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Inter-operability considerations of the double-sided LCC compensated wireless charger for electric vehicle and plug-in hybrid electric vehicle applications

机译：用于电动车辆和插入式混合动力电动汽车应用的双面LCC补偿无线充电器的可操作性考虑因素

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This paper aims to discuss the feasibility of interoperation between wireless chargers with four basic compensation topologies and that with the double-sided LCC compensation topology. A brief analysis of double-sided LCC compensation topology is provided based on our previous researches. The paper mainly presents the design considerations of the different compensation topologies: (1) The secondary sides with series compensation and parallel compensation when they work with an LCC compensation topology as the primary side; (2) The primary sides with series compensation and parallel compensation when they work with LCC compensation topology as the secondary side. So in all, four topologies will be discussed respectively: LCC-S, LCC-P, S-LCC, and P-LCC. A wireless charger prototype with double-sided LCC compensation topology has been re-designed into LCC-S type wireless charger to verify the analysis. The efficiency is 95.8% from DC to DC even there is 275mm misalignment at 200mm gap.

机译：本文旨在讨论具有四种基本补偿拓扑的无线充电器之间的互操作性，并具有双面LCC补偿拓扑。基于我们以前的研究，提供了对双面LCC补偿拓扑的简要分析。本文主要介绍了不同补偿拓扑的设计考虑因素：（1）当与初级侧的LCC补偿拓扑一起使用时，具有串联补偿和并联补偿的二级方面; （2）主边在使用LCC补偿拓扑时串联补偿和并行补偿作为次级侧。因此，在所有情况下，将分别讨论四种拓扑：LCC-S，LCC-P，S-LCC和P-LCC。具有双面LCC补偿拓扑的无线充电器原型已重新设计为LCC-S型无线充电器，以验证分析。从DC到DC的效率均为95.8％，即使在200mm差距也有275mm的错位。

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《IEEE PELS workshop on emerging technologies: wireless power》|2015年||共6页
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Weihan Li; Han Zhao; Tianze Kan; Mi Chris;
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正文语种
中图分类无线电工厂;
关键词
Compensation topology; EV/PHEV; interoperation; wireless Charging;

机译：补偿拓扑;EV /间谍;互操作;无线充电;

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专利

1. Integrated ${LCC} $ Compensation Topology for Wireless Charger in Electric and Plug-in Electric Vehicles [J] . Li Weihan, Zhao Han, Li Siqi, Industrial Electronics, IEEE Transactions on . 2015,第7期

机译：电动和插电式电动汽车无线充电器的集成 $ {LCC} $ 补偿拓扑
2. Applications of Serial-Parallel Compensated Resonant Topology in Wireless Charger System Used in Electric Vehicles [J] . FU Yongsheng, LEI Ming, GAO Leilei, 东华大学学报（英文版） . 2019,第001期

机译：串并联补偿谐振拓扑在电动汽车无线充电器系统中的应用
3. An Efficiency Optimization-Based Asymmetric Tuning Method of Double-Sided LCC Compensated WPT System for Electric Vehicles [J] . Chen Yafei, Zhang Hailong, Shin Chang-Su, IEEE Transactions on Power Electronics . 2020,第11期

机译：基于效率优化的电动汽车双面LCC补偿WPT系统的不对称调谐方法
4. Inter-operability considerations of the double-sided LCC compensated wireless charger for electric vehicle and plug-in hybrid electric vehicle applications [C] . Weihan Li, Han Zhao, Tianze Kan, IEEE PELS workshop on emerging technologies: wireless power . 2015

机译：用于电动汽车和插电式混合动力电动汽车的双面LCC补偿无线充电器的互操作性考虑
5. Battery end-of-life considerations for plug-in hybrid electric vehicles [D] . Wood, Eric 2011

机译：插电式混合动力汽车的电池寿命终止注意事项
6. Effect of Low Ambient Temperature on Emissions andElectric Range of Plug-In Hybrid Electric Vehicles [O] . Ricardo Suarez-Bertoa, *, Jelica Pavlovic, 2019

机译：低环境温度对排放和排放的影响插电式混合动力汽车的电动范围
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

Inter-operability considerations of the double-sided LCC compensated wireless charger for electric vehicle and plug-in hybrid electric vehicle applications

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