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Wei Wang Lecturer

Academic Area: 
Wireless power transfer and High frequency power electronics converter
Research Interests: 
  • Wireless power transfer
  • Energy harvesting
  • High frequency power electronic converter


Educational Background

  • PhD, Electrical Engineering, Southeast University (2017)

  • MA, Electrical Engineering, Southeast University (2013)

  • BA, Electrical Engineering and its Automation, Jiangnan University, (2011)


Research Projects

  1. Research Innovation Program for College Graduates of Jiangsu Province: Research on key technology of real-time energy harvesting and wireless charging for the monitoring equipment overhead the high-voltage transmission line, Wang Wei, 2015.07-2016.07(20 thousand yuan).

  2. National Nature Science Foundation of China: Research on the theory of resonant coupled wireless power transfer and its application in electric vehicle wireless charging technology, Main participant, 2012.1-2015.12 (600 thousand yuan).

  3. Chinese National High Technology Research and Development Program (863 Program): Key technology research on EV charging& discharging and its interaction with power grid, Main participant, 2012.1-2014.12 (6.90 millions yuan)

Journal Articles

  1. Wei Wang, Xueliang Huang, Jinpeng Guo, Han Liu, Changxin Yan, Linlin Tan. Power Stabilization Based on Efficiency Optimization for WPT Systems with Single Relay by Frequency Configuration and Distribution Design of Receivers[J]. IEEE Transactions on Power Electronics, 2017, 32(9): 7011-7024. 

  2. Wei Wang, Xueliang Huang, Linlin Tan, Junfeng Zhao, Changxin Yan. Hybrid wireless charging system for monitoring overhead 110 kV high-voltage power line equipment based on magneto-electric conversion[J], IET Generation, Transmission & Distribution, 2016, 10(5): 1199-1208

  3. Wei Wang, Xueliang Huang, Linlin Tan, Jinpeng Guo, Han Liu. Optimization Design of an Inductive Energy Harvesting Device for Wireless Power Supply System Overhead High-Voltage Power Lines[J]. Energies, 2016, 9(4): 242- 257. 

  4. Zhao J F, Huang X L, Wang W. Efficiency analysis of magnetic resonance wireless power transfer with three-dimensional transmitters[J]. Journal of Applied Physics, 2015, 117(17):17B516. 

  5. Zhao J, Huang X, Wang W. Wireless Power Transfer with Two-Dimensional Resonators[J]. IEEE Transactions on Magnetics, 2014, 50(1): 1-4. 

  6. Wang Wei, Huang Xueliang, Zhou Yalong, Cao Weijie, Tan Linlin. Modeling and transmission efficiency analysis of wireless power transmission system with dual relays[J]. Diangong Jishu Xuebao/Transactions of China Electrotechnical Society, 2014, 29(9): 1-6.

  7. Wang Wei, Huang Xueliang, Tan Linlin, Zhao Junfeng, Chen Chen. Effect analysis between resonator parameters and transmission performance of magnetic coupling resonant wireless power transmission system[J]. Diangong Jishu Xuebao/Transactions of China Electrotechnical Society, 2015, 30(19): 1-6.

  8. Huang Xueliang, Wang Wei, Tan Linlin. Technical progress and application development of magnetic coupling resonant wireless power transfer[J]. Dianli Xitong Zidonghua/Automation of Electric Power Systems, 2017, 41(2): 2-14.

  9. Wei Wang, Xueliang Huang, Shulei Pan, Jinpeng Guo. Moving impedance matching analysis for three-coil wireless power transfer system in mid-range[C]. 2016 IEEE 5th Asia-Pacific Conference on Antennas and Propagation (APCAP), Kaohsiung, Taiwan, 2016, 429-430. 

  10. Huang XL, Wang W, Tan LL, Jiaming Zhao, Yalong Zhou. Study of transmission performance on strong coupling wireless power transfer system in free position Source[C]. Progress in Electromagnetics Research Symposium, Moscow, Russia, 2012, 669-674. 

  11. Linlin Tan, Jinpeng Guo, Xueliang Huang, Han Liu, Wei Wang, et al. Coordinated source control for output power stabilization and efficiency optimization in WPT systems[J] IEEE Transactions on Power Electronics, 2018, 33(4): 3613-3621. 

  12. Jinpeng Guo, Linlin Tan, Han Liu, Wei Wang and Xueliang Huang. Stabilization control of output power in double-source wireless power transfer systems without direct output feedback[J]. IEEE Microwave and Wireless Components Letters, 2016, 26(11): 960-962. 

  13. Han Liu, Xueliang Huang, Linlin Tan, Jinpeng Guo, Wei Wang, et al. Dynamic wireless charging for inspection robots based on decentralized energy pickup structure[J]. IEEE Transactions on Industrial Informatics. 


  1. Huang Xueliang, Wang Wei, Cao Weijie, et al. A frequency adjustable wireless power transfer device,Chinese invention patent, ZL 201310196231.X, 2015.07.29.

  2. Huang Xueliang, Wang Wei, Tan Linlin, et al. A wireless charging minimum access device for battery,Chinese invention patent, ZL201310196214.6, 2015.12.02.

  3. Huang Xueliang, Wang Wei, Liu Han, et al. A design method of induction energy acquisition device for wireless power supply system in 110kV high-voltage transmission line, Chinese invention patent, ZL 201510448449.9, 2017.05.03.

  4. Huang Xueliang, Wang Wei, Tan Linlin, et al. A dynamic energy transceiver structure for a hybrid WPT system,Chinese invention patent, ZL 201510190387.6, 2017.05.31.

  5. Huang Xueliang, Wang Wei, Liu Han, et al. A power fluctuation suppression method for high-power online induction energy harvesting system in 110kV high-voltage line wireless power supply system, Chinese invention patent, ZL 201510649101.6, 2017.11.28.

  6. Huang Xueliang, Wang Wei, Pan Shulei, et al. A convenient multi-freedom experimental tooling of WPT system and its using method, Chinese invention patent, ZL 201510790335.2, 2018.01.22.

  7. Tan Linlin, Wang Wei, Huang Xueliang, et al. An adaptive DC voltage stabilizing system for small power and multi loads wireless power supply system,Chinese invention patent, ZL 201510191946.5, 2017.05.03.

  8. Tan Linlin, Huang Xueliang, Wang Wei, et al. A design method of disc resonator in wireless power transfer system, Chinese invention patent, ZL201210083399.5, 2014.04.16.

  9. Huang Xueliang, Tan Linlin, Ji Qingjing, Qiang Hao, Zhao Jiaming, Wang Wei, Zhou Yalong. A high frequency power supply system for WPT devices, Chinese invention patent, ZL201110364925.0, 2013.12.11. 

Honors and Awards

  • Wei Wang (7/8), Research on electromagnetic environment of transmission and transformation project and application of real time on-line monitoring system, the third prize in science and technology, China Electrotechnical Society, 2014

Academic Title

  • IEEE Member

  • Chinese Electrotechnical Society member of WPT special committee

  • Reviewer of IEEE Transactions on Power Electronics

  • Reviewer of IEEE Transactions on Industrial Electronics