Inductive power supply system with battery type detection
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-007/00
H01F-038/00
출원번호
US-0390204
(2009-02-20)
등록번호
US-8120311
(2012-02-21)
발명자
/ 주소
Baarman, David W.
Norconk, Matthew J.
Nguyen, Hai D.
Schwannecke, Joshua K.
Zylstra, Brad A.
출원인 / 주소
Access Business Group International LLC
대리인 / 주소
Warner Norcross & Judd LLP
인용정보
피인용 횟수 :
30인용 특허 :
11
초록▼
An inductive power supply system to wirelessly charge a remote device based on detected battery characteristics. The system includes an inductive power supply with a primary coil capable of inductively providing power to a secondary coil in a remote device. The inductive power supply and remote devi
An inductive power supply system to wirelessly charge a remote device based on detected battery characteristics. The system includes an inductive power supply with a primary coil capable of inductively providing power to a secondary coil in a remote device. The inductive power supply and remote device include communication means for wirelessly communicating. The system further includes a remote device, having a battery with detectable battery characteristics. In operation, the remote device is capable of detecting the battery characteristics by applying a qualification charge to the battery. The inductive power supply system is capable of identifying the battery installed in the remote device by analyzing the detected battery characteristics. The inductive power supply system selects an appropriate charging algorithm based on the analyzed characteristics.
대표청구항▼
1. An inductive power supply system comprising: an inductive power supply including a primary circuit and a primary for wirelessly transferring power;a remote device separable from said inductive power supply, said remote device including a secondary for wirelessly receiving power from said inductiv
1. An inductive power supply system comprising: an inductive power supply including a primary circuit and a primary for wirelessly transferring power;a remote device separable from said inductive power supply, said remote device including a secondary for wirelessly receiving power from said inductive power supply, a battery having a battery type, and a secondary circuit that includes a battery characteristic detection system for detecting a characteristic of said battery indicative of said battery type, said characteristic of said battery including at least one of a battery voltage characteristic, a battery current characteristic, and a battery temperature characteristic;a memory located in at least one of said inductive power supply and said remote device, said memory including a plurality of wireless power charging algorithms;a communication system for wireless communication between said remote device and said inductive power supply;a controller adapted to communicate with said memory, said controller located in at least one of said inductive power supply and said remote device, wherein said controller is programmed to select a wireless power charging algorithm from said plurality of wireless power charging algorithms in said memory based at least in part on said detected battery characteristic indicative of said battery type; andwherein said primary wirelessly transfers power from said inductive power supply to said remote device according to said selected wireless power charging algorithm. 2. The inductive power supply system of claim 1 wherein said battery is replaceable with a different battery having a different battery type. 3. The inductive power supply system of claim 2 wherein said controller selects a different wireless power charging algorithm for said different battery based at least in part on said battery characteristic detection system detecting a characteristic of said different battery indicative of a different battery type. 4. The inductive power supply system of claim 1 wherein said memory includes a plurality of battery types, wherein each of said battery types is associated with one or more wireless power charging algorithms. 5. The inductive power supply system of claim 1 wherein said inductive power supply selects said wireless power charging algorithm based at least in part on at least one of 1) said detected battery characteristic; and 2) a determined battery type communicated from said remote device to said inductive power supply, said determined battery type determined by said controller based at least in part on said detected battery characteristic. 6. The inductive power supply system of claim 1 wherein said remote device selects said wireless power charging algorithm based at least in part on at least one of 1) said detected battery characteristic; and 2) a determined battery type, said determined battery type determined by said controller based at least in part on said detected battery characteristic. 7. The inductive power supply system of claim 1 wherein said communication system includes: a remote device communication system for wirelessly communicating with said inductive power supply including at least one of a signal resistor for communicating using said secondary and a wireless transmitter; andan inductive power supply communication system for wirelessly communicating with said remote device including at least one of a current sensor for communicating using said primary and a wireless receiver. 8. The inductive power supply system of claim 1 wherein said controller is programmed to select said wireless power charging algorithm from said plurality of wireless charging algorithms based on a comparison between said detected battery characteristic and a threshold. 9. The inductive power supply system of claim 1 wherein said controller is programmed to supply a qualification charge to said battery, wherein said detected battery characteristic changes in response to said qualification charge, and wherein said controller selects said wireless charging algorithm from said plurality of wireless charging algorithms based on said change in said detected battery characteristic. 10. A remote device separable from an inductive power supply, said remote device comprising: a secondary for wirelessly receiving power from said inductive power supply;a battery having a battery type;a battery characteristic detection system for detecting a characteristic of said battery indicative of said battery type of said battery, said characteristic of said battery including at least one of a battery voltage characteristic, a battery current characteristic, and a battery temperature characteristic;a communication system for wirelessly communicating with said inductive power supply;a controller adapted to communicate with a memory including a plurality of wireless power charging algorithms, said controller programmed to at least one of: 1) select a wireless power charging algorithm from said plurality of wireless power charging algorithms in said memory based at least in part on said detected battery characteristic indicative of said battery type detected by said battery characteristic detection system; and2) communicate said detected battery characteristic to said inductive power supply for use in selecting a wireless power charging algorithm;wherein said secondary wirelessly receives power from said inductive power supply according to said selected wireless power charging algorithm. 11. The remote device of claim 10 wherein said battery is replaceable with a different battery having a different battery type. 12. The remote device of claim 11 wherein said controller selects a different wireless power charging algorithm for said different battery based at least in part on said battery characteristic detection system detecting a characteristic of said different battery indicative of a different battery type. 13. The remote device of claim 10 wherein said memory includes a plurality of battery types, wherein each of said battery types is associated with one or more wireless power charging algorithms. 14. The remote device of claim 10 wherein said communication system communicates to said inductive power supply at least one of 1) said detected battery characteristic; and 2) a determined battery type, said determined battery type determined by said controller based at least in part on said detected battery characteristic. 15. The remote device of claim 14 wherein said controller selects said wireless power charging algorithm based at least in part on said determined battery type. 16. The remote device of claim 10 wherein said communication system for wirelessly communicating with said inductive power supply includes at least one of a signal resistor for communicating using said secondary and a wireless transmitter. 17. An inductive power supply separable from a remote device, said inductive power supply comprising: a primary for wirelessly transferring power to said remote device;a communication system for receiving from said remote device a detected battery characteristic indicative of a battery type, said characteristic of said battery including at least one of a battery voltage characteristic, a battery current characteristic, and a battery temperature characteristic;a memory including a plurality of wireless power charging algorithms;a controller adapted to communicate with said memory, said controller programmed to select a wireless power charging algorithm from said plurality of wireless power charging algorithms in said memory based at least in part on said detected battery characteristic indicative of said battery type;wherein said primary wirelessly transfers power from said inductive power supply to said remote device according to said selected wireless power charging algorithm. 18. The inductive power supply of claim 17 wherein said memory includes a plurality of battery types, wherein each of said battery types is associated with one or more wireless power charging algorithms. 19. The inductive power supply of claim 17 wherein said communication system for wirelessly communicating with said remote device includes at least one of a current sensor for communicating using said primary and a wireless receiver. 20. The inductive power supply of claim 17 wherein said controller is programmed to select said wireless power charging algorithm from said plurality of wireless charging algorithms based on a comparison between said detected battery characteristic and a first threshold. 21. The inductive power supply of claim 20 wherein in response to said detected battery characteristic being greater than said first threshold, said controller selects said wireless charging algorithm for a lithium ion battery. 22. The inductive power supply of claim 20 wherein based on said detected battery characteristic being between said first threshold and a second threshold, said controller selects said wireless charging algorithm for a nickel metal hydride battery. 23. The inductive power supply of claim 20 wherein based on said detected battery characteristic being less than said first threshold, said controller determines that said battery is non-chargeable. 24. The inductive power supply of claim 20 wherein said first threshold is based on a number of cells present in said battery. 25. The inductive power supply of claim 17 wherein said controller is programmed to supply a qualification charge to said battery, wherein said detected battery characteristic changes in response to said qualification charge, and wherein said controller selects said wireless charging algorithm from said plurality of wireless charging algorithms based on said change in said detected battery characteristic. 26. A method for transferring power from an inductive power supply to a remote device adapted to operate with a plurality of different types of batteries, said method comprising the steps of: detecting a characteristic of a battery installed in said remote device, wherein said characteristic of said battery is indicative of a battery type, said characteristic of said battery including at least one of a battery voltage characteristic, a battery current characteristic, and a battery temperature characteristic;selecting a wireless power charging algorithm based at least in part on said detected battery characteristic indicative of said battery type;wirelessly transferring power from said inductive power supply to said remote device according to said selected wireless power charging algorithm. 27. The method of claim 26 wherein said selecting said wireless power charging algorithm includes comparing said detected battery characteristic to a first threshold. 28. The method of claim 27 wherein in response to said detected battery characteristic being greater than said first threshold, said wireless power charging algorithm for a lithium ion battery is selected. 29. The method of claim 27 wherein in response to said detected battery characteristic being between said first threshold and a second threshold, said wireless charging algorithm for a nickel metal hydride battery is selected. 30. The method of claim 27 wherein in response to said detected battery characteristic being less than said first threshold, determining that said battery is non-chargeable. 31. The method of claim 27 wherein said first threshold is based on a number of cells present in said battery. 32. The method of claim 26 further comprising supplying a qualification charge to said battery, wherein said detected battery characteristic changes in response to said qualification charge, and wherein said selecting said wireless charging algorithm from said plurality of wireless charging algorithms is based on said change in said detected battery characteristic.
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이 특허에 인용된 특허 (11)
Sagoo, Kiran Pal, Apparatus and method of wirelessly sharing power by inductive method.
Garcia Jorge L. ; Burke Annamarie ; De La Luz Juan B. ; Swope Charles B. ; Patino Joseph, Wireless battery charging system having adaptive parameter sensing.
Komma, Thomas; Rupf, Stephan; Weiss, Jörg, Battery charging system and method for cableless charging of a battery with voltage and current sensors on both the primary and secondary sides and a DC-DC converter on the primary side involved in an efficiency calibration power loop.
Baarman, David W.; Norconk, Matthew J.; Nguyen, Hai D.; Schwannecke, Joshua K.; Zylstra, Brad A., Inductive power supply system with battery type detection.
Gonzalez Valdez, Luis David; Van Wiemeersch, John Robert; Hrecznyj, Michael, System and method for reducing interference between wireless charging and amplitude modulation reception.
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