Sun, Yue, Professor of Chongqing University, China
He received the B.E. degree in electrical engineering, the M.E. degree in industry automation, and the Ph.D. degree in mechanical electrical integrated manufacturing from Chongqing University, Chongqing, China, in 1982, 1988, and 1995, respectively.
In 1997, he was a Senior Visiting Scholar with the University of Valenciennes, Famars, France. From 2008 to 2009, he was a Visiting Scholar with The University of Queensland, Brisbane, QLD, Australia. He is currently a Professor with the State Key Laboratory of Power Transmission Equipment and System Security and New Technology, as well as with the College of Automation, Chongqing University. Besides, he is a standing director of the China Power Supply Society (CPSS), the director of the CPSS Technical Committee “Wireless Power Transfer Technology and Devices”, a deputy director of the China Electrotechnical Society Technical Committee “Wireless Power Transfer Technology”, a deputy director of the Education Committee of the China Association of Automation, a deputy director of the Chongqing Institute of Automation and Instrumentation, etc. His current research interests include automatic control, wireless power transfer, power electronics applications, and control theory and applications.
Contact Information
Email: syue06@cqu.edu.cn
Address: Shazheng Street174#, Shapingba District, Chongqing, 400044, China
Research Interests
(1) Wireless Power Transfer Technology and Applications
With the help of electromagnetic field, microwave, laser and other soft media, wireless power transfer (WPT) technology can realize the transmission of electric energy from power supply to electrical equipment without physical connection. This technology is a hot spot in the research and development of modern electrical technology. As an important branch of WPT technology, electromagnetic resonant coupling is the most likely means to provide solutions for wireless power supply of electrical equipment. It can be applied to electrified vehicles (electric vehicles, subway cars, electrified trains, etc.), mining locomotives, all kinds of mobile devices in special environment, etc., to realize wireless charging / real-time wireless power supply for high-power mobile electrical equipments; it can also be applied to household appliances and all kinds of consumer electronic products (such as mobile phones, tablet computers, etc.), to realize flexible and convenient wireless charging. As a special power flexible access and transmission mode, wireless power transmission system has attracted more and more attention due to its broad market prospect and scientific research value.
This direction focuses on the systematic research of common theoretical/technical problems of WPT systems, tackles the major key technologies for the promotion of WPT, and emphasizes the engineering application of WPT in the fields of wireless charging/power supply for electric vehicles and household appliances, and wireless power transmission for rotating mechanism (such as oil drill pipe mechanism).
(2) Modeling, Synthesis and Control of Power Electronics Systems
As an important part of modern industrial electrical equipment, power electronic devices are widely used in various power systems, power conversion, electrical drive and other fields, and have become an important technical branch of electrical engineering. The power electronic circuit realizes the power conversion and energy control in the switch mode. Because of its switching mechanism, the system presents special nonlinear properties. This kind of nonlinear property makes the system behave as a kind of multi-mode, variable structure switch nonlinear behavior, which brings many problems to the design, implementation and optimal operation of the system. Based on the modern control theory and nonlinear system modeling theory, the nonlinear model construction, simulation algorithm research, system parameter optimization and nonlinear control of power electronics are studied.
Publications
Part I – Books
[1] Dai, X., Sun, Y., Tang, C. S., Wang, Z. H., Su, Y. G. Wireless Power Transfer Technology, Science Press, China, 2017
Part II – Referred Journal Papers (selected)
[1] Fan, Y., Sun, Y.*(孙跃), Dai, X., Zuo, Z., & You, A. Simultaneous wireless power transfer and full-duplex communication with a single coupling interface. IEEE Transactions on Power Electronics, 36(6), 6313-6322, 2021.
[2] Liao, Z. J., Sun, Y.* (孙跃), Ye, Z. H., Tang, C. S., & Wang, P. Y. Resonant analysis of magnetic coupling wireless power transfer systems. IEEE Transactions on Power Electronics, 34(6), 5513-5523, 2019.
[3] Sun, Y.* (孙跃), Liao, Z. J., Ye, Z. H., Tang, C. S., & Wang, P. Y. Determining the maximum power transfer points for MC-WPT systems with arbitrary number of coils. IEEE Transactions on Power Electronics, 33(11), 9734-9743, 2018.
[4] Sun, Y.* (孙跃), Zhang, H., Hu, A. P., Tang, C. S., & Xiang, L. J. The recognition and control of nonideal soft-switching frequency for wireless power transfer system based on waveform identification. IEEE Transactions on Power Electronics, 32(8), 6617-6627, 2017.
[5] Sun, Y.* (孙跃), Yan, P. X., Wang, Z. H., & Luan, Y. Y. The parallel transmission of power and data with the shared channel for an inductive power transfer system. IEEE Transactions on Power Electronics, 31(8), 5495-5502, 2016.
Part III- Conference Papers
Published over 50 Conference papers including Conference on Decision and Control (CDC), American Control Conference (ACC), IFAC, Chinese Conference on Control and Decision (CCDC), Chinese Control Conference (CCC), etc.
Patents
Hold over 50 patents
Research Grants
Received over 20 research grants/awards amounting to approximately $5M as Principal Investigator (PI) and $20M as co-Principal Investigator.
Awards/Honors
· Best Paper Award, ECCE Conference, 2019