Power transmission device, wireless power transmission system, and power transmission determination method
First Claim
1. A power transmission device for wirelessly transmitting electric power to an external device of the type which includes a first resonance circuit and first power coupling means coupled to the first resonance circuit, the power transmission device comprising:
- second power coupling means for transmitting power to the external device via the first power coupling means;
a second resonance circuit connected to the second power coupling means;
an alternating current generation circuit that applies an AC voltage to the second power coupling means through the resonance circuit for transmission of power to the external device; and
a controller for;
varying the frequency of the AC voltage generated by the alternating current generation circuit over a predetermined frequency range including a first frequency range determined by the resonant frequency of the first and second resonance circuits and a second frequency range that is below the first frequency range; and
causing power to be applied to the external device via the second power coupling means when an input impedance of the second coupling means, as viewed from an input side of the alternating current generation circuit, meets predetermined criteria including the fact that the input impedance falls within first and second impedance ranges for the first and second frequency ranges, respectively.
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Accused Products
Abstract
The frequency of an AC voltage applied to an active electrode and a passive electrode of a power transmission device is swept and input impedance (input voltage DCV) of a power receiving device side as viewed from a DC-to-AC inverter circuit is detected for each change of the frequency of the AC voltage. A determination is made as to whether the input voltage DCV in a first frequency range determined by a resonant frequency of a series resonance circuit of the power transmission device and parallel resonance circuit of the power receiving device falls with a range of 25 mV to 450 mV, and the input voltage DCV detected in a second frequency range is equal to or lower than 100 mv. When the results of both determinations are true, power is transmitted to the power receiving device.
5 Citations
17 Claims
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1. A power transmission device for wirelessly transmitting electric power to an external device of the type which includes a first resonance circuit and first power coupling means coupled to the first resonance circuit, the power transmission device comprising:
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second power coupling means for transmitting power to the external device via the first power coupling means; a second resonance circuit connected to the second power coupling means; an alternating current generation circuit that applies an AC voltage to the second power coupling means through the resonance circuit for transmission of power to the external device; and a controller for; varying the frequency of the AC voltage generated by the alternating current generation circuit over a predetermined frequency range including a first frequency range determined by the resonant frequency of the first and second resonance circuits and a second frequency range that is below the first frequency range; and causing power to be applied to the external device via the second power coupling means when an input impedance of the second coupling means, as viewed from an input side of the alternating current generation circuit, meets predetermined criteria including the fact that the input impedance falls within first and second impedance ranges for the first and second frequency ranges, respectively. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A wireless power transmission system comprising:
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an external power receiving device including a first resonance circuit and first power coupling means coupled to the first resonance circuit; and a power transmission device comprising; second power coupling means for transmitting power to the external device via the first power coupling means; a second resonance circuit connected to the second power coupling means; an alternating current generation circuit that applies an AC voltage to the second power coupling means through the resonance circuit for transmission of power to the external device; and a controller for; varying the frequency of the AC voltage generated by the alternating current generation circuit over a predetermined frequency range including a first frequency range determined by the resonant frequency of the first and second resonance circuits and a second frequency range that is below the first frequency range; and causing power to be applied to the external device via the second power coupling means when an input impedance of the second coupling means, as viewed from an input side of the alternating current generation circuit, meets predetermined criteria including the fact that the input impedance falls within first and second impedance ranges for the first and second frequency ranges, respectively.
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17. A method for determining when to transmit power from a power transmission device to a power receiving device, the power receiving device having a first resonance circuit and first power coupling means coupled to the first resonance circuit, the power transmission device having a second power coupling means for transmitting power to the power receiving device via the first power coupling means and an alternating current generation circuit that applies an AC voltage to the second power coupling means through the resonance circuit for transmission of power to the external device;
- the method comprising;
varying the frequency of the AC voltage generated by the alternating current generation circuit over a predetermined frequency range including a first frequency range determined by the resonant frequency of the first and second resonance circuits and a second frequency range that is below the first frequency range; and causing power to be applied to the external device via the second power coupling means when an input impedance of the second coupling means, as viewed from an input side of the alternating current generation circuit, meets predetermined criteria including the fact that the input impedance falls within first and second impedance ranges for the first and second frequency ranges, respectively.
- the method comprising;
Specification