Research on 11kW Wireless Charging System for Electric Vehicle Based on LCC-SP Topology and Current Doubler

机译：基于LCC-SP拓扑和倍流器的11kW电动汽车无线充电系统研究

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In this paper, an 11kW wireless charging system based on LCC-SP compensation topology is established, in which a rectifier control with the current doubler is adopted. The impedance characteristics of LCC-SP topology are analyzed. The equivalent impedance of the current doubler is derived by Fourier decomposition of the rectifier current, and then the compensation parameters of LCC-SP are modified according to the derived equivalent circuit. Furtherly, the closed-loop control strategy of the system is proposed by establishing the small-signal model of the current doubler. Simulation and experimental results verified the analysis and validity of the proposed system. Finally, an 11kW wireless charging prototype for electric vehicles is built, and 91.6% efficiency from dc power source to load is achieved.

机译：本文建立了一种基于LCC-SP补偿拓扑的11kW无线充电系统，该系统采用电流倍增器进行整流控制。分析了LCC-SP拓扑的阻抗特性。通过整流器电流的傅立叶分解得出电流倍增器的等效阻抗，然后根据得出的等效电路修改LCC-SP的补偿参数。此外，通过建立电流倍增器的小信号模型，提出了系统的闭环控制策略。仿真和实验结果验证了所提系统的分析和有效性。最终，构建了用于电动汽车的11kW无线充电原型，从直流电源到负载的效率达到了91.6％。

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《IEEE Energy Conversion Congress and Exposition》|2020年|820-827|共8页
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Yunhui Wang; Meng Xiong; Xun Wang; Qile Li; Zhao Jiang; Xuezhe Wei; Haifeng Dai;
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Wireless power transfer; compensation topology; current-doubler rectifier; electric vehicle;

机译：无线功率传输;补偿拓扑;倍流整流器;电动汽车;
入库时间 2022-08-26 14:36:33

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1. Analysis and Designing of a Wireless Charging System for Electric Vehicles Using the Topology of Double Sided llC Compensator [J] . Hamid Reza Khademi, Mahmoud Samiei Moghaddam, Seyed Javad Mohammadi Baygi, Advances in Science and Technology Research Journal . 2019,第2期

机译：双面LLC补偿器拓扑结构的电动汽车无线充电系统的分析与设计
2. A New Integration Method for an Electric Vehicle Wireless Charging System Using LCC Compensation Topology: Analysis and Design [J] . Tianze Kan, Trong-Duy Nguyen, Jeff C. White, IEEE Transactions on Power Electronics . 2017,第2期

机译：基于LCC补偿拓扑的电动汽车无线充电系统集成新方法：分析与设计
3. Research on parameter optimization of Double-D coils for electric vehicle wireless charging based on magnetic circuit analysis [J] . Zhihong Yang, Yonghua Chen, Dongmei Yang, IEICE Electronics Express . 2020,第7期

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4. Primary-Side Control of a Wireless Power Transfer System with Double-Sided LCC Compensation Topology for Electric Vehicle Battery Charging [C] . Mojtaba Khalilian, Paolo Guglielmi International Telecommunications Energy Conference . 2018

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5. Photovoltaic based electric and plug-in hybrid electric vehicle battery charging infrastructure using a modified Z-converter topology. [D] . Carli, Giampaolo. 2009

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6. A Secure Charging System for Electric Vehicles Based on Blockchain [O] . MyeongHyun Kim, KiSung Park, SungJin Yu, 2019

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7. Implementation of the Constant Current and Constant Voltage Charge of Inductive Power Transfer Systems With the Double-Sided LCC Compensation Topology for Electric Vehicle Battery Charge Applications [O] . Van-Binh Vu, Duc-Hung Tran, Woojin Choi 2018

机译：电感电力传输系统的恒流和恒定电压电荷与电动车辆电池电量充电应用的双面LCC补偿拓扑结构

Research on 11kW Wireless Charging System for Electric Vehicle Based on LCC-SP Topology and Current Doubler

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