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Research on Electromagnetic Compatibility for Wireless Charging System of Electric Vehicles
ISSN: 0148-7191, e-ISSN: 2688-3627
Published November 04, 2019 by SAE International in United States
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Currently, there are no specific standards on electromagnetic compatibility (EMC) test for wireless charging system of electric vehicles (EVs). However, the EMC test items have been summarized in some international standards. And the national standard is under developing. In order to support the formulation of corresponding national standards and regulations, promote the rapid development of EVs industry and support the implementation of the national strategy of new energy vehicles (NEVs) and intelligent network vehicle, we carry out the EMC test for wireless charging systems. In this paper, the wireless charging system of EVs is taken as the research object, which can also been called equipment under test (EUT). Firstly, an introduction of the research status was summarized. And then, the influence parameters such as output power and offset are analyzed. Based on the analysis, the EMC test was implemented to evaluate the EMC performance of EUT. Finally, the relevant research results will provide support for the formulation of national standard.
CitationJiang, L., Liu, H., Ding, Y., Zhang, X. et al., "Research on Electromagnetic Compatibility for Wireless Charging System of Electric Vehicles," SAE Technical Paper 2019-01-5057, 2019, https://doi.org/10.4271/2019-01-5057.
Data Sets - Support Documents
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- Hao, Q. , Study on the Influence of Wireless Charging on Power Grid (Dongnan University, 2015).
- Shinohara, N. , Wireless Power Transfer via Radiowaves (London: John Wiley & Sons, 2014).
- Obayashi, S. and Tsukahara, H. , “EMC Issues on Wireless Power Transfer,” in 2014 International Symposium on Electromagnetic Compatibility, Tokyo, 2014, 601-604 (Toshiba).
- Chen, C., Huang, X., Tan, L. et al. , “Electromagnetic Environment and Security Evaluation for Wireless Charging of Electric Vehicles,” Transactions of China Electrotechnical Society, 2015.
- Karalis, A., Joannopoulos, J., and Soljacic, M. , “Wireless Nonradiative Energy Transfer,” Arxiv preprint physics/0611063, 2006.
- Zhu, J. , “Electric Vehicle Wireless Charging Technology,” Auto Engineer 12:50-52, 2011.
- Yiming, Z. et al. , “Comparison of Two Basic Structures in Magnetically-Coupled Resonant Wireless Power Transfer,” Transactions of China Electrotechnical Society, 2013.
- Yang, L. et al. , “Characteristic of Frequency in Wireless Power Transfer System View Magnetic Resonance Coupling,” 16(7):7-11, 2012.
- Limin, C. and Yulong, C. , “Magnetic Coupling Resonant Type Wireless Power Transmission Technology Study Progress,” 2012.
- Wenhui, S. , “Research on Load Characteristic of the Electric Vehicle Wireless Charging System,” 2015.
- SAE J2954 , “Wireless Power Transfer for Light-Duty Plug-in/Electric Vehicles and Alignment Methodology,” 2019.
- Campi, T., Cruciani, S., De Santis, V., Maradei, F., and Feliziani, M. , “EMC and EMF Safety Issues in Wireless Charging System for an Electric Vehicle (EV),” 2017 International Conference of Electrical and Electronic Technologies for Automotive, Torino, 2017, 1-4 (L'Aquila)