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DC–DC Topology for Interfacing a Wireless Power Transfer System to an On-Board Conductive Charger for Plug-In Electric Vehicles

Mohamed Elshaer, Chris Bell, Aqil Hamid, Jin Wang

2021IEEE Transactions on Industry Applications47 citationsDOI

Abstract

This article proposes a novel dc–dc topology, enabling a plug-in electric vehicle to charge its high-voltage battery using a wireless power transfer system. By interfacing the wireless power transfer system's receiver coil to the electric vehicle's on-board bidirectional conductive charger, a common rectifier and secondary matching capacitors are shared between the two subsystems. The bidirectional dc–dc converter within the on-board charger is optimized to operate over two frequency bands; thus, guaranteeing compliance with the working frequency and interoperability requirements proposed by the SAE J2954 for a wireless power transfer system without degrading the power density requirement of a bidirectional on-board charger. Through component sharing between the two subsystems, a reduction in the overall size and cost of the on-board electronics is achieved. Simulation results are provided to validate the fundamental operation of the proposed circuit. Finally, a prototype is built to validate the assumptions.

Topics & Concepts

Wireless power transferElectrical engineeringInterfacingEngineeringRectifier (neural networks)Topology (electrical circuits)CapacitorWirelessElectromagnetic coilComputer scienceElectronic engineeringVoltageTelecommunicationsComputer hardwareStochastic neural networkMachine learningRecurrent neural networkArtificial neural networkWireless Power Transfer SystemsAdvanced Battery Technologies ResearchEnergy Harvesting in Wireless Networks
DC–DC Topology for Interfacing a Wireless Power Transfer System to an On-Board Conductive Charger for Plug-In Electric Vehicles | Litcius