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Analysis and design of wireless power transfer system with anti-misalignment constant voltage output characteristics

Dangshu Wang (Department of Electrical and Control Engineering, Xi’an University of Science and Technology, Xi'an, China)
Zhimin Guan (Department of Electrical and Control Engineering, Xi’an University of Science and Technology, Xi'an, China)
Jing Wang (Department of Electrical and Control Engineering, Xi’an University of Science and Technology, Xi'an, China)
Menghu Chang (Department of Electrical and Control Engineering, Xi’an University of Science and Technology, Xi'an, China)
Licong Zhao (Department of Electrical and Control Engineering, Xi’an University of Science and Technology, Xi'an, China)
Xinxia Wang (Department of Electrical and Control Engineering, Xi’an University of Science and Technology, Xi'an, China)

Circuit World

ISSN: 0305-6120

Article publication date: 15 May 2024

Issue publication date: 16 July 2024

66

Abstract

Purpose

This study aims to solve the problem of high output voltage fluctuation and low efficiency caused by the misalignment of the magnetic coupling structure in the wireless charging system for electric vehicles. To address these issues, this paper proposes a dual LCC-S wireless power transfer (WPT) system based on the double-D double-layer quadrature (DDDQ) coil, which can realize the anti-misalignment constant voltage output of the system.

Design/methodology/approach

First, this paper establishes the equivalent circuit of a WPT system based on dual LCC-S compensation topology and analyzes its constant-voltage output characteristics and the relationship between system transmission efficiency and coupling coefficient. 1. Quadruple D (Ahmad et al., 2019) and double-D quadrature pad (DDQP) (Chen et al., 2019) coils have good anti-misalignment in the transverse and longitudinal directions, but the magnetic induction intensity in the center of the coils is weak, making it difficult for the receiving coil to effectively couple to the magnetic field energy. 2. Based on the double-D quadrature (DDQ) structure coil that can eliminate the mutual inductance between coupling coils and cross-coupling, Gong et al. (2022a) proposed a parameter optimized LCC-LC series-parallel hybrid topology circuit, which ensures that the output current fluctuation is controlled within 5% only when the system is misaligned within the 50% range along the X direction, achieving constant current output with anti-misalignment. The magnetic coupling structure’s finite element simulation model is established to analyze the change in magnetic induction intensity and the system’s anti-misalignment characteristics when the coil offsets along the x and y axes. Finally, an experimental prototype is developed to verify the constant voltage output performance and anti-misalignment performance of the system, and the proposed anti-misalignment system is compared with the systems in existing literature, highlighting the advantages of this design.

Findings

The experimental results show that the system can achieve a constant voltage output of 48V under a time-varying load, and the output voltage fluctuates within ±5% of the set value within the range of ±60 mm lateral misalignment and ±72 mm longitudinal misalignment.

Originality/value

Based on the dual LCC-S WPT system, the mutual inductance between the same side coils is reduced by adding decoupling coils, and the anti-misalignment characteristics and output power of the system are improved in a certain range. It is aimed at improving the stability of the system output and transmission efficiency.

Keywords

Citation

Wang, D., Guan, Z., Wang, J., Chang, M., Zhao, L. and Wang, X. (2024), "Analysis and design of wireless power transfer system with anti-misalignment constant voltage output characteristics", Circuit World, Vol. 50 No. 2/3, pp. 335-347. https://doi.org/10.1108/CW-08-2023-0303

Publisher

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Emerald Publishing Limited

Copyright © 2024, Emerald Publishing Limited

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