A Double-Sided <italic>LCLC</italic>-Compensated Capacitive Power Transfer System for Electric Vehicle Charging

Lu Fei; Zhang Hua; Hofmann Heath; Mi Chris

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A Double-Sided LCLC-Compensated Capacitive Power Transfer System for Electric Vehicle Charging

机译：用于电动汽车充电的双向 LCLC 补偿电容式电力传输系统

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摘要

A double-sided -compensated capacitive power transfer (CPT) system is proposed for the electric vehicle charging application. Two pairs of metal plates are utilized to form two coupling capacitors to transfer power wirelessly. The -compensated structure can dramatically reduce the voltage stress on the coupling capacitors and maintain unity power factor at both the input and output. A 2.4-kW CPT system is designed with four 610-mm × 610-mm copper plates and an air gap distance of 150 mm. The experimental prototype reaches a dc–dc efficiency of 90.8% at 2.4-kW output power. At 300-mm misalignment case, the output power drops to 2.1 kW with 90.7% efficiency. With a 300-mm air gap distance, the output power drops to 1.6 kW with 89.1% efficiency.

机译：提出了一种用于电动车辆充电应用的双面补偿电容式功率传输（CPT）系统。利用两对金属板形成两个耦合电容器，以无线方式传输功率。经过补偿的结构可以大大降低耦合电容器上的电压应力，并在输入和输出端均保持统一的功率因数。一个2.4 kW CPT系统设计有四个610mm×610mm铜板，气隙距离为150mm。实验原型在2.4 kW输出功率下的DC-DC效率达到90.8％。在300mm不对中的情况下，输出功率降至2.1 kW，效率为90.7％。气隙距离为300毫米时，输出功率降至1.6 kW，效率为89.1％。

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来源
《Power Electronics, IEEE Transactions on》 |2015年第11期|6011-6014|共4页
作者
Lu Fei; Zhang Hua; Hofmann Heath; Mi Chris;
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作者单位

Electrical Engineering and Computer Science Department, University of Michigan, Ann Arbor, MI, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Capacitive power transfer; LCLC compensation; capacitive power transfer; electric vehicle charging;

机译：电容功率传输;LCLC补偿;电容功率传输;电动汽车充电;

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机译：四板紧凑型电容耦合器设计和LCL补偿拓扑，用于电动汽车充电应用中的电容功率传输
2. Analysis, Design, and Implementation of a Wireless Power and Data Transmission System Using Capacitive Coupling and Double-SidedLCCCompensation Topology [J] . Yousu Yao, Yijie Wang, Xiaosheng Liu, Industry Applications, IEEE Transactions on . 2019,第1期

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3. Uniform Power I-Type Inductive Power Transfer System With DQ-Power Supply Rails for On-Line Electric Vehicles [J] . Park Changbyung, Lee Sungwoo, Jeong Seog Yong, Power Electronics, IEEE Transactions on . 2015,第11期

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4. Frequency Splitting in an LCLC Capacitive Wireless Power Transfer System for Electric Vehicle Charging [C] . Camilo Suarez, Matthias Kalmes, Junot Suffeleers, Annual Conference of the IEEE Industrial Electronics Society . 2020

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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

A Double-Sided LCLC-Compensated Capacitive Power Transfer System for Electric Vehicle Charging

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