Name:

Prof. WANG XUEMEI, Ph. D.

Introduction:

Xuemei Wang received the M.Sc. degree in Control Engineering from Central South University, China in 2004, and the Ph.D. degree in Power Electronics and Power Drives from South China University of Technology, China in 2009.

Research interests

Her current research interests are center on reliability of power modules and power electronic converters, nonlinear behavior of power converters, and wireless power transmission.

Research projects

1.Study of Reliability and Control Method of Power Devices of Electric Vehicle Converters under Multi-stresses. (Natural Science Foundation for Young Scientists of China, 2016-2019, No. 51577074)

2.Boolean automata description and analysis method for nonlinear behavior of power electronic converters. (Natural Science Foundation for Young Scientists of China, 2012-2014, No. 51107044)

3.Research on Key Technologies of contactless power transmission system. (South China Power Grid Research Institute, 2011-2012)

4.Hybrid logic model and nonlinear behavior of power electronic converters. (Basic research project of Central University, 2011-2013)

5.Symbolic time series analysis and control for nonlinear complex behavior of power electronic converters. (Basic research project of Central University, 2009-2011)

Publications:

Book:

1.Chaos Analysis and Chaotic EMI Suppression of DC-DC Converters, Wiley Press, 2014

Papers:

1.The Quantitative Characterization of Symbolic Series of Boost Converter, IEEE Transactions on Power Electronics, 2011,26(8):2101-2105

2.A magnetic coupled resonance WPT system design method of double-end impedance converter networks with Class-E amplifier. IECON 2015, 3093-3098, Dec 2015.

3.Using SiC MOSFETs to improve reliability of EV inverters, Wide Bandgap Power Devices and Applications, 2015 IEEE 3rd Workshop on ,2015.11

4.An Optimal DC Bus Voltage Control Method to Improve the Junction Temperature of IGBTs in Low Speed Operations of Traction Applications, Power Electronics Conference (SPEC), 2016.11

5.Researches and Applications of Wide Bandgap SiC Power Devices in Electric Vehicles, Proceedings of the CSEE, 2014, 29(9): 22-27.

6.Proportional and Differential Control of a Piecewise-linear Capacitor Chaos Circuit[J], Dynamics of Continuous, Discrete & Impulsive Systems: Series B, Canada, 2009.5,16(3):333-347

7.Bifurcations and Chaos in H-Bridge DC Chopper under Peak- Current Control, IEEE ICEM 2008.10

Lecture course

Power electronic technology, Analog electronic technology, Soft switching technology of Power electronic converters.

Address

Department of Power Electronic Engineering, School of Electric Power, South China University of Technology, Guangzhou, China, 510641

Email:epxmwang@scut.edu.cn