Cheng Chenwen

来源:tyc86太阳集团发布时间:2026-04-02浏览次数:10

NameChenwen Cheng

Title: Associate Researcher, Doctoral Supervisor

Research: Wireless power transfer, resonant converter, renewable power generation

Email: chenwen_cheng@seu.edu.cn

Phone: 15088683106




Cheng Chenwen received his Bachelor's degree in Electrical Engineering and Automation from Zhejiang University in 2012, and his Ph.D. in Electrical Engineering from Zhejiang University in 2017. From January 2018 to January 2021, he conducted postdoctoral research at San Diego State University, USA. In March 2021, he joined the School of Electrical Engineering at Southeast University.

He serves as the principal investigator for several research grants, including a Young Scientists Project of the National Natural Science Foundation of China (NSFC) and a sub-project of the National Key Research and Development Program of China, as well as multiple industry-sponsored projects. He has published over 20 papers in IEEE top-tier journals, been granted or filed more than 10 invention patents, serves as a reviewer for leading international journals, chaired sessions at several international conferences, and received best paper awards at conferences.

His research interests include wireless power transfer, high-frequency resonant converters, motor drives, and grid-connected renewable energy systems. He recruits two master's students and one doctoral student each year. Students interested in power electronics, renewable energy generation systems, and motor control are welcome to contact him for further discussions.



Publication:       

Journal paper

  1. Longhao Shi,Chenwen Cheng*, Mingjing Hu, Wei Hua, and Chunyu Lu, “A Robust Two-Degree-of-Freedom Current Control Strategy for LCL-Equipped High-Speed PMSMs”,IEEE Trans. Power Electron., In Press.

  2. Chenwen Cheng, Longhao Shi, Mingjing Hu, Wei Hua, and Yinfeng Hu, “Robust Fast Current Control for LCL-Equipped High-Speed PMSMs with Reduced Delay”, IEEE Trans.Transp. Electrific., In Press.

  3. Chenwen Cheng, Xiao Zheng, Yiyin Zhang, and Wei Hua, “A single-switch dual-constant-output Class-E inverter with a coupled-inductor design,”IEEE Trans.Ind.Electron., In Press.

  4. Chenwen Cheng, Xiao Zheng, Yiyin Zhang, and Wei Hua, “Load-independent Class-E inverter with dual quasi-constant outputs,”IEEE Trans. Power Electron., In Press.

  5. Chenwen Cheng, Ting Chen, Xiaoman Cui, Yuan Liu, Sheng Zhang, and Chris Mi, “Harmonic modeling and analysis of series-parallel compensated IPT systems with an inductive filter,”IEEE Trans. Power Electron., vol. 38, no. 11, pp. 13405-13414, Nov. 2023.

  6. Ting Chen,Chenwen Cheng*, Hong Cheng, Cong Wang, and Chris Mi, “A multi-load capacitive power relay system with load-independent constant current outputs,”IEEE Trans. Power Electron.,vol. 37, no. 5, pp. 6144-6155, May 2022.

  7. Chenwen Cheng, Zhe Zhou, Weiguo Li, Zhanfeng Deng, and Chris Mi, “A power relay system with multiple loads using asymmetrical coil design,”IEEE Trans.Ind. Electron., vol. 68, no. 2, pp. 1188-1196, Feb. 2021.

  8. Chenwen Cheng, Fei Lu, Zhe Zhou, Weiguo Li, Chong Zhu, Zhanfeng Deng, Xi Chen, and Chris Mi, “A multiload inductive power transfer repeater system with constant load current characteristics,”IEEE J. Emerg. Sel. Topics. Power Electron., vol. 8, no. 4, pp. 3533-3541, Dec. 2020.

  9. Chenwen Cheng, Chao Wang, Zhe Zhou, Weiguo Li, Zhanfeng Deng, and Chris Mi, “Repeater coil based wireless power transfer system powering multiple gate drivers of series-connected IGBTs,”IET Power Electron., vol. 13, no. 9, pp. 1722-1728, Jul. 2020.

  10. Chenwen Cheng, Zhe Zhou, Weiguo Li, Jianghua Lu, Zhanfeng Deng, and Chris Mi, “Long-distance wireless power transfer system powering multiple loads with constant voltage outputs using S-SP compensation,”IET Power Electron., vol. 13, no. 9, pp. 1729-1734, Jul. 2020.

  11. Chenwen Cheng, Weiguo Li, Zhe Zhou, Zhanfeng Deng, and Chris Mi, “A Load-Independent Wireless Power Transfer System with Multiple Constant Voltage Outputs,”IEEE Trans. Power Electron.,vol. 35, no. 4, pp. 3328-3331, Apr., 2020.

  12. Chenwen Cheng, Fei Lu, Zhe Zhou, Weiguo Li, Zhanfeng Deng, Fangyi Li, and Chris Mi, “A Load-Independent LCC-Compensated Wireless Power Transfer System for Multiple Loads with a Compact Coupler Design,”IEEE Trans.Ind. Electron.,vol. 67, no. 6, pp. 4507-4515, Jun., 2020.

  13. Chenwen Cheng, Zhe Zhou, Weiguo Li, Chong Zhu, Zhanfeng Deng, and Chris Mi, “A multi-load wireless power transfer system with series-parallel-series compensation,”IEEE Trans. Power Electron.,vol. 34, no. 8, pp. 7126-7130, Aug., 2019.

  14. Chenwen Cheng, Fei Lu, Zhe Zhou, Weiguo Li, Chong Zhu, Hua Zhang, Zhanfeng Deng, Xi Chen, and Chris Mi, “Load-independent wireless power transfer system for multiple loads over a long distance,”IEEE Trans. Power Electron.,vol. 34, no. 9, pp. 9279-9288, Sept. 2019.

  15. Chenwen Cheng, Peng Cheng, Heng Nian, Dan Sun, “Model Predictive Stator Current Control of Doubly Fed Induction Generator During Network Unbalance,”IET Power Electron., vol. 11, no. 1, pp. 120-128, Feb. 2018.

  16. Chenwen Cheng, Heng Nian, Longqi Li, “Improved three-vector based dead-beat model predictive direct power control strategy for grid connected inverters,”Frontiers of Information Technology & Electronic Engineering, vol. 19, no. 11, pp. 1420-1431, Dec. 2018.

  17. Chenwen Cheng, Heng Nian, “Low-complexity model predictive stator current control of DFIG under harmonic grid voltages,”IEEE Trans. Energy Convers.,vol. 32, no. 3, pp. 1072-1080, Sept. 2017.

  18. Chenwen Cheng, Heng Nian, Xiaohe Wang, Dan Sun, “Dead-beat predictive direct power control of voltage source inverters with optimized switching patterns,”IET Power Electron., vol. 10, no. 12, pp. 1438-1451, Oct. 2017.

  19. Heng Nian,Chenwen Cheng, Yipeng Song, “Coordinated control of the DFIG system based on repetitive control strategy under generalized harmonic grid voltages,”Journal of Power Electronics,vol. 17, no. 3, pp. 733-743, May 2017.



Conference paper

  1. Dazhuang Liang,Chenwen Cheng*, Wei Hua, “Analysis and Design of a Long Distance and Multi-Load WPT System with Hybrid Coil Forms”, 2024 IEEE 7th International Electrical and Energy Conference (CIEEC), Harbin, China, 2024. (Best Paper)

  2. Yuan Liu, Sheng Zhang, Ran Zhang,Chenwen Cheng*, Wei Hua, “A Unipolar Coil-Based Multi-Load Inductive Power Transfer System with Decoupling Compensation Design”, 2023 26th International Conference on Electrical Machines and Systems (ICEMS), Zhuhai, China, 2023.

  3. Longhao Shi,Chenwen Cheng*, Mingjin Hu, Wei Hua, “Improved Deadbeat Predictive Current Control for SPMSM based on Multi-Step Prediction”, 2023 26th International Conference on Electrical Machines and Systems (ICEMS), Zhuhai, China, 2023.

  4. Kaining Qu,Chenwen Cheng*, Wei Hua, “Speed fluctuation Suppression of PMSM Based on Repetitive Active Disturbance Rejection Control”, 2023 26th International Conference on Electrical Machines and Systems (ICEMS), Zhuhai, China, 2023.

  5. Zhe Zhou, Weiguo Li,Chenwen Cheng, Zhanfeng Deng, Fangyi Li, Qiuyu Shi, Chris Mi, “An optimized multi-load wireless power transfer system with constant load currents,”10th International Conference on Power Electronics and ECCE Asia (ICPE 2019 - ECCE Asia), Busan, South Korea, 2019.

  6. Zhe Zhou, Weiguo Li,Chenwen Cheng, Chao Wang, Zhanfeng Deng, Chris Mi, “A wireless power transfer system powering multiple gate drivers in a modular multilevel converter,”WPW 2019 - IEEE MTT's Wireless Power Week, London, United Kingdom, 2019.

  7. Zhe Zhou, Qiuyu Shi,Chenwen Cheng, Weiguo Li, Zhanfeng Deng, Fangyi Li, Chris Mi, “A Multi-load Wireless Power Transfer System with Constant Voltage Outputs Using S-LCC Compensation,”22nd International Conference on Electrical Machines and Systems (ICEMS 2019), Harbin, China, 2019.

  8. Zhe Zhou, Zhanfeng Deng,Chenwen Cheng, Weiguo Li, Fangyi Li, Chris Mi, “A Wireless Power Transfer System with Multiple Constant Current and Constant Voltage Outputs,”IEEE Energy Conversion Congress & Expo(ECCE 2019), Baltimore, Maryland, USA, 2019.

  9. Heng Nian,Chenwen Cheng, “Improved grid connection operation of type-III wind turbine under unbalanced fundamental and distorted grid voltages,”10th International Conference on Advances in Power System Control, Operation & Management (APSCOM 2015), Hong Kong, 2015.


Teaching

  • Microcomputer Systems and Interfaces

  • Microcomputer Experiments