《电力自动化设备》

引用本文:	刘硕,苏建徽,张健,徐海波.一种双边LCC补偿无线电能传输变换器谐振网络设计方法[J].电力自动化设备,2022,42(6):
	LIU Shuo,SU Jianhui,ZHANG Jian,XU Haibo.Design method of resonant network for double-sided LCC compensated wireless power transfer converter[J].Electric Power Automation Equipment,2022,42(6):

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一种双边LCC补偿无线电能传输变换器谐振网络设计方法
刘硕¹, 苏建徽¹, 张健¹, 徐海波²
1.合肥工业大学光伏系统教育部工程研究中心，安徽合肥 230009;2.东莞南方半导体科技有限公司，广东东莞 523000

摘要:

针对双边LCC补偿方式的无线电能传输变换器，提出了一种谐振网络设计方法：基于抑制谐波电流、压缩磁元件体积以及在最大传输距离与最大横向偏移状态传输功率可接近额定功率的考虑，依据额定传输功率、开关频率等约束条件，确定谐振网络全部元件(包括松耦合变压器)的电参数。在此基础上提出了一种相应的带磁芯平面螺旋线圈松耦合变压器尺寸设计方案：依据松耦合变压器处于最大传输距离、最大横向偏移状态时的互感值，从理论上估算出其尺寸范围，再以少量有限元仿真搜索到其最佳尺寸。设计并制作了一台额定输出功率为4.5 kW的样机，验证了所提设计方法的正确性。

关键词: 无线电能传输双边LCC补偿变换器松耦合变压器谐振网络互感谐波

DOI：10.16081/j.epae.202203007

分类号:TM724;TM46

基金项目:广东省重点领域研发计划资助项目(2019B010127001)

Design method of resonant network for double-sided LCC compensated wireless power transfer converter

LIU Shuo¹, SU Jianhui¹, ZHANG Jian¹, XU Haibo²

1.Photovoltaic System Research Center of Ministry of Education, Hefei University of Technology, Hefei 230009, China;2.Dongguan Southern Semiconductor Technology Co.,Ltd.,Dongguan 523000, China

Abstract:

A resonant network design method is proposed for double-sided LCC compensated WPT(Wireless Power Transfer) converters. On the basis of suppressing the harmonic current, reducing the volume of magnetic components, and almost transferring the rated power under maximum distance and maximum lateral misalignment, the electrical parameters of all components in the resonant network, including LCT(Loosely Coupled Transformer),can be determined, according to the constraints of the rated power and switching frequency. A corresponding size design method for LCT with circular planar spiral coils and ferrite cores is proposed. The range of LCT size can be theoretically estimated based on the mutual inductance under maxi-mum distance and maximum lateral misalignment, and then the optimal size of LCT is searched with a small amount of finite element simulation. A prototype with the rated output power of 4.5 kW is designed and constructed, and the experimental results verify the correctness of the proposed method.

Key words: wireless power transfer double-sided LCC compensation electric converters loosely coupled transformer resonant network mutual inductance harmonic

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