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伍群芳

作者: 审核人: 访问量:9300发布时间:2020-09-09

姓名:伍群芳性别:职务:副主任
职称:副研究员导师类别:博士生导师办公室:威尼斯欢乐娱人城官网33282栋509
研究领域:高效能功率变换,空天电能源系统,电力电子可靠性,数字化智能变流装备
电话:
Email:wuqunfang@nuaa.edu.cn
个人简介

伍群芳,副研究员/博士生导师,威尼斯欢乐娱人城官网3328工学博士,美国密歇根大学博士后,入选中国电机工程学会与江苏省“青年人才托举工程“、威尼斯欢乐娱人城官网3328长空学者(长空之星),获全国高等学校青年教师电工学课程教学竞赛一等奖、威尼斯欢乐娱人城官网3328教学成果一等奖,指导学生获全国“互联网+”金奖、研究生国家奖学金等荣誉奖项。从事高效能功率变换、电能源系统、智能变流装备及可靠性等技术研究。主持承担国家自然科学基金、173基础加强重点项目课题、航空科学基金、江苏省自然科学基金等课题20余项,发表学术论文60余篇,其中以第一/通讯作者发表IEEE Trans. or IET PE等权威期刊30余篇;申请中国发明专利20余项(已授权15项),申请美国专利3项。

学术兼职

[1]担任2024年Digital Twin International Conference专题“Digital Twin for Electric, Control and Energy Systems”Session Chair

[2]受邀担任期刊《Journal of Power and Energy Engineering》专题“Applications of Power Electronic Converters”客座主编

[3]担任2022年Digital Twin International Conference专题“Digital Twin for Power Electronics, Power Systems, and Multi-Energy Systems ”Session Chair

[4]IEEE Transaction on Power Electronics Emergency Reviewer (SCI顶刊TPEL紧急稿件审稿组成员)

[5]IEEE Transaction on Industrial Electronics、IEEE Transaction on Power Electronics、IET Power Electronics、IET Generation, Transmission & Distribution、IEEE Journal of Emerging and Selected Topics in Power Electronics、IEEE Transactions on Transportation Electrification、 IEEE Access、IEEE Open Journal of Power Electronics、Energies、Electronics、APEC、ECCE、中国电机工程学报等数十个权威期刊与会议同行审稿人

[6]中国能源学会能源装备专家组委员,江苏省电源学会青工委委员,中国电工技术学会科普专家成员,IEEE Member;中国电源学会会员;中国电机工程学会会员,中国电工技术学会会员等


学术荣誉

[1]中国发明协会创新二等奖

[2] IEEE TPEL 杰出审稿人奖

[3]江苏省高等学校科学技术研究成果三等奖

[4]全国博士后创新创业大赛铜奖

[5]工信部创新三等奖

[6]威尼斯欢乐娱人城官网3328第六届“临近空间杯”博士科技创新二等奖

[7]威尼斯欢乐娱人城官网3328优秀博士学位论文

[8]威尼斯欢乐娱人城官网3328第四届“群星”创新奖


学术成果

代表性学术论文(第一作者#/通讯作者*)

[1]Qunfang Wu#, Menghan Jiang, Zhifeng Sun, Qin Wang. An internal magnetic core termination integration method for LLC four-elemental matrix transformer.IEEE Transactions on Power Electronics, 2023, 38(11): 13573-13579.

[2]Qunfang Wu#, Boyuan Xu,  Lan Xiao, Qin Wang. A remaining useful life prediction method of SiC MOSFET considering failure threshold uncertainty. IET Power Electronics, 2023, 1–13.

[3]Zhifeng Sun, Qunfang Wu*, Qin Wang, Jinbo Li.An improved grouping transformer's secondary windings current-sharing method for multi-phase LLC converter, IEEE Transactions on Power Electronics, 2023, 38(8):9872-9884.

[4]Zhifeng Sun, Qunfang Wu*, Qin Wang and Lan Xiao. Depth comparison of common inductor and common capacitor passive current sharing methods for multiphase LLC converter, IET Power Electronics, 2023, 16:2525–2548.

[5]Zhifeng Sun, Qunfang Wu*, Qin Wang and Lan Xiao. A simple sensorless current sharing control for input-parallel output-parallel dual active bridge converters, IEEE Transactions on Industrial Electronics,2022, 69(11): 10819-10833.

[6]Hui Xiao, Qunfang Wu*, Heng Xi. Analysis and design of a wide range ZVS/ZCS push–pull DC/DC converter with voltage clamped, IET Power Electronics, 2022, 15:422–433.

[7]Zhifeng Sun, Qin Wang, Qunfang Wu*, Lan Xiao. A unified common inductor and common capacitor current sharing method for multiphase LLC converter, IEEE Transactions on Power Electronics, 2022, 37(10): 12182-12196.

[8]Qunfang Wu#, Mengqi Wang*, Weiyang Zhou,* Xi Lu, Kewei Xiao, Krishna Bhat and Chingchi Chen. Traction inverter highly accelerated life testing with high-temperature stress. IEEE Transactions on Transportation Electrification, 2021, 7(1): 304-316. 

[9]Qunfang Wu#, Mengqi Wang*, Weiyang Zhou* and Xiaoming Wang. Current balancing of paralleled SiC MOSFETs for a resonant pulsed power converter. IEEE Transactions on Power Electronics, 2020, 35(6): 5557-5561.

[10]Qunfang Wu#*, Qin Wang, Jinyi Zhu, Lan Xiao. Dual-channel push–pull isolated resonant gate driver for high-frequency ZVS full-bridge converters. IEEE Transactions on Power Electronics, 2019, 34(5): 4019-4023.

[11]Qunfang Wu#*, Qin Wang, Jialin Xu and Zilong Xu. Active-clamped ZVS current-fed push-pull isolated DC-DC converter for renewable energy conversion applications. IET Power Electronics, 2018, 11(2):373-381. 

[12]Qunfang Wu#*, Qin Wang, Jinbo Li, Zhong Wang. ZVS three-phase current-fed push-pull converter employing a simple active-clamp circuit for voltage step-up applications, IET Power Electronics, 2018,11(14): 2286-2294.

[13]Qunfang Wu#*, Qin Wang, Jialin Xu, Hongxu Li and Lan Xiao. A high efficiency step-up current-fed push-pull quasi-resonant converter with fewer components for fuel cell application. IEEE Transactions on Industrial Electronics, 2017, 64(8): 6639–6648. 

[14]Qunfang Wu#*, Qin Wang, Jialin Xu and Lan Xiao. Implementation of an active-clamped current-fed push-pull converter employing parallel-inductor to extend ZVS range for fuel cell application. IEEE Transactions on Industrial Electronics, 2017, 64(10): 7919–7929.

[15]Qunfang Wu#*, Qin Wang, Jialin Xu and Lan Xiao. A wide load range ZVS push–pull DC-DC converter with active-clamped. IEEE Transactions on Power Electronics, 2017, 32(4): 2865–2875. 

[16]Qunfang Wu#*, Qin Wang, Jialin Xu and Lan Xiao. A real-time variable turn-off current strategy for a PFC converter with voltage spike limitation and efficiency improvement. IEEE Transactions on Power Electronics, 2016, 31(12): 8031–8036.

[17]Yisheng Yuan, Li Lai*, Qunfang Wu*. A current-fed LCL resonant converter for wide output-voltage applications. IEEE Transactions on Industrial Electronics, 2021, 68(5): 3939-3948.

[18]Zhong Chen#*, Qunfang Wu*, Yisheng Yuan, “A novel zero-voltage-switching push–pull high-frequency-link single-phase inverter,” IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016, 4(2):421-434.

[19]Weiyang Zhou#, Mengqi Wang*, Qunfang Wu*, Xi Lu, Kewei Xiao, Krishna Bhat and Chingchi Chen, “Accelerated life testing method of metallized film capacitors for inverter applications,” IEEE Transactions on Transportation Electrification, 2021, 7(1): 37-49.

[20]Weiyang Zhou#, Mengqi Wang*, Qunfang Wu*. A model-based monitoring method for offline accelerated testing of DC-Link capacitor in three-phase inverter systems. IEEE Transactions on Power Electronics, 2021, 36(1): 4019-4025.

[21]Yiran Lu#, Qunfang Wu, Qin Wang, Dan Liu, Lan Xiao, “Analysis of a novel zero-voltage-switching bidirectional DC/DC converter for energy storage system,” IEEE Transactions on Power Electronics, 2018, 33(4): 3169–3179.

[22]伍群芳#*, 王勤, 徐佳林, 肖岚, 袁义生. 一种电压钳位型ZVS推挽式高频环节DC-AC变换器. 中国电机工程学报, 2017, 37(6): 1787-1796.  31(12): 8031–8036. 

[23]伍群芳*, 陈仲, 王勤, 袁义生.一种负载适应的电流尖峰限制型功率管开通方法. 中国电机工程学报. 2016, 36(8): 2242-2251

[24]Qunfang Wu#*, Mengqi Wang, Weiyang Zhou, Guanliang Liu. Applying coupled inductor to voltage and current balanced between paralleled SiC MOSFETs for a resonant pulsed power converter. IEEE Applied Power Electronics Conference and Exposition (APEC), 2020: 2192-2198.

[25]Qunfang Wu#*, Mengqi Wang, Weiyang Zhou, Can. Huang, et.al. High frequency active-clamped zero-current switching current-fed push-pull converter for micro-converter applications. IEEE Energy Conversion Congress and Exposition (ECCE), 2020: 1273-1278.

[26]Qunfang Wu#*, Mengqi Wang, Weiyang Zhou and Yanghe Liu, High frequency AC power distribution network for electric vehicle auxiliary electrical system. IEEE Energy Conversion Congress and Exposition (ECCE), 2020: 891-896.

[27]Qunfang Wu#*, Mengqi Wang, Weiyang Zhou, Xiaoming Wang. Analytical switching model of a 1200V SiC MOSFET in a high-voltage, high-frequency pulsed power converter for plasma generation. IEEE Energy Conversion Congress and Exposition (ECCE), 2019: 1911-1917.

[28]Qunfang Wu#*, Mengqi Wang, Weiyang Zhou, Qin Wang. A high frequency isolated push-pull resonant gate driver for SiC MOSFET with asymmetrical voltage. IEEE Transportation Electrification Conference (ITEC), 2019: 1-4.


发明专利

[1]伍群芳,姜盟瀚,王勤,肖岚.  一种基于四元矩阵变换器的LLC谐振变换器, 2024-2-2, 中国, ZL 2023 1 0986657.9.

[2]伍群芳,赵文杰,王勤,肖岚. 低纹波低压降的全波HCWDVM倍压整流电路,2024-3-8,中国,ZL 2023 1 1128326.8

[3]伍群芳,宫诚,王勤,肖岚,刘琦,张昕. 一种航空用高功重比多输出三相电机驱动器, 2024-4-26, 中国,ZL 2023 1 1112438.4

[4]伍群芳,张寒,王勤,肖岚.  一种逆变器级宽温区功率器件导通压降在线监测电路,2024-4-26,中国,ZL 2023 1 1128333.8

[5]伍群芳,刘琦,肖岚,王勤. 一种3×3相电机的开相故障容错控制方法,2024-5-24,中国,ZL 2023 1 1577328.5

[6]伍群芳,王勤,徐佳林,陆依然,肖岚. 一种宽负载范围软开关倍流整流型推挽直流变换器, 2021-2-9,中国,ZL 201710483218.0.

[7]伍群芳,王勤,徐佳林,王楚娇,肖岚. 一种软开关三相电流型推挽直流变换器,2021-2-9,中国,ZL 201710483216.1.

[8]伍群芳,王勤,徐佳林,朱津仪,肖岚. 一种宽负载范围软开关电流型推挽直流变换器,2020-11-24,中国,ZL 201710483219.5.

[9]伍群芳,王勤,陈仲,肖岚,徐佳林. 一种电压箝位软开关型推挽直流变换器,2019-1-8,中国,ZL 201510391387.2.

[10]伍群芳,王勤;陈仲;肖岚,徐佳林. 一种单级ZVS型推挽式高频环节DC-AC变换器,2018-10-16,中国,ZL 201510391287.X.

[11]伍群芳,王勤,徐佳林,陈仲,肖岚. 一种倍压软开关型推挽直流变换器,2018-5-8,中国,ZL 201510391126.0.

[12]伍群芳,王勤,陈仲,肖岚,徐佳林. 一种负载适应的电流尖峰限制型功率管开通方法,2018-3-30,中国,ZL 201510391128.X


承担项目

[1]国家自然科学基金面上项目,服役机载变流器时变损伤机制及失效风险动态评估关键技术,2024-2027

[2]173基础加强重点项目课题,高效高功率密度逆变器机理及技术,2022-2024

[3]航空科学基金,基于多模式组合全域ZVS的高效高密度三相SiC机载逆变电源,2023-2025

[4]GF基础科研计划项目,基于模型的板级电路故障定量影响分析技术研究,2024-2025

[5]航空科学实验室基金,高压1kV SiC电机驱动器动态可靠性机理及电磁兼容优化设计,2023-2025

[6]国家高端外国专家引进计划项目,多电飞机电气系统稳定性与可靠性分析方法,2021-2022

[7]江苏省自然科学青年基金,基于关键组件渐变失效的SiC 变流器可靠性动态评估,2021-2024

[8]台达电力电子科教发展计划青年基金,SiC 变流器在线状态监测及可靠性动态评估,2021-2023

[9]中航工业,高压大功率六相容错电机控制器技术,2021-2022

[10]航天科技,国产DC/DC转换器可靠性评估,2020-2021

[11]校企合作研发,先进能量调控器,2024-2025

[12]江苏省电力设计院,可离网型风光氢燃料电池直流互联与稳定控制技术,2021-2022

[13]美国福特汽车公司,Traction inverter input DC side capacitor lifetime testing,2019-2020 

[14]丰田汽车北美研发中心,Study on high frequency alternating current power distribution for EV auxiliary electrical system,2019-2020

[15]美国福特汽车公司,Traction inverter high-temperature reliability test,2018-2019

[16]美国Somnio Grobal公司,High-voltage and high-frequency pulsed power generation systems,2018-2019





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