(公告)日:2019-01-08
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: A61N1/00 , H02J50/90 , H02J50/10 , H02J50/80 , A61N1/372 , A61N1/378 , A61B5/00 , A61M5/172 , H02J7/02 , G16H40/67 , A61N1/37 , H02J7/00
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.
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公开(公告)号:US09821112B2
公开(公告)日:2017-11-21
申请号:US15262639
申请日:2016-09-12
Applicant: Medtronic, Inc.
Inventor: David P. Olson , William C. Phillips , Andrew L. Schmeling
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.
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Patent Agency Ranking
公开(公告)号:US09629996B2
公开(公告)日:2017-04-25
申请号:US14212019
申请日:2014-03-14
Applicant: MEDTRONIC, INC.
Inventor: John E. Kast , James A. Zimmerman , Craig S. Pilarski , William C. Phillips , Thomas I. Miller , Mary L. Boatright
IPC: A61N1/05 , A61N1/375 , H01R24/58 , H01R107/00
CPC classification number: A61N1/0551 , A61B2562/227 , A61N1/05 , A61N1/0529 , A61N1/0534 , A61N1/3752 , H01R24/58 , H01R2107/00 , H01R2201/12
Abstract: An implantable medical lead includes a lead body having a proximal portion and a distal portion. The lead also includes first and second contacts located at the proximal portion of the lead body, and includes first and second electrodes located at the distal portion of the lead body. The first electrode is electrically coupled to the first contact and the second electrode is electrically coupled to the second contact. The first contact has a proximal end and a distal end and the second contact has proximal end and a distal end. The second contact is radially spaced apart from the first contact. The contacts do not extend around the lead body. This disclosure also relates to an implantable lead extension and to an implantable signal generator having connectors configured to receive the present lead.
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7.发明申请INDUCTIVELY RECHARGEABLE EXTERNAL ENERGY SOURCE, CHARGER, SYSTEM AND METHOD FOR A TRANSCUTANEOUS INDUCTIVE CHARGER FOR AN IMPLANTABLE MEDICAL DEVICE 审中-公开用于可移植医疗器械的电容式电感充电器的诱发性可充电外部能量源,充电器,系统和方法公开(公告)号:US20170065766A1
公开(公告)日:2017-03-09
申请号:US15262639
申请日:2016-09-12
Applicant: Medtronic, Inc.
Inventor: David P. Olson , William C. Phillips , Andrew L. Schmeling
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.
Abstract translation: 公开了一种用于将能量从外部电源传送到可植入医疗装置的机构。 可以使用传感器来测量与能量的经皮耦合期间发生的系统的温度相关的参数。 例如,传感器可以测量外部电源的天线的表面的温度。 然后将测量的参数与可编程限制进行比较。 然后可以由外部电源提供的控制电路可以基于比较来控制温度。 可编程极限可以例如在软件控制下,使得在经皮耦合能量期间发生的温度可以被修改以适应当前的情况。
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公开(公告)号:US09463324B2
公开(公告)日:2016-10-11
申请号:US14803563
申请日:2015-07-20
Applicant: MEDTRONIC, INC.
Inventor: David P. Olson , William C. Phillips , Andrew L. Schmeling
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.
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9.发明申请INDUCTIVELY RECHARGEABLE EXTERNAL ENERGY SOURCE, CHARGER, SYSTEM AND METHOD FOR A TRANSCUTANEOUS INDUCTIVE CHARGER FOR AN IMPLANTABLE MEDICAL DEVICE 审中-公开用于可移植医疗器械的电容式电感充电器的诱发性可充电外部能量源,充电器,系统和方法公开(公告)号:US20150321015A1
公开(公告)日:2015-11-12
申请号:US14803563
申请日:2015-07-20
Applicant: MEDTRONIC, INC.
Inventor: David P. Olson , William C. Phillips , Andrew L. Schmeling
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.
Abstract translation: 公开了一种用于将能量从外部电源传送到可植入医疗装置的机构。 可以使用传感器来测量与能量的经皮耦合期间发生的系统的温度相关的参数。 例如,传感器可以测量外部电源的天线的表面的温度。 然后将测量的参数与可编程限制进行比较。 然后可以由外部电源提供的控制电路可以基于比较来控制温度。 可编程极限可以例如在软件控制下,使得在经皮耦合能量期间发生的温度可以被修改以适应当前的情况。
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公开(公告)号:US10888703B2
公开(公告)日:2021-01-12
申请号:US16215918
申请日:2018-12-11
Applicant: MEDTRONIC, INC.
Inventor: David P. Olson , William C. Phillips , Garrett R. Sipple , Yu Wang
IPC: A61N1/37 , A61N1/372 , H02J50/10 , H02J50/80 , H02J50/90 , A61N1/378 , G16H40/67 , A61B5/00 , A61M5/172 , H02J7/02 , H02J7/00
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.
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