Wireless power feeding system
First Claim
1. A wireless power feeding system comprising:
- a power transmission coil;
a power transmission resonance coil configured to transmit power by electromagnetic induction with the power transmission coil;
a power reception resonance coil configured to excite high-frequency power by magnetic resonance;
a load coil configured to excite high-frequency power by electromagnetic induction with the power reception resonance coil;
a load electrically connected to the load coil;
a transistor electrically connected to the load coil; and
a microprocessor,wherein the load comprises;
a battery; and
a battery charger comprising a variable element, the battery charger being configured to charge the battery with the high-frequency power excited by the load coil,wherein the variable element is configured to control an amount of charging current supplied to the load,wherein the microprocessor is configured to control the variable element, andwherein a channel formation region of the transistor comprises an oxide semiconductor.
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Accused Products
Abstract
An object is to provide a wireless power feeding system using the resonance method, which can increase power transmission efficiency. The wireless power feeding system includes a power transmission coil electrically connected to a high-frequency power supply, a power transmission resonance coil for transmitting power by electromagnetic induction with the power transmission coil, a power reception resonance coil for exciting high-frequency power by magnetic resonance, a load coil for exciting high-frequency power by electromagnetic induction with the power reception resonance coil, a load, and a variable element. The load includes a microprocessor for controlling the impedance of the load, a battery charger, and a battery. The battery charger is configured to charge the battery with the high-frequency power excited by the load coil.
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Citations
18 Claims
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1. A wireless power feeding system comprising:
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a power transmission coil; a power transmission resonance coil configured to transmit power by electromagnetic induction with the power transmission coil; a power reception resonance coil configured to excite high-frequency power by magnetic resonance; a load coil configured to excite high-frequency power by electromagnetic induction with the power reception resonance coil; a load electrically connected to the load coil; a transistor electrically connected to the load coil; and a microprocessor, wherein the load comprises; a battery; and a battery charger comprising a variable element, the battery charger being configured to charge the battery with the high-frequency power excited by the load coil, wherein the variable element is configured to control an amount of charging current supplied to the load, wherein the microprocessor is configured to control the variable element, and wherein a channel formation region of the transistor comprises an oxide semiconductor. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A wireless power feeding system comprising:
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a high-frequency power supply; a power transmission coil; a power transmission resonance coil configured to transmit power by electromagnetic induction with the power transmission coil; a first microprocessor configured to control output of the high-frequency power supply; a power reception resonance coil configured to excite high-frequency power by magnetic resonance; a load coil configured to excite high-frequency power by electromagnetic induction with the power reception resonance coil; a load electrically connected to the load coil; a transistor electrically connected to the load coil; and a second microprocessor, wherein the load comprises; a battery; and a battery charger comprising a variable element, the battery charger being configured to charge the battery with the high-frequency power excited by the load coil, wherein the variable element is configured to control an amount of charging current supplied to the load, wherein the second microprocessor is configured to control the variable element and transmit a signal to the first microprocessor, the signal being used for controlling supply current from the high-frequency power supply, and wherein a channel formation region of the transistor comprises an oxide semiconductor. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A power-receiving device comprising:
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a power reception resonance coil configured to excite high-frequency power by magnetic resonance; a load coil configured to excite high-frequency power by electromagnetic induction with the power reception resonance coil; a load electrically connected to the load coil; a transistor electrically connected to the load coil; and a microprocessor, wherein the load comprises; a battery; and a battery charger comprising a variable element, the battery charger being configured to charge the battery with the high-frequency power excited by the load coil, wherein the variable element is configured to control an amount of charging current supplied to the load, wherein the microprocessor is configured to control the variable element, and wherein a channel formation region of the transistor comprises an oxide semiconductor. - View Dependent Claims (14, 15, 16, 17, 18)
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Specification