Contactless electric power transmission device and electric power transfer system
First Claim
1. A contactless electric power transmission device comprising:
- a power transmission assembly including an inverter, a filter circuit, and a resonance circuit, the inverter being configured to produce alternate current power having a given frequency, the resonance circuit being configured to receive the alternate current power from the inverter via the filter circuit, and contactlessly transmit the alternate current power to an electric power receiving device;
a first temperature sensor configured to detect a temperature of the inverter;
a second temperature sensor configured to detect a temperature of the resonance circuit; and
an electronic control unit configured to adjust the frequency of the alternate current power by controlling the inverter, the electronic control unit being configured to perform first control when the temperature of the inverter is higher than the temperature of the resonance circuit, and perform second control when the temperature of the resonance circuit is higher than the temperature of the inverter, the first control including control for adjusting the frequency so as to reduce output current of the inverter, the second control including control for adjusting the frequency so as to reduce current flowing through the resonance circuit.
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Accused Products
Abstract
A contactless electric power transmission device includes a power transmission assembly, a first temperature sensor, a second temperature sensor, and an electronic control unit. The first temperature sensor is configured to detect a temperature of an inverter. The second temperature sensor is configured to detect a temperature of a resonance circuit. The electronic control unit is configured to adjust the frequency by controlling the inverter. The electronic control unit is configured to perform first control when the temperature of the inverter is higher than the temperature of the resonance circuit, and perform second control when the temperature of the resonance circuit is higher than the temperature of the inverter. The first control includes control for adjusting the frequency so as to reduce output current of the inverter. The second control includes control for adjusting the frequency so as to reduce current flowing through the resonance circuit.
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Citations
5 Claims
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1. A contactless electric power transmission device comprising:
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a power transmission assembly including an inverter, a filter circuit, and a resonance circuit, the inverter being configured to produce alternate current power having a given frequency, the resonance circuit being configured to receive the alternate current power from the inverter via the filter circuit, and contactlessly transmit the alternate current power to an electric power receiving device; a first temperature sensor configured to detect a temperature of the inverter; a second temperature sensor configured to detect a temperature of the resonance circuit; and an electronic control unit configured to adjust the frequency of the alternate current power by controlling the inverter, the electronic control unit being configured to perform first control when the temperature of the inverter is higher than the temperature of the resonance circuit, and perform second control when the temperature of the resonance circuit is higher than the temperature of the inverter, the first control including control for adjusting the frequency so as to reduce output current of the inverter, the second control including control for adjusting the frequency so as to reduce current flowing through the resonance circuit. - View Dependent Claims (2, 3, 4)
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5. An electric power transfer system comprising:
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an electric power transmission device; and an electric power receiving device configured to contactlessly receive electric power from the electric power transmission device, wherein; the electric power transmission device includes a power transmission assembly, a first temperature sensor, a second temperature sensor, and an electronic control unit; the power transmission assembly includes an inverter, a filter circuit, and a resonance circuit; the inverter is configured to produce alternate current power having a given frequency; the resonance circuit is configured to receive the alternate current power from the inverter via the filter circuit, and contactlessly transmit the alternate current power to the electric power receiving device; the first temperature sensor is configured to detect a temperature of the inverter; the second temperature sensor is configured to detect a temperature of the resonance circuit; the electronic control unit is configured to adjust the frequency of the alternate current power by controlling the inverter; the electronic control unit is configured to perform first control when the temperature of the inverter is higher than the temperature of the resonance circuit, and perform second control when the temperature of the resonance circuit is higher than the temperature of the inverter; the first control includes control for adjusting the frequency so as to reduce output current of the inverter; and the second control includes control for adjusting the frequency so as to reduce current flowing through the resonance circuit.
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Specification