Methods and systems for wireless energy and data transmission
First Claim
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1. A system for wirelessly transmitting and receiving energy, comprising:
- an emitter, comprising;
a primary emitting winding wrapped around a first support; and
a secondary emitting winding wrapped around a second support; and
a receiver, comprising;
a primary receiving winding wrapped around a third support; and
a secondary receiving winding wrapped around a fourth support.
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Abstract
System and methods for wireless energy and data transmission are described. One aspect includes an emitter and receiver. The emitter may include primary and secondary emitting windings. The receiver may include primary and secondary receiver windings. In further aspects, the emitter may include a tertiary emitting winding and the receiver may include a tertiary receiver winding. In one aspect, the emitter uses driving circuitry and the receiver uses rectifying circuitry and one or more capacitors. In further aspects, the emitter and receiver are reversible.
8 Citations
24 Claims
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1. A system for wirelessly transmitting and receiving energy, comprising:
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an emitter, comprising; a primary emitting winding wrapped around a first support; and a secondary emitting winding wrapped around a second support; and a receiver, comprising; a primary receiving winding wrapped around a third support; and a secondary receiving winding wrapped around a fourth support. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of wirelessly transferring data and energy, comprising:
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generating a carrier wave; modulating the carrier wave to create a combined signal; driving the combined signal to an AC input of the emitter; electromagnetically coupling the emitter to a receiver; and reproducing the combined signal in an AC output of the receiver. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 22, 23, 24)
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21. A method for wirelessly transmitting and receiving energy, comprising:
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(a) transmitting an alternating current into a driver coupled to a primary emitting winding of an emitter; (b) inducing the alternating current into a secondary emitting winding of the emitter; (c) sensing a frequency of the alternating current on the secondary emitting winding; (d) transmitting a feedback signal to the driver; (e) driving the alternating current into the primary emitting winding; (f) electromagnetically coupling the emitter to a receiver; (g) inducing the alternating current into a secondary receiving winding of the receiver; and (h) inducing the alternating current into a primary receiving winding of the receiver.
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Specification