Wide Bandgap Semiconductor-Based Converters for EV and HEV Magnetically Coupled Resonant Wireless Power Transfer

被引:2
|
作者
Dinis, Joao [1 ]
Cardoso, Antonio J. Marques [1 ]
机构
[1] Univ Beira Interior, CISE Electromechatron Syst Res Ctr, P-6201001 Covilha, Portugal
来源
2021 SIXTEENTH INTERNATIONAL CONFERENCE ON ECOLOGICAL VEHICLES AND RENEWABLE ENERGIES (EVER) | 2021年
关键词
Resonant Converters; Wide Bandgap Semiconductors; Wireless Power Transfer; Zero-Current Switching;
D O I
10.1109/EVER52347.2021.9456605
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
This paper evaluates the feasibility of wide-bandgap semiconductors as a replacement for silicon semiconductors, applied in a full bridge resonant converter for EV and HEV magnetically coupled resonant wireless power transfer, as a way to increase the efficiency of the process. The work consists of a series of simulations to study the impact of different input voltages, switching frequencies, and output load values on the overall efficiency of the system, for three distinct semiconductor technologies: Si MOSFET, GaN transistor, and SiC MOSFET.
引用
收藏
页数:8
相关论文
共 50 条
  • [21] A novel LCC-C(CL)2 compensation network for efficient magnetically coupled resonant wireless power transfer for EV charging
    Li, Zhizhong
    Zhang, Haonan
    Zhang, Guidong
    Yu, Shenglong
    Zhang, Yichi
    Long, Shuqun
    INTERNATIONAL JOURNAL OF CIRCUIT THEORY AND APPLICATIONS, 2024, 52 (05) : 2290 - 2317
  • [22] Wide Bandgap (WBG) Semiconductor Power Converters for DC Microgrid Applications
    Shenai, Krishna
    2015 IEEE First International Conference on DC Microgrids (ICDCM), 2015, : 263 - 268
  • [23] Modeling and Optimization of Magnetically Coupled Resonant Wireless Power Transfer System With Varying Spatial Scales
    Liu, Fuxin
    Yang, Yong
    Jiang, Dan
    Ruan, Xinbo
    Chen, Xuling
    IEEE TRANSACTIONS ON POWER ELECTRONICS, 2017, 32 (04) : 3240 - 3250
  • [24] Comparative studies between KVL and BPFT in magnetically-coupled resonant wireless power transfer
    Zhang, Jin
    Cheng, Chonghu
    IET POWER ELECTRONICS, 2016, 9 (10) : 2121 - 2129
  • [25] Transmission efficiency analysis and optimization of magnetically coupled resonant wireless power transfer system with misalignments
    Gao, Pengfei
    Tian, Zijian
    Pan, Tao
    Wu, Jun
    Gui, Weifeng
    AIP ADVANCES, 2018, 8 (08):
  • [26] A Planar Magnetically Coupled Resonant Wireless Power Transfer System Using Printed Spiral Coils
    Jolani, Farid
    Yu, Yiqiang
    Chen, Zhizhang
    IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS, 2014, 13 : 1648 - 1651
  • [27] Modeling and Investigation of Magnetically Coupled Resonant Wireless Power Transfer System with Varying Spatial Scales
    Jiang, Dan
    Yang, Yong
    Liu, Fuxin
    Ruan, Xinbo
    Wang, Chenghua
    2015 IEEE ENERGY CONVERSION CONGRESS AND EXPOSITION (ECCE), 2015, : 2269 - 2274
  • [28] Thermal modeling of wide bandgap semiconductor devices for high frequency power converters
    Ram, S. Sharath Sundar
    Vijayakumari, A.
    INTERNATIONAL CONFERENCE ON ADVANCES IN MATERIALS AND MANUFACTURING APPLICATIONS (ICONAMMA-2017), 2018, 310
  • [29] Modeling and analysis of magnetically coupled resonant wireless power transfer system with rectifier bridge LED load
    Lu, Weiguo
    Zhao, Mao
    Zhou, Luowei
    Iu, Herbert H. C.
    Zhao, Junkai
    INTERNATIONAL JOURNAL OF CIRCUIT THEORY AND APPLICATIONS, 2015, 43 (12) : 1914 - 1924
  • [30] Transmission Characteristics Analysis of a Three-Phase Magnetically Coupled Resonant Wireless Power Transfer System
    Jiang, Chong
    Liu, Fuxin
    Ruan, Xinbo
    Chen, Xuling
    2016 IEEE ENERGY CONVERSION CONGRESS AND EXPOSITION (ECCE), 2016,
12345