Dual‐frequency three‐dimensional wireless power transfer system to achieve two‐channel independent maximum power transfer

IF 1.8 3区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Hanbing Dan, Yuqian Chao, Zixi Liu, Xueqing Liu, Qi Zhu, Mei Su
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引用次数: 0

Abstract

This paper proposes a dual‐frequency three‐dimensional wireless power transfer system, which can achieve dual channel independent maximum power transfer of two movable receivers. Based on the dual‐frequency compensation network, a dual‐frequency magnetic field orientation strategy and a current control strategy are developed. Accordingly, the mathematical model of the proposed system is established, providing the theoretical support for mutual non‐interference of the power transfer between the two power transfer channels with different frequencies. On this basis, an iterative optimization control system is designed for independent maximum power transfer for two power transfer channels without any interference. A 200‐W experimental prototype with an efficiency of around 80% is built to verify the correctness of the proposed system. In the case of load position change, the response time of the proposed system is around 200 ms.
实现双通道独立最大功率传输的双频三维无线功率传输系统
本文提出了一种双频三维无线功率传输系统,可实现两个可移动接收器的双通道独立最大功率传输。在双频补偿网络的基础上,提出了双频磁场定向策略和电流控制策略。据此,建立了所提系统的数学模型,为两个不同频率的功率传输通道之间的功率传输互不干扰提供了理论支持。在此基础上,设计了一个迭代优化控制系统,以实现两个功率传输通道互不干扰的独立最大功率传输。为了验证所提系统的正确性,我们制作了一个 200 瓦的实验原型,其效率约为 80%。在负载位置变化的情况下,所提系统的响应时间约为 200 毫秒。
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来源期刊
International Journal of Circuit Theory and Applications
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.
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