Power receiving device and power transfer system
First Claim
1. A power receiving device capable of receiving a carrier wave transmitted from a power transmitting device without contact and obtaining electric power from the received carrier wave, comprising:
- a carrier receiving section at least including a communication antenna having predetermined inductance and not equipped with an intermediate tap, to receive the carrier wave and generate an induced voltage corresponding to the carrier wave;
a processing section to generate a drive voltage based on the induced voltage and perform data processing using the generated drive voltage; and
an impedance converting section to convert impedance between the carrier receiving section and the processing section, whereinthe impedance converting section includes a first capacitor and a second capacitor each having predetermined capacitance and connected in series with each other,the communication antenna, the first capacitor and the second capacitor constitute a resonance circuit, andthe impedance converting section divides an induced voltage generated in the resonance circuit.
2 Assignments
0 Petitions
Accused Products
Abstract
There is provided a power receiving device capable of receiving a carrier wave transmitted from a power transmitting device without contact and obtaining electric power from the received carrier wave, which includes a carrier receiving section at least including a communication antenna having predetermined inductance and not equipped with an intermediate tap, to receive the carrier wave and generate an induced voltage corresponding to the carrier wave, a processing section to generate a drive voltage based on the induced voltage and perform data processing using the generated drive voltage, and an impedance converting section to convert impedance between the carrier receiving section and the processing section.
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Citations
4 Claims
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1. A power receiving device capable of receiving a carrier wave transmitted from a power transmitting device without contact and obtaining electric power from the received carrier wave, comprising:
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a carrier receiving section at least including a communication antenna having predetermined inductance and not equipped with an intermediate tap, to receive the carrier wave and generate an induced voltage corresponding to the carrier wave; a processing section to generate a drive voltage based on the induced voltage and perform data processing using the generated drive voltage; and an impedance converting section to convert impedance between the carrier receiving section and the processing section, wherein the impedance converting section includes a first capacitor and a second capacitor each having predetermined capacitance and connected in series with each other, the communication antenna, the first capacitor and the second capacitor constitute a resonance circuit, and the impedance converting section divides an induced voltage generated in the resonance circuit.
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2. A power receiving device capable of receiving a carrier wave transmitted from a power transmitting device without contact and obtaining electric power from the received carrier wave, comprising:
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a carrier receiving section at least including a communication antenna having predetermined inductance and not equipped with an intermediate tap, to receive the carrier wave and generate an induced voltage corresponding to the carrier wave; a processing section to generate a drive voltage based on the induced voltage and perform data processing using the generated drive voltage; and an impedance converting section to convert impedance between the carrier receiving section and the processing section, wherein the carrier receiving section further includes a fifth capacitor having predetermined capacitance to constitute a resonance circuit, and the impedance converting section includes a sixth capacitor having predetermined capacitance and connected in series with the processing section and divides an induced voltage generated in the resonance circuit.
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3. A power transfer system comprises a power transmitting device to transmit a carrier wave, and a power receiving device capable of receiving the carrier wave transmitted from the power transmitting device without contact and obtaining electric power from the received carrier wave,
the power transmitting device including a carrier signal generating section to generate a carrier signal; - and
a carrier transmitting section to transmit a carrier wave corresponding to the carrier signal, and the power receiving device including a carrier receiving section at least including a communication antenna having predetermined inductance and not equipped with an intermediate tap, to receive the carrier wave and generate an induced voltage corresponding to the carrier wave; a processing section to generate a drive voltage based on the induced voltage and perform data processing using the generated drive voltage; and an impedance converting section to convert impedance between the carrier receiving section and the processing section, wherein the impedance converting section includes a first capacitor and a second capacitor each having predetermined capacitance and connected in series with each other, the communication antenna, the first capacitor and the second capacitor constitute a resonance circuit, and the impedance converting section divides an induced voltage generated in the resonance circuit.
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4. A power transfer system comprises a power transmitting device to transmit a carrier wave, and a power receiving device capable of receiving the carrier wave transmitted from the power transmitting device without contact and obtaining electric power from the received carrier wave,
the power transmitting device including a carrier signal generating section to generate a carrier signal; - and
a carrier transmitting section to transmit a carrier wave corresponding to the carrier signal, and the power receiving device including a carrier receiving section at least including a communication antenna having predetermined inductance and not equipped with an intermediate tap, to receive the carrier wave and generate an induced voltage corresponding to the carrier wave; a processing section to generate a drive voltage based on the induced voltage and perform data processing using the generated drive voltage; and an impedance converting section to convert impedance between the carrier receiving section and the processing section, wherein the carrier receiving section further includes a fifth capacitor having predetermined capacitance to constitute a resonance circuit, and the impedance converting section includes a sixth capacitor having predetermined capacitance and connected in series with the processing section and divides an induced voltage generated in the resonance circuit.
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Specification