Adaptive inductive power supply with communication
First Claim
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1. A contactless power supply for supplying power wirelessly to a remote device comprising:
- a tank circuit having a primary for transferring power to the remote device by an inductive coupling, said tank circuit having a resonant frequency;
circuitry for applying power at a rail voltage to said tank circuit, said circuitry applying said power at an operating frequency and a duty cycle;
a receiver for receiving information from said remote device;
a controller coupled to said circuitry and said receiver, said controller configured to vary in response to said information at least one of said resonant frequency of said tank circuit, said operating frequency of said power, said duty cycle of said power and said rail voltage of said power;
throttling circuitry coupled to said tank circuit, said throttling circuitry for throttling said power;
a circuit sensor coupled to said tank circuit and to said controller, said circuit sensor providing said controller with an input indicative of a characteristic of power in said tank circuit; and
wherein said controller is configured to vary another of said at least one of said resonant frequency of said tank circuit, said operating frequency of said power, said duty cycle of said power and said rail voltage of said power as a function of said input indicative of a characteristic of power in said resonant circuit.
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Accused Products
Abstract
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.
206 Citations
23 Claims
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1. A contactless power supply for supplying power wirelessly to a remote device comprising:
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a tank circuit having a primary for transferring power to the remote device by an inductive coupling, said tank circuit having a resonant frequency; circuitry for applying power at a rail voltage to said tank circuit, said circuitry applying said power at an operating frequency and a duty cycle; a receiver for receiving information from said remote device; a controller coupled to said circuitry and said receiver, said controller configured to vary in response to said information at least one of said resonant frequency of said tank circuit, said operating frequency of said power, said duty cycle of said power and said rail voltage of said power; throttling circuitry coupled to said tank circuit, said throttling circuitry for throttling said power; a circuit sensor coupled to said tank circuit and to said controller, said circuit sensor providing said controller with an input indicative of a characteristic of power in said tank circuit; and wherein said controller is configured to vary another of said at least one of said resonant frequency of said tank circuit, said operating frequency of said power, said duty cycle of said power and said rail voltage of said power as a function of said input indicative of a characteristic of power in said resonant circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A method of operating an inductive power supply for a remote device, the method including the steps of:
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applying power to a tank circuit within the inductive power supply; establishing an inductive coupling between the inductive power supply and the remote device; receiving, in the inductive power supply, power information from the remote device; sensing, in the inductive power supply, a characteristic of power in the tank circuit; based upon said receiving step, configuring the inductive power supply by adjusting at least one of a resonant frequency of a tank circuit, an operating frequency of the power applied to the tank circuit, a rail voltage of the power applied to the tank circuit, and a duty cycle of the power applied to the tank circuit; configuring the inductive power supply by adjusting another of the at least one of the resonant frequency, the operating frequency, the duty cycle, and the rail voltage as a function of the sensed characteristic of power in the tank circuit; and throttling the power applied to the tank circuit. - View Dependent Claims (15, 16, 17)
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18. A contactless power supply for transferring power to a secondary in a remote device separable from said contactless power supply comprising:
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a tank circuit having a primary for transferring power to a secondary by an inductive coupling; an inverter coupled to said tank circuit, said inverter applying power to said tank circuit; circuitry coupled to said inverter, said circuitry adapted to throttle phase; a receiver coupled to said circuitry, said receiver adapted to obtain power information from said remote device; a sensor coupled to said tank circuit and adapted to measure operating parameters of said contactless power supply; and a control circuit coupled to said circuitry and adapted to control said inverter for supplying power to said primary, said control circuit coupled to said sensor and adapted to continually monitor said operating parameters, wherein said control circuit continually monitors said operating parameters from said sensor. - View Dependent Claims (19, 20, 21, 22, 23)
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Specification