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Research on Bipolar Non-salient Pole Transmitter for High-power EV Dynamic Wireless Power Transfer System

Fandan Zhao, Jinhai Jiang, Shumei Cui, Xingjian Zhou, Chunbo Zhu, Chun-Kit Chan

2021IEEE Transactions on Power Electronics25 citationsDOI

Abstract

In this paper, a design of bipolar non-salient pole (BNSP) transmitter, which originates from motor theory, for high-power EV dynamic wireless power transfer (DWPT) system is proposed. To analyze and evaluate BNSP transmitter in aspect of principle, characteristic, and performance, the existing I-Type, S-type and N-type transmitters in DWPT application are classified as bipolar salient pole (BSP) transmitter, which establishes a reference for comparing. The design parameters and other contrast conditions of BNSP and BSP transmitters are given. Coupling flux and leakage flux of BNSP transmitter are analyzed by comparing the magnetic models and the finite-element models of BNSP and BSP transmitters. Based on the modular design in practical application, the sensitivity of coupling performance to the module gap in BNSP and BSP transmitters is analyzed and compared in simulation. All theoretical results are verified by contrast experiments. The maximum effective mutual inductance of BNSP transmitter is about 31.0% larger than that of BSP transmitter, and the efficiency of the system with output power of 10 kW is 93.5% with BNSP transmitter, about 2.4% higher than that with BSP transmitter. Besides, BNSP transmitter needs 5.9% shorter Litz wire and 53.1% smaller volume of cores, which makes it smaller in size.

Topics & Concepts

TransmitterWireless power transferTransmitter power outputElectrical engineeringInductanceMaximum power transfer theoremElectronic engineeringInductive couplingCoupling (piping)Computer sciencePower (physics)Control theory (sociology)Electromagnetic coilEngineeringPhysicsChannel (broadcasting)VoltageMechanical engineeringQuantum mechanicsControl (management)Artificial intelligenceWireless Power Transfer SystemsEnergy Harvesting in Wireless NetworksAdvanced Battery Technologies Research