POWER TRANSMISSION SYSTEM
First Claim
1. A power transmission system comprising an inverter section for outputting AC power of a predetermined frequency, a power transmission antenna for receiving AC power from the inverter section as input and a control section for controlling the frequency of the AC power output from the inverter section and computationally determining the inverter efficiency of the inverter section for the purpose of transmitting electric energy to a power reception antenna disposed oppositely relative to the power transmission antenna by way of an electromagnetic field, wherein the control section controls the system by computationally determining the inverter efficiency, while lowering the operational frequency from an upper limit frequency by a predetermined unit frequency at a time, and selecting the frequency that provides the highest inverter efficiency for the system to transmit power.
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Accused Products
Abstract
A power transmission system includes an inverter section for outputting AC power of a predetermined frequency, a power transmission antenna for receiving AC power from the inverter section as input and a control section for controlling the frequency of the AC power output from the inverter section and computationally determining the inverter efficiency of the inverter section for the purpose of transmitting electric energy to a power reception antenna disposed oppositely relative to the power transmission antenna by way of an electromagnetic field, wherein the control section controls the system by computationally determining the inverter efficiency, while lowering the operational frequency from an upper limit frequency by a predetermined unit frequency at a time, and selecting the frequency that provides the highest inverter efficiency for the system to transmit power.
16 Citations
2 Claims
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1. A power transmission system comprising an inverter section for outputting AC power of a predetermined frequency, a power transmission antenna for receiving AC power from the inverter section as input and a control section for controlling the frequency of the AC power output from the inverter section and computationally determining the inverter efficiency of the inverter section for the purpose of transmitting electric energy to a power reception antenna disposed oppositely relative to the power transmission antenna by way of an electromagnetic field, wherein the control section controls the system by computationally determining the inverter efficiency, while lowering the operational frequency from an upper limit frequency by a predetermined unit frequency at a time, and selecting the frequency that provides the highest inverter efficiency for the system to transmit power.
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2. A power transmission system comprising an inverter section for outputting AC power of a predetermined frequency, a power transmission antenna for receiving AC power from the inverter section as input and a control section for controlling the frequency of the AC power output from the inverter section and computationally determining the inverter efficiency of the inverter section for the purpose of transmitting electric energy to a power reception antenna disposed oppositely relative to the power transmission antenna by way of an electromagnetic field, wherein the control section controls the system by computationally determining the inverter efficiency, while lowering the operational frequency from an upper limit frequency by a predetermined unit frequency at a time, and, when the computationally determined inverter efficiency falls below the inverter efficiency that was computationally determined last time, selects the frequency that provides the inverter efficiency computationally determined last time to transmit power.
Specification
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- Resources
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Current AssigneeEquos Research Co., Ltd. (Aisin Corp.)
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Original AssigneeEquos Research Co., Ltd. (Aisin Corp.)
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InventorsYamakawa, Hiroyuki
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Application NumberUS14/128,251Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current307/104CPC Class CodesB60L 2210/30 AC to DC convertersB60L 2210/40 DC to AC convertersB60L 53/11 DC charging controlled by t...B60L 53/122 Circuits or methods for dri...B60L 53/126 Methods for pairing a vehic...H02J 2310/48 for electric vehicles [EV] ...H02J 50/12 of the resonant typeH02J 50/70 involving the reduction of ...H02J 7/007 Regulation of charging or d...H02J 7/04 Regulation of charging curr...H04B 5/79 for data transfer in combin...Y02T 10/70 Energy storage systems for ...Y02T 10/7072 Electromobility specific ch...Y02T 10/72 Electric energy management ...Y02T 90/12 Electric charging stationsY02T 90/14 Plug-in electric vehicles
