Power scaling
First Claim
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1. A method of monitoring and controlling power transfer between a primary assembly and a secondary assembly of a transcutaneous energy transfer system, comprising:
- operating the transcutaneous energy transfer system in a first power mode, the first power mode being one of a plurality of scalable power modes;
determining if the transcutaneous energy transfer system is to be switched to a second power mode, the second power mode being one of the plurality of scalable power modes, wherein determining if the transcutaneous energy transfer system is to be switched includes at least one of;
determining if a request to enter a fault mode is received;
determining if a predetermined time has elapsed since power up;
determining if a predetermined time has elapsed since a fault condition was detected;
determining if a predetermined time has elapsed since a change in a coupling coefficient occurred;
determining if a fault condition is detected;
determining if a change in a coupling coefficient is detected;
ordetermining if a load change is detected; and
switching from the first power mode to the second power mode by controlling power transfer between the primary assembly and secondary assembly.
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Abstract
Disclosed are systems and methods for measuring and calculating parameters to control and monitor a power transfer in an implanted medical device, including operating the device in a plurality of scalable power modes and/or coupling modes. The system may shift between or among power and/or coupling modes based on input such as data received over system communication lines, programmable timers, or electrical loading information. The system may also shift between or among power and/or coupling modes based on calculated amounts of coupling, levels of detected heat flux, and/or amounts of estimated temperature changes.
274 Citations
18 Claims
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1. A method of monitoring and controlling power transfer between a primary assembly and a secondary assembly of a transcutaneous energy transfer system, comprising:
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operating the transcutaneous energy transfer system in a first power mode, the first power mode being one of a plurality of scalable power modes; determining if the transcutaneous energy transfer system is to be switched to a second power mode, the second power mode being one of the plurality of scalable power modes, wherein determining if the transcutaneous energy transfer system is to be switched includes at least one of; determining if a request to enter a fault mode is received; determining if a predetermined time has elapsed since power up; determining if a predetermined time has elapsed since a fault condition was detected; determining if a predetermined time has elapsed since a change in a coupling coefficient occurred; determining if a fault condition is detected; determining if a change in a coupling coefficient is detected;
ordetermining if a load change is detected; and switching from the first power mode to the second power mode by controlling power transfer between the primary assembly and secondary assembly. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method of monitoring and controlling power transfer between a primary assembly and a secondary assembly of a transcutaneous energy transfer system, comprising:
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operating the transcutaneous energy transfer system in a first power mode, the first power mode being one of a plurality of scalable power modes; determining if the transcutaneous energy transfer system is to be switched to a second power mode, the second power mode being one of the plurality of scalable power modes; and switching from the first power mode to the second power mode by controlling power transfer between the primary assembly and secondary assembly, wherein controlling the power transfer between the primary assembly and secondary assembly includes changing the power mode by an operation of a variable voltage regulator on the primary assembly side. - View Dependent Claims (16)
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17. A method of monitoring and controlling power transfer between a primary assembly and a secondary assembly of a transcutaneous energy transfer system, comprising:
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operating the transcutaneous energy transfer system in a first power mode, the first power mode being one of a plurality of scalable power modes; determining if the transcutaneous energy transfer system is to be switched to a second power mode, the second power mode being one of the plurality of scalable power modes; and switching from the first power mode to the second power mode by controlling power transfer between the primary assembly and secondary assembly, wherein controlling the power transfer between the primary assembly and secondary assembly includes changing the power mode by an operation of a phase shifted bridge controller on the primary assembly side. - View Dependent Claims (18)
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Specification
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Current AssigneeMinnetronix, Inc., Penn State Research Foundation
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Original AssigneeMinnetronix, Inc.
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InventorsBluvshtein, Vlad, Lucke, Lori, Weiss, William
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Primary Examiner(s)Stice, Paula J
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Application NumberUS15/858,971Publication NumberTime in Patent Office592 DaysField of SearchUS Class CurrentCPC Class CodesA61M 2205/3368 TemperatureA61M 2205/8243 by inductionA61M 60/148 in line with a blood vessel...A61M 60/178 drawing blood from a ventri...A61M 60/508 Electronic control means, e...A61M 60/585 User interfacesA61M 60/873 specially adapted for wirel...H01F 38/14 Inductive couplings for wir...H02J 2310/23 The load being a medical de...H02J 50/12 of the resonant typeH02J 7/00304 Overcurrent protection
