Copper-Clad Aluminum Windings as an Alternative Conductor for High-Power Electric Vehicle Wireless Charging

被引:5
|
作者
Wojda, Rafal [1 ]
Galigekere, Veda Prakash [2 ]
Pries, Jason [2 ]
Onar, Omer [2 ]
机构
[1] Oak Ridge Natl Lab, Elect Energy Syst Integrat Grp, Oak Ridge, TN 37830 USA
[2] Oak Ridge Natl Lab, Power Elect & Elect Machinery Grp, Oak Ridge, TN 37830 USA
来源
2020 IEEE TRANSPORTATION ELECTRIFICATION CONFERENCE & EXPO (ITEC) | 2020年
关键词
LITZ-WIRE; RESISTANCE;
D O I
10.1109/itec48692.2020.9161643
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
In this paper, copper and copper-clad aluminum winding conductors were compared. The effective resistances as functions of frequency for the cored coils were compared using the 3D finite element model frequency sweep analysis for low, medium, and high frequencies. To compare equivalent designs, both coils were designed to have similar direct-current resistance. Benefits of the copper-clad aluminum over the copper coils are presented.
引用
收藏
页码:1197 / 1200
页数:4
相关论文
共 50 条
  • [11] A High-Power High-Frequency Isolated DC Power Supply for Electric Vehicle Charging Application
    Joshi, Shivam
    Patel, Rajesh
    Patel, Vinod
    Trivedi, Tapankumar
    Mistry, Pavak
    INTELLIGENT MANUFACTURING AND ENERGY SUSTAINABILITY, ICIMES 2019, 2020, 169 : 401 - 410
  • [12] Fabrication of a novel high-strength and high-conductivity copper-clad aluminum composite wire
    Amiri, Farnousheh Sharifian
    Hosseinipour, Seyed Jamal
    Aval, Hamed Jamshidi
    Jamaati, Roohollah
    CIRP JOURNAL OF MANUFACTURING SCIENCE AND TECHNOLOGY, 2023, 41 : 144 - 159
  • [13] Stochastic Load Modeling of High-Power Electric Vehicle Charging - A Norwegian Case Study
    Ivarsoy, Eirik
    Torsaeter, Bendik Nybakk
    Korpas, Magnus
    2020 INTERNATIONAL CONFERENCE ON SMART ENERGY SYSTEMS AND TECHNOLOGIES (SEST), 2020,
  • [14] A Wireless Synchronization Controller for High-Power Stationary and Semi-Dynamic Wireless Charging of Electric Vehicles
    Lawton, Patrick A. J.
    Lin, Feiyang J.
    Covic, Grant A.
    Thrimawithana, Duleepa J.
    IEEE TRANSACTIONS ON POWER ELECTRONICS, 2023, 38 (11) : 13341 - 13352
  • [15] Inductive Wireless Power Transfer for Electric Vehicle Dynamic Charging
    Debbou, Mustapha
    Colet, Francois
    IEEE PELS WORKSHOP ON EMERGING TECHNOLOGIES: WIRELESS POWER (2016 WOW), 2016, : 118 - 122
  • [16] Simultaneous Wireless Power/Data Transfer for Electric Vehicle Charging
    Huang, Chih-Cheng
    Lin, Chun-Liang
    Wu, Yuan-Kang
    IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS, 2017, 64 (01) : 682 - 690
  • [17] A Solar Powered Wireless Power Transfer for Electric Vehicle Charging
    Kumar, Yakala Ravi
    Nayak, Debiprasad
    Kumar, Manish
    Pramanick, Sumit
    2022 IEEE VEHICLE POWER AND PROPULSION CONFERENCE (VPPC), 2022,
  • [18] A High-Power Multiphase Wireless Dynamic Charging System With Low Output Power Pulsation for Electric Vehicles
    Vu, Van-Binh
    Dahidah, Mohamed
    Pickert, Volker
    Phan, Van-Tung
    IEEE JOURNAL OF EMERGING AND SELECTED TOPICS IN POWER ELECTRONICS, 2020, 8 (04) : 3592 - 3608
  • [19] Feasibility Study of the High-Power Underwater Capacitive Wireless Power Transfer for the Electric Ship Charging Application
    Zhang, Hua
    Lu, Fei
    2019 IEEE ELECTRIC SHIP TECHNOLOGIES SYMPOSIUM (ESTS 2019): EMERGING TECHNOLOGIES FOR FUTURE ELECTRIC SHIPS, 2019, : 231 - 235
  • [20] High-Power-Transfer-Density Capacitive Wireless Power Transfer System for Electric Vehicle Charging
    Sinha, Sreyam
    Regensburger, Brandon
    Doubleday, Kate
    Kumar, Ashish
    Pervaiz, Saad
    Afridi, Khurram K.
    2017 IEEE ENERGY CONVERSION CONGRESS AND EXPOSITION (ECCE), 2017, : 967 - 974
12345