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Design of a zero-voltage-switching large-air-gap wireless charger with low electrical stress for Plugin Hybrid Electric Vehicles

机译：零电压切换大型空隙无线充电器，具有用于插件混合动力电动车辆的低电力应力

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This paper proposes a design and development of a wireless power transfer system to charge the battery in the Plugin Hybrid Electric Vehicles. A Parallel-Parallel topology is adopted to realize 15cm-distance power transfer using resonance theory. Finite Element Method is used to extract the coil parameters. The advantages of the proposed design compared to the previous similar research are 1) low operational frequency (42kHz) to avoid the electromagnetic interference to on-board automotive electronics equipment, and 2) low electrical stress to the semiconductor switches through using zero-voltage-switching technique. A 2kW prototype to charge 200V battery was built to experimentally verify the theoretical analysis. The overall system efficiency is ∼86%.

机译：本文提出了一种无线电力传输系统的设计和开发，以在插件混合动力电动车中为电池充电。采用平行并行拓扑来实现使用共振理论实现15cm远程电力传输。有限元方法用于提取线圈参数。与前面类似的研究相比，所提出的设计的优点是1）低运行频率（42kHz），以避免电磁干扰到板载汽车电子设备，以及2）通过使用零电压来对半导体开关的低电应力。切换技术。建立了2KW的原型，以便在实验验证理论分析的情况下进行充电200V电池。整体系统效率为~86％。

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来源
《IEEE Transportation Electrification Conference》|2013年||共5页
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作者
Duan Chen; Jiang Chenguang; Taylor Allan; Bai Kevin;
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原文格式 PDF
正文语种
中图分类电气化、电能应用;
关键词
Battery Charger; CoolMOS; Plugin Hybrid Electric Vehicle; Soft Switching; Wireless Power Transfer; Zero Voltage Switching;

机译：电池充电器;COOLMOS;插件混合电动车;软切换;无线电源;零电压切换;

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专利

1. Design of a zero-voltage-switching large-air-gap wireless charger with low electric stress for electric vehicles [J] . Chen Duan, Chenguang Jiang, Taylor A., Power Electronics, IET . 2013,第9期

机译：电动汽车零电压开关低气隙无线充电器的设计
2. Zero-Voltage-Switching PWM Resonant Full-Bridge Converter With Minimized Circulating Losses and Minimal Voltage Stresses of Bridge Rectifiers for Electric Vehicle Battery Chargers [J] . Gu B., Lin C.-Y., Chen B., Power Electronics, IEEE Transactions on . 2013,第10期

机译：零电压开关PWM谐振全桥转换器，用于电动汽车电池充电器的桥式整流器具有最小的循环损耗和最小的电压应力
3. Internal Fuzzy Hybrid Charger System for a Hybrid Electrical Vehicle [J] . Flah Aymen Journal of Energy Resources Technology . 2018,第1期

机译：混合动力汽车的内部模糊混合充电系统
4. Design of a zero-voltage-switching large-air-gap wireless charger with low electrical stress for Plugin Hybrid Electric Vehicles [C] . Duan Chen, Jiang Chenguang, Taylor Allan, IEEE Transportation Electrification Conference . 2013

机译：一种低电压应力的零电压开关大气隙无线充电式插电式混合动力汽车的设计
5. Wide Band-Gap Medium Voltage Electrical Vehicle Fast Charger Design and Optimization [D] . Liang, Xinyu 2019

机译：宽带隙中压电动汽车快速充电器的设计与优化
6. Intelligent emission-sensitive routing for plugin hybrid electric vehicles [O] . Zhonghao Sun, Xingshe Zhou -1

机译：插电式混合动力汽车的智能排放敏感路线
7. Controller design for a universal power input bi-directional battery charger for plug-in electric and hybrid electric vehicles [O] . Dal Santo Emilio 2011

机译：插电式电动汽车和混合动力电动汽车通用电源输入双向电池充电器的控制器设计

Design of a zero-voltage-switching large-air-gap wireless charger with low electrical stress for Plugin Hybrid Electric Vehicles

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