A Reconfigurable IPT System With CC-CV Output Characteristics and High Misalignment Tolerance

IF 1.8 3区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

International Journal of Circuit Theory and Applications Pub Date : 2024-10-07 DOI:10.1002/cta.4311

Zhaowei Gong, Man Zhao, Yajing Yang, Ningchao Zhang, Yongsheng Fu

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引用次数: 0

Abstract

Misalignment between transmission coils is an inevitable challenge in inductive power transfer (IPT) systems, particularly affecting the constant current (CC) and constant voltage (CV) outputs essential for battery charging. A reconfigurable IPT system with high misalignment tolerance and CC-CV output characteristics is proposed in this article. The main circuit of the system is composed of a LCC-LCC and LCC-S topology with two intermediate coils, and two switches equipped with single unidirectionally blocking MOSFETs are incorporated on the secondary side to transition from CC to CV mode. A comprehensive analysis of the output characteristics for the proposed hybrid topology in both CC and CV modes is provided. Furthermore, the parameter optimization design based on BP coil for wide misalignment tolerance is presented. The experimental results demonstrate that the proposed reconfigurable IPT system can maintain stable CC and CV outputs within 50% lateral and vertical offset (the coupling factor varies from 0.1 to 0.21), when the load varies from 11 to 80 Ω, and the output current and voltage fluctuations remain below 5%.

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具有CC-CV输出特性和高偏差容忍度的可重构IPT系统

在感应功率传输（IPT）系统中，传输线圈之间的错位是一个不可避免的挑战，特别是影响电池充电所必需的恒流（CC）和恒压（CV）输出。提出了一种具有高偏差容忍度和CC-CV输出特性的可重构IPT系统。该系统的主电路由LCC-LCC和LCC-S拓扑结构组成，并带有两个中间线圈，在二次侧集成了两个配备单个单向阻塞mosfet的开关，以从CC模式转换为CV模式。对所提出的混合拓扑在CC和CV模式下的输出特性进行了全面分析。在此基础上，提出了基于BP线圈的大偏差公差参数优化设计。实验结果表明，当负载为11 ~ 80 Ω，输出电流和电压波动小于5%时，所提出的可重构IPT系统可以在50%的横向和垂直偏置范围内（耦合系数为0.1 ~ 0.21）保持稳定的CC和CV输出。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Circuit Theory and Applications 工程技术-工程：电子与电气

CiteScore

3.60

自引率

34.80%

发文量

277

审稿时长

4.5 months

期刊介绍： The scope of the Journal comprises all aspects of the theory and design of analog and digital circuits together with the application of the ideas and techniques of circuit theory in other fields of science and engineering. Examples of the areas covered include: Fundamental Circuit Theory together with its mathematical and computational aspects; Circuit modeling of devices; Synthesis and design of filters and active circuits; Neural networks; Nonlinear and chaotic circuits; Signal processing and VLSI; Distributed, switched and digital circuits; Power electronics; Solid state devices. Contributions to CAD and simulation are welcome.