Wireless Charging Technology for Electric Vehicles
DOI:
https://doi.org/10.54097/qsbvnf56Keywords:
Wireless charging technology, Electric vehicle, Application scenario, Optimization suggestion.Abstract
Currently, global energy structure transformation and environmental protection concerns have drawn the attention of all sectors of society to electric vehicles. However, issues such as inadequate charging facilities, long charging times, and charging safety impede the popularization and promotion of electric cars. Against this backdrop, wireless charging technology, as an innovative charging method, is increasingly gaining public attention and showing enormous potential for development. Wireless charging technology employs the principles of electromagnetic induction and magnetic resonance to transmit electrical energy through the air, allowing electric vehicles to be charged without needing a physical connection, thereby increasing the convenience and safety of the charging process. After reading a lot of research, the author summarizes three common wireless charging methods, shows how this technology can be used in electric vehicle scenarios, and suggests ways to improve things based on current issues. The goal is to give the electric vehicle industry new ideas and solutions for its long-term growth.
Downloads
References
[1] Zheng Zhi Cong. Research on wireless charging technology for electric vehicles. Automotive Test Report, 2023, (14): 148-151.
[2] Manivannan B, Kathirvelu P, Balasubramanian R. A review on wireless charging methods–The prospects for future charging of EV. Renewable Energy Focus, 2023, 46: 68-87.
[3] Dong Yang. Steady-state output design and optimisation of magnetically coupled wireless charging system for electric vehicles. Chang'an University, 2023.
[4] Yang ZY. Design and implementation of electromagnetic induction wireless charging receiving end system. Southeast University, 2022.
[5] Xu Boqiang. Research on microwave wireless charging circuit technology. University of Electronic Science and Technology, 2019.
[6] YU Jinyong, DUAN Jiagang. Research and application of wireless charging technology for electric vehicles. Times Automobile, 2022, (01): 125-126.
[7] Wang, Chuan-Shen. Design and implementation of magnetic coupled wireless energy transmission system based on class E amplifier. Hangzhou University of Electronic Science and Technology, 2016.
[8] Liu Tao. Circuit study of magnetic coupling resonant wireless charging system for electric vehicles. Southwest University of Science and Technology, 2021.
[9] LI Jianfeng, CHEN Liangming. Research on wireless charging technology for electric vehicles. Automotive Test Report, 2024, (06): 143-145.
[10] LI Hongmei, ZHAO Luming, HU Yixian, et al. Research and application analysis of wireless charging technology for electric vehicles. Automotive Practical Technology, 2020, (10): 34-36+73.
[11] YAN Jichao, MO Bin, HUANG Peixin, et al. A review of key technology research on magnetic resonant wireless charging system for electric vehicles. Electromechanical Engineering Technology, 2024, 53 (03): 7-12.
[12] Li Ruixuan. Research on dynamic wireless charging system for electric vehicles based on anti-offset characteristics. Chang'an University, 2023.
[13] Zaheer A, Covic G A, Kacprzak D. A bipolar pad in a 10-kHz 300-W distributed IPT system for AGV applications. IEEE Transactions on Industrial Electronics, 2013, 61 (7): 3288-3301.
[14] Zaheer A, Covic G A, Kacprzak D. A bipolar pad in a 10-kHz 300-W distributed IPT system for AGV applications. IEEE Transactions on Industrial Electronics, 2013, 61 (7): 3288-3301.
[15] LI Yanjie, LI Feng, ZHOU Siqi, et al. Optimisation of wireless charging system for electric vehicles with large transmission distance. Journal of Beijing Institute of Technology, 2024, 50 (04): 405-416.
Downloads
Published
Issue
Section
License
Copyright (c) 2024 Highlights in Science, Engineering and Technology
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
