Methods, implantable medical devices, and systems that abort a high voltage charge when a transformer is impaired
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-007/00
A61N-001/39
H02J-007/34
A61N-001/05
출원번호
US-0256864
(2014-04-18)
등록번호
US-9641012
(2017-05-02)
발명자
/ 주소
Cabelka, Lonny
Grinberg, Yanina
Jenison, Troy
출원인 / 주소
Medtronic, Inc.
인용정보
피인용 횟수 :
0인용 특허 :
22
초록▼
High voltage charging is aborted when it is detected that a transformer providing the high voltage charge is impaired and is providing an impedance that is too low. In one instance, a voltage for a battery that provides power to the transformer is measured when the battery is substantially unloaded
High voltage charging is aborted when it is detected that a transformer providing the high voltage charge is impaired and is providing an impedance that is too low. In one instance, a voltage for a battery that provides power to the transformer is measured when the battery is substantially unloaded and a voltage is later measured when the battery is loaded during the high voltage charge. A dynamic threshold voltage is computed based on a chosen threshold impedance representing the impedance of the transformer and based the substantially unloaded voltage and on an internal resistance of the battery. When the loaded voltage is less than the threshold voltage, then the high voltage charging is aborted.
대표청구항▼
1. A method of aborting a high voltage charge of a capacitor within an implantable medical device when a transformer of the implantable medical device that produces the high voltage charge is impaired, comprising: obtaining a substantially unloaded value for a battery of the implantable medical devi
1. A method of aborting a high voltage charge of a capacitor within an implantable medical device when a transformer of the implantable medical device that produces the high voltage charge is impaired, comprising: obtaining a substantially unloaded value for a battery of the implantable medical device that provides voltage across a primary coil of the transformer;computing a dynamic threshold value based on the substantially unloaded value, a value representing a resistance of the battery, and a value representing a threshold impedance of the primary coil;obtaining a loaded value of the battery when performing a high voltage charge; andcomparing the loaded value to the threshold value, and when the difference between the loaded value and the threshold value indicates that the transformer is impaired, then aborting the high voltage charge. 2. The method of claim 1, wherein obtaining a substantially unloaded value for the battery comprises obtaining an open circuit voltage of the battery. 3. The method of claim 1, wherein computing the threshold value comprises computing a threshold voltage. 4. The method of claim 1, wherein obtaining the loaded value of the battery comprises obtaining the loaded voltage of the battery. 5. The method of claim 1, wherein comparing the loaded value to the threshold value comprises comparing a loaded voltage to a threshold voltage and when the loaded voltage drops below the threshold voltage then aborting the high voltage charge. 6. A method of aborting a high voltage charge of a capacitor within an implantable medical device when a transformer of the implantable medical device that produces the high voltage charge is impaired, comprising: obtaining an open circuit voltage of a battery of the implantable medical device that provides voltage across a primary coil of the transformer;computing a dynamic threshold voltage based on the open circuit voltage, a value representing a resistance of the battery, and a value representing a threshold impedance of the primary coil;obtaining a loaded voltage across the primary coil of the transformer when performing a high voltage charge; andcomparing the loaded voltage to the threshold voltage, and when the loaded voltage drops below the threshold voltage then aborting the high voltage charge. 7. The method of claim 6, wherein obtaining the open circuit voltage of the battery occurs within 24 hours of obtaining the voltage across the primary coil of the transformer when performing a high voltage charge. 8. The method of claim 6, wherein the value representing the resistance of the battery is fixed. 9. The method of claim 6, wherein the value representing the resistance of the battery is chosen based on a depth of discharge of the battery. 10. The method of claim 6, wherein the value representing the threshold impedance of the primary coil is chosen by determining a highest impedance less than a target impedance being presented to the battery when the primary coil is unimpaired where a distribution of voltages representative of the battery for any depth of discharge of the battery when loaded at that highest impedance does not overlap with a distribution of voltages representative of the battery for any depth of discharge of the battery when loaded at the target impedance that is presented to the battery during the high voltage charge when the primary coil is unimpaired. 11. The method of claim 6, further comprising performing the high voltage charge by repeatedly opening and closing a switch in series between the battery and the primary coil of the transformer where the timing of the repeated opening and closing of the switch modulates the current through the primary coil to attempt to present the battery with a target impedance that is most accurately achieved when the transformer is unimpaired. 12. The method of claim 6, wherein obtaining the open circuit voltage comprises making a direct measurement of the open circuit voltage and wherein obtaining the loaded voltage comprises making a direct measurement of the loaded voltage. 13. An implantable medical device, comprising: a battery;a transformer having a primary coil and a secondary coil;an electrical storage element connected across the secondary coil of the transformer;a switch in series between the battery and the primary coil of the transformer;a voltage measurement device that is electrically connected across the battery and that is electrically connected across the primary coil when the switch is closed; anda controller in communication with the voltage measurement device and with the switch, the controller causing the switch to open and close to begin passing current from the battery through the primary coil during a high voltage charge of the electrical storage element, wherein prior to the high voltage charge the controller communicates with the voltage measurement device to obtain an open circuit voltage of the battery and during the high voltage charge the controller communicates with the voltage measurement device to obtain a loaded voltage of the battery, wherein the controller computes a threshold voltage based on the open circuit voltage, a value representing a resistance of the battery, and a value representing a threshold impedance of the primary coil, and wherein the controller compares the loaded voltage to the threshold voltage, and when the loaded voltage drops below the threshold voltage then aborts the high voltage charge by leaving the switch open. 14. The implantable medical device of claim 13, wherein the controller obtains the open circuit voltage of the battery within 24 hours of obtaining the voltage across the primary coil of the transformer when performing a high voltage charge. 15. The implantable medical device of claim 13, wherein the value representing the resistance of the battery is fixed. 16. The implantable medical device of claim 13, wherein the controller chooses the value representing the resistance of the battery based on a depth of discharge of the battery. 17. The implantable medical device of claim 13, wherein the value representing the threshold impedance of the primary coil is chosen by determining a highest impedance less than a target impedance being presented to the battery when the primary coil is unimpaired where a distribution of voltages representative of the battery for any depth of discharge of the battery when loaded at that highest impedance does not overlap with a distribution of voltages representative of the battery for any depth of discharge of the battery when loaded at the target impedance that is presented to the battery during the high voltage charge when the primary coil is unimpaired. 18. The implantable medical device of claim 13, wherein the controller performs the high voltage charge by repeatedly opening and closing the switch where the timing of the repeated opening and closing of the switch modulates the current through the primary coil to attempt to present the battery with a target impedance that is most accurately achieved when the transformer is unimpaired. 19. The implantable medical device of claim 13, wherein the controller obtains the open circuit voltage by the measurement device making a direct measurement of the open circuit voltage and wherein the controller obtains the loaded voltage by the measurement device making a direct measurement of the loaded voltage. 20. An implantable medical system, comprising: an implantable medical lead; andan implantable medical device, comprising: a battery;a transformer having a primary coil and a secondary coil;an electrical storage element connected across the secondary coil of the transformer;a switch in series between the battery and the primary coil of the transformer;a voltage measurement device that is electrically connected across the battery and that is electrically connected across the primary coil when the switch is closed; anda controller in communication with the voltage measurement device and with the switch, the controller causing the switch to open and close to begin passing current from the battery through the primary coil during a high voltage charge of the electrical storage element, wherein prior to the high voltage charge the controller communicates with the voltage measurement device to obtain an open circuit voltage of the battery and during the high voltage charge the controller communicates with the voltage measurement device to obtain a loaded voltage of the battery, wherein the controller computes a threshold voltage based on the open circuit voltage, a value representing a resistance of the battery, and a value representing a threshold impedance of the primary coil, wherein the controller compares the loaded voltage to the threshold voltage, and when the loaded voltage drops below the threshold voltage then aborts the high voltage charge by leaving the switch open and wherein when the high voltage charge is complete, the controller causes the energy storage element to be coupled to the lead.
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