毛赛君


  职称:青年研究员、博士研究生导师
  
  邮箱:saijunmao@fudan.edu.cn






个人简介

复旦大学青年研究员,学术学位与专业学位博士生导师,卓博计划导师,上海碳化硅功率器件工程技术研究中心电力电子实验室负责人,入选上海市浦江人才计划,IEEE高级会员,本科和硕士毕业于南京航空航天大学电力电子与电力传动专业,博士毕业于荷兰代尔夫特理工大学电力电子专业(导师为IEEE国际电力电子学会前任主席、IEEE宽禁带功率半导体国际技术路线主席荷兰代尔夫特理工大学Braham Ferreira教授),曾获教育部国家留学基金委“国家优秀自费留学生奖学金”,曾在GE全球研究中心工作10余年,主持多项碳化硅电力电子科研和产业化项目,研究领域主要集中在宽禁带功率半导体器件封装、驱动与电力电子系统集成,获得“GE个人技术卓越成就奖”、GE杰出专利发明金奖”和“GE长期服务奖(10)”等多个重要奖项,在国际顶级学术会议做7次大会专题技术报告,发表国际、国内期刊与会议论文40余篇,获得40余项国际、国内发明专利与申请。担任IEEE Transactions on Power ElectronicsIEEE Transactions on Industrial ElectronicsIEEE Journal of Emerging and Selected Topics in Power ElectronicsIEEE Transactions on Industry Applications等重要电力电子国际期刊审稿人,曾担任IEEE Applied Power Electronics Conference (APEC) 2020分会主席。



研究方向

n碳化硅功率半导体模块封装

n碳化硅功率半导体器件智能数字驱动、动态特性表征与健康管理

n碳化硅电力电子电磁干扰建模

n碳化硅电力电子系统集成与应用

n高频高功率密度碳化硅脉冲电源系统



招生专业

n学术学位博士、硕士:物理电子学

n专业学位博士、硕士:电子信息



代表性科研项目

[1]上海市科技计划项目:应用于移动储能系统的基于新型碳化硅功率半导体器件的高效率双向直流-交流功率变换器,202011-202210月,主持

[2]复旦大学原创科研个性化支持项目:基于碳化硅功率半导体器件的高频高压电源应用基础研究,2021年,主持

[3]企业合作项目:基于1700/1200V SiC MOSFET 高频高功率密度电源系统,2020-2023年,参与

[4]海外企业合作项目:EMI modelling and mitigation for SiC medium voltage UPS2020-2021年,主持

[5]海外企业合作项目:磁共振射频传输链与接收链系统基于碳化硅MOSFET功率半导体器件的400kHz-600kHz 300W 1kV高频高压无磁电源开发,2016-2017年,主持

[6]海外企业合作项目:基于高温碳化硅MOSFET功率半导体器件的井下石油开采随钻测井、完井装备高功率密度电源开发,2016-2017年,主持

[7]海外企业合作项目:基于1200V碳化硅MOSFET和整流管300kHz-500kHz 2.2kW8kW 160kV高功率密度高频X光机高压发生器,2011-2013年,主持

[8]海外企业合作项目:基于新一代碳化硅及氮化镓功率半导体器件的高效率数据中心电源开发,2010-2011年,主持

[9]海外企业合作项目:基于碳化硅功率半导体器件与平面变压器的高频X光机高压发生器及CT球管控制开发,2007-2011年,主持

[10]海外企业合作项目:高效高功率密度照明电子驱动电路电磁集成技术开发,2006-2007年,主持



代表性成果

国际学术会议大会专题技术报告

[1]SiC power conversion & system packaging technologies for high temperature high pressure harsh environment applications”, Professional Education Seminar in 36th IEEE Applied Power Electronics Conference & Exposition (APEC), Phoenix, Arizona, US, June 14-17, 2021.

[2]High frequency power conversion with SiC power devices for the high voltage power supply with fast transient response”, Tutorial in IEEE Workshop on Wide Bandgap Power Devices and Applications in Asia (WiPDA Asia 2021), Wuhan, China, Aug 25-27, 2021.

[3]SiC power conversion & system packaging technologies for high temperature high pressure harsh environment applications”, Tutorial in 2021 IEEE Energy Conversion Congress and Exposition (ECCE) Asia, Singapore, May 24-27, 2021.

[4]Application of Silicon-Carbide (SiC) power semiconductor devices for the high frequency high voltage power supply: opportunities, challenges and solutions”, Tutorial in 2020 IEEE Energy Conversion Congress and Exposition (ECCE) Asia, Nanjing, November 29-December 2, 2020.

[5]Modular high frequency high voltage power supply-architectures, circuit modeling methodologies and output voltage sharing technologies”, Tutorial in 2019 IEEE Energy Conversion Congress and Exposition (ECCE) Europe, Genova, Italy, September 2-6, 2019.

[6]Modular high frequency high voltage power supply: architectures, unified modeling methodologies and output voltage sharing technologies”, Professional Education Seminar in 34th IEEE Applied Power Electronics Conference & Exposition (APEC), Anaheim, California, US, March 17-21, 2019.

[7]Analysis, Design and Implementation of High Frequency High Voltage Power Supply”, Tutorial in 2018 IEEE International Power Electronics and Application Conference and Exposition, Shenzhen, China, November 4-7, 2018.


代表性论文

[1]S. Mao*(一作&通讯), Y. Chen, C. Li, W. Li, J. Popovic, J. Ferreira, A Coupled-Inductor based LCC Resonant Converter with the Primary-Parallel-Secondary-Series Configuration to Achieve Output-Voltage Sharing for HV Generator Applications. IEEE Transaction on Power Electronics, vol.34, no.7, pp. 6108-6122, 2019.(IF=6.373)

[2]S. Mao*(一作&通讯), Y. Chen, C. Li, W. Li, J. Popovic, J. Ferreira Diode Reverse Recovery Process and Reduction of Half-Wave Series Cockcroft-Walton Voltage Multiplier for High Frequency High Voltage Generator Applications, IEEE Transaction on Power Electronics, vol.34, no.2, pp. 1492-1499, 2019. (IF=6.373)

[3]S. Mao*(一作&通讯), C. Li, W. Li, J. Popovic, S. Schroder, J. Ferreira, Unified Equivalent Steady-State Circuit Model and Comprehensive Design of the LCC Resonant Converter for HV Generation Architectures, IEEE Transactions on Power Electronics, vol.33, no.9, pp. 7531-7544, 2018. (IF=6.373)

[4]S. Mao*(一作&通讯), H. Wang, Y. Yan, A novel Zero-Voltage-Switching push-pull DC-DC converter for high input voltage and high power applications, Journal of KIEE International Transactions on Electrical Machinery and Energy Conversion Systems (The Journal name has been changed to Journal of Electrical Engineering and Technology since 2006), vol.5-B, no.4, pp.343-349. 2005. (IF=0.736)

[5]S. Yang, S. Mao, Z. Wang, X. Lu, J. Chen, H. Chen, K. Zeng, Automated SiC MOSFET Power Module Switching Characterization Test Platform, IEEE Workshop on Wide Bandgap Power Devices and Applications in Asia (WiPDA Asia 2021), Accepted.

[6]Z. Wang, S. Mao, S. Yang, W. Li, Y. Ding, X. Lu, J. Chen, K. Zeng, Power Loop Inductance Extraction with High Order Polynomial Fitting Algorithm for SiC MOSFET Power Module Characterization, IEEE Workshop on Wide Bandgap Power Devices and Applications in Asia (WiPDA Asia 2021), Accepted.

[7]W. Li, S. Mao, Z. Wang, S. Yang, Y. Ding, K. Zeng, Modeling and Analysis of the Switching Characteristics Difference for Paralleling SiC MOSFETs in Multichip Power Modules, IEEE Workshop on Wide Bandgap Power Devices and Applications in Asia (WiPDA Asia 2021), Accepted.

[8]Y. Ding, S. Mao, Z. Wang, S. Yang, W. Li, K. Zeng, A Review of the Crosstalk Suppression Methods for SiC MOSFETs in the Phase-leg Circuit Configuration, IEEE Workshop on Wide Bandgap Power Devices and Applications in Asia (WiPDA Asia 2021), Accepted.

[9]S. Mao, Popovic, J. Ferreira, Analysis of the Transformer Modularization for High Frequency Isolated High Voltage Generator with the Silicon Carbide Devices, IEEE Energy Conversion Congress and Exposition (ECCE)-Europe Conference, pp.1-8, 2020.

[10]S. Mao, C. Li, W. Li, J. Popovic, J. Ferreira, Coreless Transformer Based High Voltage Generator for Intense Magnetic Field Applications, 35th Annual IEEE Applied Power Electronics Conference & Exposition (APEC), pp.1-5, 2020.


代表性发明专利与申请

[1]S. Mao, Power conversion system (US9537423B2)

[2]S. Mao, System and method for power converter including inverter, resonant circuit and voltage multiplier (US10862402B2)

[3]S. Mao, Power converter and power converting method (US20190245426A1)

[4]S. Mao, Isolation transformer, a switch driving circuit and a pulse power system (US20190131055A1)

[5]S. Mao, System and method for improving power conversion efficiency (US20140153287A1)

[6]S. Mao, Battery management system and method (US20150061597A1)

[7]S. Mao, Y. Chen, Y Liao, X Qi, M. Xue, S. Brazil, Downhole power generation system and method (US20200056458A1)

[8]S. Mao, D. Perrillat-Amede, P. Ernest, N. Kumar, X. Chu, Power generation system and package (US9369060B2)

[9]S. Mao, B. Qu, J. Shi, H. Xu, J. Shen, L. Lan, R. Li, Z. Yuan, A. Waddell, S. Schroeder, M. Mechlinski, M. ChanIntegrated power semiconductor packaging apparatus and power converter (US10497642B2)

[10]S. Mao, S. Schroeder, H. Xu, M. Mechlinski, J. Shen, B. Qu, Z. Yuan, Y. ZhangJ. Shi, Power semiconductor device and snubber circuit thereof (US10389230B2)


代表性获奖情况

[1]教育部留学基金委“国家优秀自费留学生奖学金”[2018]

[2]GE Long Service Award (10 years) [2016]

[3]GE Inventor Gold Award [2016]

[4]GE Healthcare Science and Technology Organization (STO) Top Inventor Award [2015]

[5]GE China Technology Center Annual Technology Team Award [2014]

[6]GE Global Research Electrical Technologies and Systems Organization Endurance Award [2014]

[7]GE Global Research-Shanghai Annual Technology Excellence Award [2013]

[8]GE Global Research-Shanghai Annual Technology Passion Award [2012]

[9]GE Global Research Electronics & Energy Conversion Organization Rookie of the Year Award [2007]

[10]IEEE International Conference on Electrical Machines and Systems (ICEMS) Best Paper Award [2005]