IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0078100
(2011-04-01)
|
등록번호 |
US-8346166
(2013-01-01)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Access Business Group International LLC
|
대리인 / 주소 |
Warner Norcross & Judd LLP
|
인용정보 |
피인용 횟수 :
17 인용 특허 :
105 |
초록
▼
An adaptive inductive ballast is provided with the capability to communicate with a remote device powered by the ballast. To improve the operation of the ballast, the ballast changes its operating characteristics based upon information received from the remote device. Further, the ballast may provid
An adaptive inductive ballast is provided with the capability to communicate with a remote device powered by the ballast. To improve the operation of the ballast, the ballast changes its operating characteristics based upon information received from the remote device. Further, the ballast may provide a path for the remote device to communicate with device other than the adaptive inductive ballast.
대표청구항
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1. A contactless power supply for inductively providing power to a remote device comprising: a resonant circuit having at least one of a variable capacitor with a variable capacitance and a variable inductor with a variable inductance, said resonant circuit having a variable resonant frequency that
1. A contactless power supply for inductively providing power to a remote device comprising: a resonant circuit having at least one of a variable capacitor with a variable capacitance and a variable inductor with a variable inductance, said resonant circuit having a variable resonant frequency that varies as a function of said at least one of said variable capacitor and said variable inductor, said resonant circuit having a primary for transferring power to the remote device;circuitry for providing power at an operating frequency, rail voltage, and duty cycle;a receiver for receiving information from said remote device;a controller electrically coupled to said receiver and said circuitry, wherein said controller is programmed to: (1) vary said variable resonant frequency of said resonant circuit by at least one of (i) varying said capacitance of said variable capacitor of said resonant circuit; and (ii) varying said variable inductance of said variable inductor of said resonant circuit; and(2) vary at least one of said operating frequency, said duty cycle, and said rail voltage. 2. The contactless power supply of claim 1 further comprising a circuit sensor for generating a sensor output. 3. The contactless power supply of claim 2 wherein said controller varies at least one of said operating frequency, said duty cycle, and said rail voltage in response to said sensor output. 4. The contactless power supply of claim 1 wherein said circuit sensor is electrically coupled to said resonant circuit and said controller. 5. The contactless power supply of claim 1 wherein said controller varies said variable resonant frequency of said resonant circuit in response to information received from said remote device. 6. The contactless power supply of claim 5 wherein said controller varies said variable resonant frequency in response to power information from said remote device. 7. A contactless power supply system for transmitting power from a contactless power supply to a remote device, the contactless power supply system comprising: an inverter, the inverter having a duty cycle and an operating frequency;a resonant circuit coupled to the inverter, the resonant circuit having a resonant frequency, the resonant circuit having a primary for transferring power to the remote device;a power source coupled to the inverter, the power source having a rail voltage;a receiver for receiving power information from the remote device;a sensor generating a sensor output; anda controller in electrical communication with the receiver, the controller programmed to: (1) vary a first characteristic of the contactless power supply in response to the sensor output, the first characteristic being one of the resonant frequency of the resonant circuit, the operating frequency of the inverter, the rail voltage of the power source, and the duty cycle of the inverter, and(2) vary a second characteristic of the contactless power supply in response to the information received from the remote device, the second characteristic being one of the resonant frequency of the resonant circuit, the operating frequency of the inverter, the rail voltage of the power source, and the duty cycle of the inverter and being different from the first characteristic. 8. The contactless power supply of claim 7 wherein the controller is programmed to vary the first characteristic in response to the sensor output and the information received from the remote device. 9. The contactless power supply of claim 7 wherein the second characteristic is the resonant frequency of the resonant circuit. 10. The contactless power supply of claim 7 further comprising a memory. 11. The contactless power supply of claim 7 where the receiver is part of a transceiver. 12. The contactless power supply of claim 11 where the transceiver communicates with a plurality of remote devices. 13. The contactless power supply of claim 12 where the transceiver receives power information from each of the remote devices. 14. The contactless power supply of claim 13 where the transceiver creates a list in the memory of the power information. 15. The contactless power supply of claim 14 where the controller determines an optimal setting for at least one of rail voltage, resonant frequency and duty cycle based upon the list. 16. The contactless power supply of claim 15 further comprising a communication interface for communicating with a workstation. 17. The contactless power supply of claim 16 where the controller creates a communication link between the workstation and the remote device by way of the transceiver. 18. The contactless power supply of claim 7 wherein the receiver comprises at least one of the primary, an RF transceiver, an RF receiver, a communication coil separate from said primary, and a communication coil that is part of the primary. 19. A method of operating an inductive power supply system including an inductive power supply and a remote device, the method comprising: inductively coupling the inductive power supply to the remote device;receiving, in the inductive power supply, stored power information from the remote device; sensing a characteristic of power;adjusting a first characteristic of said inductive power supply in response to the information received from the remote device, the first characteristic being one of the resonant frequency of a tank circuit in the inductive power supply, an operating frequency of the inductive power supply, a duty cycle of the inductive power supply, and a rail voltage of the inductive power supply; andadjusting a second characteristic of said inductive power supply as a function of the sensed characteristic, the second characteristic being one of the resonant frequency of the tank circuit in the inductive power supply, the operating frequency of the inductive power supply, the duty cycle of the inductive power supply, and the rail voltage of the inductive power supply. 20. The method of claim 19 wherein the first characteristic is the resonant frequency of the tank circuit in the inductive power supply, wherein the resonant frequency is adjusted by (1) adjusting a capacitance of a variable capacitor of the resonant circuit and (2) adjusting an inductance of a variable inductor of said resonant circuit. 21. The method of claim 19 wherein the second characteristic is adjusted as a function of the sensed characteristic and in response to the information received from the remote device. 22. The method of claim 19 wherein the receiver comprises at least one of the primary, an RF transceiver, an RF receiver, a communication coil separate from said primary, and a communication coil that is part of the primary. 23. The method of claim 19 wherein the stored power information is a device identification. 24. The method of claim 19 wherein the sensed characteristic of power is a sensed characteristic in the inductive power supply that is affected by a characteristic of the remote device reflected through the inductive coupling. 25. A contactless power supply for providing power to a remote device, the contactless power supply comprising: an inverter, the inverter having a duty cycle and an operating frequency;a resonant circuit coupled to the inverter, the resonant circuit having a resonant frequency, the resonant circuit having a primary for transferring power to the remote device;a power source coupled to the inverter, the power source having a rail voltage;a receiver for receiving power information from the remote device; anda controller in electrical communication with the receiver, the controller programmed to:(1) vary a first characteristic of the contactless power supply, the first characteristic being one of the resonant frequency, the operating frequency, the rail voltage, and the duty cycle, and(2) vary a second characteristic of the contactless power supply, the second characteristic being one of the resonant frequency and the rail voltage and being different from the first characteristic. 26. The contactless power supply of claim 25, wherein the controller varies the first characteristic in response to the power information received from said remote device. 27. The contactless power supply of claim 25 wherein the controller is configured to receive a sensor output, wherein the controller varies the first characteristic in response to the sensor output. 28. The contactless power supply of claim 25 wherein the second characteristic is the resonant frequency.
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