Portable electronic device and capacitive charger providing data transfer and associated methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-007/00
H02L-041/00
출원번호
US-0293902
(2005-12-05)
등록번호
US-7511452
(2009-03-31)
발명자
/ 주소
Bersenev,Alexander
출원인 / 주소
Research in Motion Limited
대리인 / 주소
Allen, Dyer, Doppelt, Milbrath & Gilchrist, P.A.
인용정보
피인용 횟수 :
11인용 특허 :
17
초록▼
The electronic apparatus includes a portable electronic device and a charger for capacitively charging the portable electronic device when the portable electronic device is temporarily placed adjacent the charger. The portable electronic device includes a device data communication unit and an associ
The electronic apparatus includes a portable electronic device and a charger for capacitively charging the portable electronic device when the portable electronic device is temporarily placed adjacent the charger. The portable electronic device includes a device data communication unit and an associated battery, and a pair of device capacitive electrodes, defining a device conductive footprint, to receive a charging signal to charge the battery. The charger includes a base having an area larger than the device conductive footprint and able to receive the portable electronic device thereon in a plurality of different positions, and an array of charger capacitive electrodes carried by the base. A charger controller selectively drives only the charger capacitive electrodes within the device conductive footprint with a charging signal to capacitively charge the battery. A charger data communication unit communicates with the device data communication unit via the charger capacitive electrodes and device capacitive electrodes, e.g. by modulating data onto the charging signal.
대표청구항▼
That which is claimed is: 1. An electronic apparatus comprising: a portable electronic device and a charger for capacitively charging said portable electronic device; said portable electronic device comprising a housing, a device data communication unit and an associated battery carried by the hous
That which is claimed is: 1. An electronic apparatus comprising: a portable electronic device and a charger for capacitively charging said portable electronic device; said portable electronic device comprising a housing, a device data communication unit and an associated battery carried by the housing, and at least one pair of device capacitive electrodes carried by said housing to receive a charging signal to charge said battery, the at least one pair of device capacitive electrodes defining a device conductive footprint; said charger comprising a base having an area larger than the device conductive footprint and able to receive said portable electronic device thereon in a plurality of different positions, an array of charger capacitive electrodes carried by said base, a charger controller including a charging signal generator, a switching circuit connected between said charging signal generator and said charger capacitive electrodes, a control circuit connected to said switching circuit, and an impedance detector connected to said control circuit, the charger controller for selectively driving only said charger capacitive electrodes within the device conductive footprint with a charging signal to capacitively charge said battery of said portable electronic device when said portable electronic device is positioned on said base of said charger, and a charger data communication unit to communicate with said device data communication unit via said charger capacitive electrodes and device capacitive electrodes. 2. The electronic apparatus according to claim 1 wherein said charger controller senses impedances of said charger capacitive electrodes to determine whether a respective charger capacitive electrode is within the device conductive footprint or not. 3. The electronic apparatus according to claim 1 wherein said charger data communication unit modulates data onto the device charging signal to communicate with said device data communication unit via said charger and device capacitive electrodes. 4. The electronic apparatus according to claim 3 wherein said portable electronic device comprises a processor connected to said device data communication unit; and wherein said device data communication unit comprises: a device data interface connected to said at least one pair of device capacitive electrodes; a device data transceiver connected to said device data interface to demodulate and decode the data communicated on the charging signal; and a processor interface connected between said device data transceiver and said processor. 5. The electronic apparatus according to claim 3 wherein said charger data communication unit comprises a charger data transceiver to modulate and encode the data communicated on the charging signal. 6. The electronic apparatus according to claim 5 wherein said charger data transceiver modulates the data onto the charging signal using Frequency Shift Keying (FSK) modulation. 7. The electronic apparatus according to claim 1 wherein said charger comprises a Universal Serial Bus (USB) connector to connect to a personal computer (PC). 8. A charger for capacitively charging a portable electronic device when the portable electronic device is placed adjacent the charger, the portable electronic device comprising a housing, a device data communication unit and associated battery carried by the housing, and at least one pair of device capacitive electrodes carried by the housing to receive a charging signal to charge the battery, the at least one pair of device capacitive electrodes defining a device conductive footprint, the charger comprising: a base having an area larger than the device conductive footprint and able to receive said portable electronic device thereon in a plurality of different positions; an array of charger capacitive electrodes carried by said base; a charger controller including a charging signal generator, a switching circuit connected between said charging signal generator and said charger capacitive electrodes, a control circuit connected to said switching circuit, and an impedance detector connected to said control circuit; the charger controller for selectively driving only said charger capacitive electrodes within the device conductive footprint with a charging signal to capacitively charge said battery of said portable electronic device when said portable electronic device is positioned on said base of said charger; and a charger data communication unit to communicate with the device data communication unit via said charger capacitive electrodes and device capacitive electrodes. 9. The charger according to claim 8 wherein said charger controller senses impedances of said charger capacitive electrodes to determine whether a respective charger capacitive electrode is within the device conductive footprint or not. 10. The charger according to claim 8 wherein said charger data communication unit comprises a charger data transceiver to modulate and encode data on the charging signal to communicate with the device data communication unit. 11. The charger according to claim 10 wherein said charger data transceiver modulates the data onto the charging signal using Frequency Shift Keying (FSK) modulation. 12. The charger according to claim 8 wherein said charger comprises a Universal Serial Bus (USB) connector to connect to a personal computer (PC). 13. A method of capacitively charging a portable electronic device with a charger, the portable electronic device comprising a housing, a device data communication unit and associated battery carried by the housing, and at least one pair of device capacitive electrodes carried by the housing to receive a charging signal to charge the battery, the at least one pair of device capacitive electrodes defining a device conductive footprint, and the charger comprising a base having an area larger than the device conductive footprint and able to receive the portable electronic device thereon in a plurality of different positions, an array of charger capacitive electrodes carried by the base, a charger controller connected to the charger capacitive electrodes and including a charging signal generator, a switching circuit connected between the charging signal generator and the charger capacitive electrodes, a control circuit connected to the switching circuit, and an impedance detector connected to the control circuit, and an associated charger data communication unit, the method comprising: placing the portable electronic device adjacent the charger; selectively driving, via the charger controller, only the charger capacitive electrodes within the device conductive footprint with a charging signal to capacitively charge the battery of the portable electronic device to thereby capacitively charge the battery of the portable electronic device; and communicating data between the charger data communication unit and the device data communication unit via the charger capacitive electrodes and device capacitive electrodes. 14. The method according to claim 13 further comprising sensing, via the charger controller, the impedances of the charger capacitive electrodes to determine whether a respective charger capacitive electrode is within the device conductive footprint. 15. The method according to claim 13 wherein the charger data communication unit comprises a charger data transceiver; and wherein communicating comprises modulating and encoding data, with the charger data transceiver, onto the charging signal. 16. The method according to claim 15 wherein the charger data transceiver modulates the data onto the charging signal using Frequency Shift Keying (FSK) modulation. 17. The method according to claim 13 wherein the charger comprises a Universal Serial Bus (USB) connector; and further comprising connecting the charger to a personal computer (PC) via the USB connector.
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