Ma Hao

Professor, College of Electrical Engineering

 

Phone: +86 571 8795 3771
Fax: +86 571 8795 1625
Email: mahao@zju.edu.cn
Office: The Second Teaching Building

Zhejiang University, Yuquan Campus
38 Zheda Road
Hangzhou, China 310027

 

Other Appointments

Assistant dean, College of Electrical Engineering

 

Professional Activities

Board member, China Power Supply Society
Member, Academic board of China Power Supply Society
Member, DC power supply board of China Power Supply Society
Secretary-general, Power Supply Society of Zhejiang Province
Vice-director, Technology committee of Electrical Machines Power Association Society of Zhejiang Province
Co-chair, Power Electronics and Renewable Energy Track, IEEE IECON 2010
Member, Technical program committee, IEEE PEDG 2010
Technical Program Chair, IEEE ISIE 2012

 

Education

Ph.D. – Zhejiang University, Power Electronics, 1997
M. S – Zhejiang University, Power Electronics, 1994,
B.S. – Zhejiang University, Applied Electronics, 1991

Working Experience

2010- , Professor, College of Electrical Engineering, Zhejiang University
2007 -, Assistant Dean ,College of Electrical Engineering, Zhejiang University
2000 - 2007, Deputy head, Department of Applied Electronics, Zhejiang University
2007- 2008, Visiting Scholar, North Carolina State University
1999 - 2010, Associate professor, College of Electrical Engineering, Zhejiang University
1997 - 1999, Lecturer, College of Electrical Engineering, Zhejiang University
 

Awards and Honors

Natural Science Award of the Ministry of Education, Second prize, 2005
Scientific and Technological Progress Award of Zhejiang Province, Second prize, 1999
 

Research Interests

Advanced Control in Power Electronics.
Fault Diagnosis of Power Electronic Circuits and Systems.
Application of Power Electronics.

 

Current Projects

  1. Networked Control Technique for Power Electronic Systems
  2. Remote Monitoring and Fault Diagnosis System of Power Electronic Equipments
  3. Energy Recycling Electronic Load system
  4. Automobile LED Driver

Publication List

  1. Dehong Xu, Hao Ma. Automatic Fault Diagnosis of Power Electronic Equipments. Beijing: Science Press, 2001.
  2. Dehong Xu, Hao Ma, Yousheng Wang. Power Electronic Technology. Beijing: Science Press, 2006.
  3. Hao Ma, Yue Ji, Ye Xu. Design and Analysis of Single-Stage Power Factor Correction Converter With a Feedback Winding. IEEE Trans. on Power Electronics, 2010, 25(6): 1460-1470.
  4. Hao Ma, Dehong Xu, Jingming Bian. Fault Diagnosis of Power Electronic Circuits Based on Neural Network. Power Electronics, 1997, 31(4):10-12.
  5. Hao Ma, Dehong Xu, Jingming Bian. Fault diagnosis of power electronic circuits based on neural network and frequency analysis. Journal of Zhejiang University (Engineering Science) , 1999, 33(6):664-668.
  6. Hao Ma, Siliang Han. Design of the Remote Monitoring and Fault Diagnosis System for Power Electronic Equipment. Automation of Electric Power Systems, 2005, 29(2):50-55.
  7. Hao Ma, Xinyun Mao, Dehong Xu. Parameter identification of DC/DC power electronic circuits based on hybrid system model. Proceedings of the Chinese Society of Electrical Engineering , 2005,25(10):50-54
  8. Hao Ma, Siliang Han. Time-dependent sliding surface for novel AC power amplifier. Proceedings of the Chinese Society of Electrical Engineering , 2005,25(11):55-59.
  9. Hao Ma, Linguo Wang. Degradation analysis and failure prediction of aluminum electrolytic capacitors. Automation of Electric Power Systems , 2005,29(15):68-72.
  10. Hao Ma, Xinyun Mao, Dehong Xu. Modeling and parameter identification of DC/DC converters in both CCM and DCM mode. Proceedings of the Chinese Society of Electrical Engineering , 2006,26(5):64-69
  11. Hao Ma, Zhixue Zhang. Topology identification for power electronic circuits. Proceedings of the Chinese Society of Electrical Engineering, 2006, 26(6):55-60.
  12. Hao Ma, Biao Lei. Generalized small-signal model and its application for wireless-parallel inverter systems. Journal of Zhejiang University (Engineering Science), v 41, n 7, p 1111-1115, July 2007.
  13. Hao Ma, Feng Qi, Ni Zhang. Modeling and control for DC-DC converters based on hybrid system. Proceedings of the Chinese Society of Electrical Engineering, v 27, n 36, p 92-96, December 25, 2007.


 

Conference List

  1. Hao Ma, Yunping Lang, Huiming Chen. A Simplified Algorithm for Space Vector Modulation of Three-phase Voltage Source PWM Rectifier. Proceedings of 2004 IEEE 35th Annual Power Electronics Specialists Conference, PESC’04, Aachen, Germany, June 20-25, 2004, pp.3665-3670.
  2. Hao Ma, Yunping Lang. An Improved Digital Control Algorithm for Power Factor Preregulators. Proceedings of The 31th Annual Conference of the IEEE Industrial Electronics Society, IECON’2005, November 6-10, 2005, Raleigh, North Carolina, USA, pp. 889-893.
  3. Hao Ma, Tao Zhang. Analysis and Design for Sliding Mode Controlled Buck Inverter Based on Reference Sliding Surface and State Variables Surface. 21st Annual IEEE Applied Power Electronics Conference and Exposition, APEC’2006, Dallas, Texas, USA, March 19-23, 2006, pp.1472-1477.
  4. Yao Zhang , Hao Ma, Fei Xu. Study on Networked Control for Power Electronic Systems. The 38th IEEE Power Electronics Specialist Conference, Orlando, PESC’2007, Florida, USA, June 17-21, 2007, pp.833-838.
  5. Fei Xu, Tao Zhang, Hao Ma and Yao Zhang. Sliding Mode Controller Based on Triangular Wave Reference for Buck Inverter. The 38th IEEE Power Electronics Specialist Conference, PESC’2007, Orlando, Florida, USA, June 17-21, 2007, pp.516-519.
  6. Wenqi Zhou, Hao Ma. Winding Structure and Circuit Design of Contactless Power Transfer Platform. Proceedings of the 34th Annual Conference of the IEEE Industrial Electronics Society, IECON 2008, Orlando, FL, U.S.A. Nov.10-13,2008.


 

Patent List

1. Control strategy and its controller of DC-DC converter based on fixed frequency sliding mode control.
2. Control strategy and its controller of Buck DC-DC converter based on current-limited sliding mode control.
3. Single stage power factor correction circuit with low EMI
4. Single stage power factor correction circuit with low loss