AEPCL-About LAB

People - Faculty

  •     Dr. Minfan Fu (傅旻帆) Position:  Tenured Associate Professor, Lab Director
  •     Institution:    School of Information Science and Technology, ShanghaiTech Univ.
  •     Address:   Room 534, SIST Building 3, 393 Middle Huaxia Road, Shanghai 201210
  •     Phone: (+8621)20684455 E-mail:  fumf@shanghaitech.edu.cn
  •     SIST Web: https://sist.shanghaitech.edu.cn/fumf/main.htm   Curriculum Vitae(PDF)
  •     Google scholar:   https://scholar.google.com/citations?user=4ZoR55YAAAAJ&hl
  •     Bilibili:   https://space.bilibili.com/519909115

Biography/ 个人简介: 

        Dr. Minfan Fu is a tenured associate professor, principal investigator, and doctoral supervisor at ShanghaiTech University. He obtained his bachelor’s, master’s, and doctoral degrees from UM-SJTU joint institute of Shanghai Jiao Tong University in 2010, 2013, and 2016, respectively. From April 2016 to March 2018, he conducted postdoctoral research at the Center for Power Electronics Systems (CPES) at Virginia Tech. in the United States, under the supervision of Fred C. Lee. In March 2018, he joined the School of Information Science and Technology at ShanghaiTech University.

        Dr. Fu was selected for the Shanghai Yangfan Talent Program, Youth Eastern Scholars Program, and Mingzhu Elite Talent Program. He is a senior member of the IEEE, China Electrotechnical Society (CES), and China Power Supply Society (CPSS), as well as the member for 7 technique committees of the above societies. Currently, Dr. Fu serves as the associate editor for IEEE IES Industrial Electronics Technology News, has been invited nine times to give tutorial presentations at international conferences, and serves as the chair of the organizing committees for ICWPT2021, ICIT2022, ICWPT2022, ASSIST2022, PEDG2023, and as the publication chair for IESES2023. He actively and frequently serves as the track chair for power electronics-related conferences.

        Dr. Fu’s current research focuses on power electronics and microwave radio frequency fields, including wireless power transfer, high-frequency magnetic integration, ultra-high-frequency converters, circuit modeling and control, and applications of wide-bandgap devices. He has published more than 140 IEEE journal and conference papers, and has been cited over 3000 times according to Google Scholar. Since 2019, he has been continuously listed among the top 2% global scientists. He has led research projects funded by the National Natural Science Foundation of China, Ministry of Education Industry-University-Research Cooperation project, and Shanghai Rising Stars Program. Additionally, Dr. Fu has been recognized as an outstanding reviewer for TPEL and an outstanding worker by the CES. Dr. Fu’s “Power Electronics” course has been selected as a first-class undergraduate course, key course, and top-notch course in Shanghai and has received the second prize in the local university section of the 2nd Shanghai Higher Education Teacher Teaching Innovation Competition and the second prize in the inaugural Shanghai Course Ideological and Political Teaching Exhibition. Dr. Fu is currently a well-known Internet celebrity in the field of power electronics, with over 150 course videos recorded and more than 3.9 million views. His “Power Electronics” course ranks second on the Bilibili.


        傅旻帆,上海科技大学长聘副教授、研究员、博士生导师。2010年,2013年及2016年在上海交通大学密西根学院取得本科,硕士及博士学位;2016年4月至2018年3月在美国弗吉尼亚理工大学电力电子中心(CPES)从事博士后研究工作,合作导师为李泽元院士;2018年3月加入上海科技大学信息科学与技术学院,入选上海市科技扬帆英才、青年东方学者、明珠菁英人才项目。现为IEEE 高级会员,中国电工技术学会高级会员,中国电源学会高级会员,中国电源学会无线电能传输技术及装置专业委员会、照明专委会和青年工作委员会委员,中国电工技术学会无线电能传输技术专会委员,担任 IEEE IES Industrial Electronics Technology News副主编,9次受邀在国际会议上做Tutorial特邀报告, 担任ICWPT2021,ICIT2022,ICWPT2022,ASSIST2022,PEDG2023会务主席,担任IESES2023论文发表主席,积极担任电力电子相关会议的轨道主席。他目前主要从事电力电子与微波射频领域的相关研究,具体包括无线电能传输,高频磁集成,超高频变换器,电路建模与控制,宽禁带器件的应用等,其研究成果累计发表IEEE期刊会议论文140余篇,其中一作及通讯顶级期刊40篇,谷歌索引量3000余次,自2019年起连续入选斯坦福大学的全球前2%科学家榜单。主持国家自然科学基金项目、教育部产学研合作项目、和上海市扬帆计划各一项,并担任国家自然科学基金函评专家、上海市科技进步奖函评专家,曾获评IEEE TPEL杰出审稿人和中国电工技术学会优秀工作者。傅博士的《电力电子》课程入选上海市一流本科课程、重点课程、校级精品课程,获第二届上海市高校教师教学创新大赛地方高校正高组二等奖,首届上海市课程思政教学展示活动二等奖。傅博士目前为B站电力电子领域知名Up主,录制课程视频超150个,累计播放超390万次,《电力电子》课程全站排名第二。

Working Experience/工作经历:

        Associate Professor at ShanghaiTech University01/2024 – Present

        Assistant Professor at ShanghaiTech University03/2018 – 01/2024

        Postdoc at Virginia Tech. Center for Power Electronics Systems04/2016 – 03/2018

Education/教育背景:

        Ph.D. in Electronic Science and Technology 04/2013 – 03/2016

        Univ. of Michigan-SJTU Joint Institute, Shanghai Jiao Tong University

        Dissertation Title: “Analysis and Control of Megahertz Wireless Power Transfer Systems”


        M.S. in Electronic Science and Technology 09/2010 - 03/2013

        Univ. of Michigan-SJTU Joint Institute, Shanghai Jiao Tong University

        Thesis Title: “13.56 MHz Wireless Power Transfer System Design and Implementation”


        B.S. in Electrical and Computer Engineering 09/2006 - 08/2010

        Univ. of Michigan-SJTU Joint Institute, Shanghai Jiao Tong University

Research Interest / 研究领域:

        High-frequency power electronics / 高频电力电子

        Wireless power transfer / 磁场耦合式无线电能传输

        Modelling and control of resonant converter / 谐振变换器的建模与控制

        Applications of wide-band-gap devices / 宽禁带功率半导体器件的应用

        Power solutions of implanted devices / 植入式设备供电

Teaching / 教学:

        EE273, Advanced Power Conversion Techniques, Graduate level, 4 credits (2018- Present)

        EE171, Power Electronics, Undergraduate level, 4 credits (2019 - Present)

        EE111, Electronic Circuits, Undergraduate level, 4 credits (2021 Spring)

Honor / 荣誉:

        Mingzhu Elite Talent Program/明珠菁英人才(2023)

        Second prize in the 1st teaching competition of political ideology /首届上海市课程思政教学展示活动二等奖(2023)

        Excellent Mentor of Shangdao College /上道书院优秀导师(2023,2022)

        Science popularization pioneer/科普标兵 (2023)

        Excellent Teacher of ShanghaiTech /上科大优秀教师 (2022,2021)

        Second prize in the teaching innovation competition of Shanghai /第二届上海市高校教师教学创新大赛地方高校正高组二等奖(2022)

        Excellent course program of ShanghaiTech / 上海科技大学精品课程建设项目(2022)

        Outstanding Reviewer Awards of IEEE Trans. Power Electron. / IEEE 电力电子期刊杰出审稿人 (2022)

        Top 2% of scientists in their fields for either single-year impact or career impact /入选斯坦福大学发布全球前2%顶尖科学家 “年度影响力(Single year impact)”榜单(2023,2022,2021,2020)

        SIST Excellence in Research /上科大信息学院优秀科研奖 (2022,2021)

        Excellent volunteer of China Electrotechnical Society /中国电工技术学会先进工作者 (2021)

        Excellent mentor of SIST /上科大信息学院优秀导师组 (2021)

        Shanghai Eastern Scholar /上海市青年东方学者 (2019)

        Excellent Instructor for the Industry Practice /上科大产业实践优秀导师 (2018)

        Shanghai Sailing Program Award /上海市青年科技扬帆英才(2018)

        National scholarship /国家奖学金(2015)

        Top ten research groups of Shanghai Jiao Tong University /上海交大“凯源”十佳科研团队成员 (2014)

        Excellent graduate student scholarship /优秀研究生奖学金(2014)

        Covidien scholarship /科惠奖学金 (2014,2013)

        Annual excellent volunteer for blood donation /上海交大无偿献血先进个人(2012)

        Gold prize in undergraduate capstone /上海交大本科毕业设计金奖 (2010)

People – Ph.D. Student

  • Yifan Jiang (蒋祎璠), 2019 Fall

    2019.9-present, ShanghaiTech University

    2015.9-2019.6, B.S., Shanghai University of Electric Power

    Interests: high-efficiency power amplifier

    Email: jiangyf1@shanghaitech.edu.cn

    Curriculum Vitae[PDF]

  • Heyuan Li (李鹤远), 2020 Fall

    2020.9-present, ShanghaiTech University

    2016.9-2020.6, University of Shanghai for Sci. & Tech.

    Interests: radiation model for WPT

    Email: lihy4@shanghaitech.edu.cn

    Curriculum Vitae[PDF]

  • Xinlin Wang (汪鑫林), 2021 Fall

    2021.9-present, ShanghaiTech University

    2016.9-2020.6, B.S., Hohai University

    Interests: Bidirectional WPT

    Email: wangxl3@shanghaitech.edu.cn

    Curriculum Vitae[PDF]

  • Siyi Yao (姚思逸), 2022 Fall

    2022.9-present, ShanghaiTech University

    2018.9-2022.6, B.S., ShanghaiTech University

    Interests: Three-port WPT

    Email: yaosy2022@shanghaitech.edu.cn

    Curriculum Vitae[PDF]

  • Zhongchang Li (李忠昶), 2022 Fall

    2022.9-present, ShanghaiTech University

    2017.9-2021.6, B.S., Shanghai Jiaotong University

    Interests: Wireless OBC

    Email: lizhch2022@shanghaitech.edu.com

    Curriculum Vitae[PDF]

  • Ziyuan Li (林自远), 2024 Fall

    2024.9-present, ShanghaiTech University

    2020.9-2024.6, B.S., ShanghaiTech University

    Interests:

    Email:

    Curriculum Vitae[PDF]

People – M.S. Student

  • Tianqi Li (李天琦), 2022 Fall

    2022.9-present, B.S., ShanghaiTech University

    2018.9-2022.6, B.S., Zhejiang University

    Interests: modeling of resonant converters

    Email: litq2022@shanghaitech.edu.cn

    Curriculum Vitae[PDF]

  • Kunxiao Zhou (周昆晓), 2022 Fall

    2022.9-present, ShanghaiTech University

    2018.9-2022.6, B.S., ShanghaiTech University

    Interests: modular design of resonant converters

    Email: zhoukx2022@shanghaitech.edu.cn

    Curriculum Vitae[PDF]

  • Shiqi Gao (高士齐), 2023 Fall

    2023.9-present, ShanghaiTech University

    2019.9-2023.6, B.S., ShanghaiTech University

    Interests: high-efficiency power amplifier

    Email: gaosq2023@shanghaitech.edu.cn

    Curriculum Vitae[PDF]

  • Xiang Gao (高翔), 2023 Fall

    2023.9-present, ShanghaiTech University

    2019.9-2023.6, B.S., ShanghaiTech University

    Interests: resonant converters design with ML

    Email: gaoxiang2023@shanghaitech.edu.cn

    Curriculum Vitae[PDF]

  • Pengyu Chen (陈鹏宇), 2023 Fall

    2023.9-present, ShanghaiTech University

    2018.9-2022.6, B.S., Harbin Institute of Technology

    Interests: Implantable WPT

    Email: chenpy2023@shanghaitech.edu.cn

    Curriculum Vitae[PDF]

  • Jinwen Tian (田锦闻), 2024 Fall

    2024.9-present, ShanghaiTech University

    2020.9-2024.6, B.S., Hubei University of Technology

    Interests:

    Email:

    Curriculum Vitae[PDF]

  • Zihao Zhang (张子豪), 2024 Fall

    2024.9-present, ShanghaiTech University

    2020.9-2024.6, B.S., Shandong University

    Interests:

    Email:

    Curriculum Vitae[PDF]

People – Alumni

Dual Column Layout Dual Column Layout

Guangce Zheng (郑广策)

Ph.D., 2019 – 2024, University of Chinese Academy of Sciences.

B.S., 2015 – 2019, ShanghaiTech University.

Thesis: Modeling and Control of Inductive Power Transfer System [PDF]

First position after graduation: Sungrow Power Supply Co.

Email: zhenggc@shanghaitech.edu.cn

Guangdong Ning (宁广栋)

Ph.D., 2019 – 2024, University of Chinese Academy of Sciences.

B.S., 2013 – 2017, Nanjing University of Aeronautics and Astronautics.

Thesis: Modular Design of Planar Multi-Coil Inductive Power Transfer System [PDF]

First position after graduation: Delta Corporation

Email: ninggd@shanghaitech.edu.cn

Xiaoxuan Ji (吉晓璇)

M.S., 2021 – 2024, ShanghaiTech University.

B.S., 2017 – 2021, Central South University.

Thesis: [PDF]

First position after graduation: Delta Corporation

Email: jixx@shanghaitech.edu.cn

Chaoqun Qi (祁超群)

M.S., 2021 – 2024, ShanghaiTech University.

B.S., 2017 – 2021, Jilin University.

Thesis: [PDF]

First position after graduation: Study Abroad

Email: qichq@shanghaitech.edu.cn

Peng Zhao (赵鹏)

Ph.D., 2018 – 2023, University of Chinese Academy of Sciences.

B.S., 2013 – 2017, Hefei University of Technology.

Thesis: Inductive Power Transfer System with High Spatial Freedom [PDF]

First position after graduation: BYD

Email: zhaopeng@shanghaitech.edu.cn

Rong He (贺蓉)

Ph.D., 2018 – 2023, University of Chinese Academy of Sciences.

B.S., 2014 – 2018, Harbin Institute of Technology.

Thesis: Analysis and Control of Multi-coil Wireless Power Transfer Systems [PDF]

First position after graduation: Huawei

Email: herong@shanghaitech.edu.cn

Yiming Yin (尹毅明)

M.S., 2020 – 2023, ShanghaiTech University.

B.S., 2016 – 2020, ShanghaiTech University.

Thesis: Analysis and Design of a Low-radiation Integrated Receiver for Inductive Power Transfer [PDF]

First position after graduation: Monolithic Power Systems, Inc.

Email: yinym@shanghaitech.edu.cn

Maode Zhou (周茂德)

M.S., 2020 – 2023, ShanghaiTech University.

B.S., 2015 – 2019, Shanghai University.

Thesis: Evaluation and Optimizaion of Signal Transfer Circuit for Simultaneous Wireless Power and Data Transfer Systems [PDF]

First position after graduation: HIKVISION

Email: zhoumd1@shanghaitech.edu.cn

Kai Zhao (赵凯)

M.S., 2019 – 2022, ShanghaiTech University.

B.S., 2015 – 2019, Xi'an University of Technology.

Thesis: A 2TX-1RX Wireless Power Transfer System Based on Cascade Bridges Driving and Unsymmetrical Compensation Networks [PDF]

First position after graduation: NuVolta Technologies

Email: zhaokai@shanghaitech.edu.cn

Yipeng Liu (刘一鹏)

M.S., 2018 – 2021, University of Chinese Academy of Sciences.

B.S., 2014 – 2018, Hefei University of Technology.

Thesis: Design and Optimization of Capacitive Coupler for Wireless Power Transfer [PDF]

First position after graduation: Hardware engineer at Huawei

Email: liuyp@shanghaitech.edu.cn

Shiying Wang (王世颖)

M.S., 2017 – 2020, University of Chinese Academy of Sciences.

B.S., 2013 – 2017, Guangzhou University.

Thesis: Modeling and High-Order Compensation of Capacitive Power Transfer System [PDF]

First position after graduation: Ph.D. candidate at University of Wisconsin–Madison

Email: swang953@wisc.edu

Course

  • 课程名称:电力电子
  • 课程性质:本科生选修课
  • 课时学分:64学时,4学分
  • 学生对象:大二至大四本科生,可来自不同专业

课程简介:电力电子(Power Electronics)这一名称是在上世纪60年代出现的,它是由电子学、电力学和控制理论三个学科交叉而形成的。电力电子利用半导体电子器件实现电能变换,有时也称为功率电子技术,目前在社会生产与生活中有着广泛的应用。例如,将交流电能变换成直流电能或将直流电能变换成交流电能;将工频电源变换为设备所需频率的电源;在正常交流电源中断时,用逆变器(见电力变流器)将蓄电池的直流电能变换成工频交流电能。应用电力电子技术还能实现非电能与电能之间的转换。例如,利用太阳电池将太阳辐射能转换成电能。与信息电子技术不同,电力电子技术变换的电能是作为能源而不是作为信息传感的载体。《电力电子》是电气工程专业必修的学科专业课,是应用于电力领域的电子技术,主要研究如何使用电力电子器件对电能进行变换和控制。本课程主要讲授电力电子的应用,基本功率半导体器件的特性,不同应用场景中的电能转换电路,使学生了解并掌握该领域的基本原理和电路分析方法。本门课程教学目标的设立综合考虑了国家战略,学科内容,与学校定位。从国家层面看,课程需要服务国家“双碳”战略,培养新一代“电气”人,引导其建立专业归属感与民族自豪感。从学科层面,电力电子是电气工程一级学科下五大二级学科之一,期望培养学生具备以下能力:1)了解电力电子应用场景;2)理解基本功率器件的特性;3)掌握该领域的原理和分析方法;4)熟悉不同应用中的电能转换电路。从学校层面看,本校强调“小规模、高水平、国际化”的办学风格,鼓励采取小班教学,通过学科交叉融合,培养一批科研能力强的高水平复合型人才。
  

  • 课程名称:高级电能变换技术
  • 课程性质:本研一体专业课
  • 课时学分:64学时,4学分
  • 学生对象:高年级本科生与研究生

课程简介:电力电子是一门赋能型的应用学科,重点关注将某种形式的电能转换成特定负载所需要的形式,此类电路被广泛地应用于工业自动化、消费电子、轨道交通、航空航天、电力系统、数据中心、通信网络、物联网中。在不同的应用场景中,电力电子变换器的功率等级、输出电压电流特性、效率指标、可靠性需求,动态响应需求差异极大。研发人员需要在理解电力电子基本原理的基础上,熟练掌握并合理运用各种高级的电能变换技术,充分发挥不同功率半导体器件的优势,掌握多目标设计,把握设计的平衡点,定制化的开发出最适配的功率电路。本门课程将围绕电力电子的谐振变换技术展开,主要涵盖:串联谐振变换器,并联谐振变换器,LLC谐振变换器,ZVS准谐振变换器,ZCS准谐振变换器,多谐振变换器,PWM变换器的谐振软开关技术,无线电能传输系统中的高阶谐振变换器,超高频谐振变换器等。作为一门科研导向型的专业进阶课程,课程内容将不断更新,紧跟电力电子的最新技术与动态。

Tutorials

[T1]. “Modelling and Control of Wireless Power Transfer System: State of the Art”, IEEE International Power Electronics and Motion Control Conference (IPEMC), Chengdou, China, May 17-20, 2024.
[T2]. “Modelling, Stability Analysis, and Control of Wireless Power Transfer System”, IEEE International Power Electronics and Application Symposium (PEAS), Guangzhou, China, Nov. 10-13, 2023.
[T3]. “Modelling, stability analysis, and control of grid-connected wireless power transfer system”, IEEE International Symposium on Power Electronics for Distributed Generation (PEDG), Shanghai, China, June 9–12, 2023.
[T4]. “MHz Wireless Power Transfer: Architecture, Topology, and Design”, International Conference on Wireless Power Transfer (ICWPT), Chongqing, China, Dec. 2-4, 2022.
[T5]. “Analysis and Design of Near-Field Couplers for Wireless Power Transfer”, International Conference on Industrial Informatics (INDIN), Perth, Australia, July 25-28, 2022.
[T6]. "Analysis and Design of Near-Field Couplers for Wireless Charging Applications", IEEE International Power Electronics and Application Symposium (PEAS), Shanghai, China, Nov. 12-15, 2021.
[T7]. "Emerging Applications and Designs of High Frequency Wireless Power Transfer Systems", IEEE International Symposium on Industrial Electronics (ISIE), Kyoto, Japan, June 20-23, 2021.
[T8]. “Multi-Megahertz Wireless Power Transfer Systems”, IEEE International Power Electronics and Motion Control Conference (IPEMC), Nanjing, China, Nov. 29-Dec. 3, 2020.
[T9]. "System-Level Design and Optimization of Multi-Megahertz Wireless Power Transfer Systems", IEEE International Symposium on Industrial Electronics (ISIE), Delft, The Netherlands, June 17-19, 2020.

Patents

[P1]. K. Zhao, M. Fu, G. Ning, and R. He,“A Driving Circuit and Compensation Solution for Wireless Charging System Using Two Coils in Transmitter or Receiver”, Chinese patent, 2021
[P2]. S. Gao, Y. Liu, and M. Fu, “A Capacitive Coupler with Low Radiation”, Chinese patent, 2021
[P3]. P. Zhao, M. Fu, and X. Ji, “A Wireless Charger Based on H5 Bridge”, Chinese patent, 2021
[P4]. M. Zhou, M. Fu, and Y. Jiang, “A Simultaneous Power and Information Transfer System Based on Single-Switch Resonant Converter”, Chinese patent, 2021
[P5]. Y. Yin, M. Fu, and H. Li, “An Integrated Receiver for Wireless Charging”, Chinese patent, 2021
[P6]. H. Li, Y. Liu, M. Fu, and Y. Yin, “A Circular Capacitive Coupler”, Chinese patent, 2021
[P7]. G. Zheng, M. Fu, and C. Qi, “A controller for IPT System Using Small-signal Model”, Chinese patent, 2020
[P8]. M. Fu, R. He, G. Ning, and X. Wang, “A Research and Development Platform for High-power IPT Systems”, Chinese patent, 2020
[P9]. M. Fu, P. Zhao, X. Ji, K. Chao, and X. Yu, “Function Extension of Standard Wireless Charger Based on Power Relay Module”, Chinese patent, 2020
[P10]. P. Zhao, M. Zhou, and M. Fu, “Planar Inductive Coupler Using Switchable Relay Coils”, Chinese patent, 2020
[P11]. Y. Jiang, and M. Fu, “Load-independent High-efficiency Class E Converters”, Chinese patent, 2020
[P12]. Y. Liu, and M. Fu, “Interleaved Capacitive Coupler”, Chinese patent, 2020
[P13]. S. Wang, and M. Fu, “High-order Compensations for Capacitive Coupler”, Chinese patent, 2020
[P14]. G. Ning, and M. Fu, “A Current Balancing Method for Two-Phase Inductive Power Transfer System”, Chinese Patent, 2019.
[P15]. M. Fu, and P. Zhao, “A Novel Wireless Fast Charger with Single Isolation Stage”, Chinese Patent, 2019.
[P16]. M. Fu, and S. Wang, “A Capacitive Coupling Based Charger with Constant Output Voltage”, Chinese Patent, 2019.
[P17]. J. Feng, Q. Li, F. Lee, and M. Fu, “Omnidirectional Wireless Power Transfer System”, U.S. Patent No. 15/417,353. 27 Jan. 2017.

Journal Publication

( name*: corresponding author ;  name: suppervised students )


[J1]. G. Zheng , T. Li ,X. Wang ,M. Fu*, “Stability and Controller Design of a Two-Stage IPT System”, IEEE Transactions on Industrial Electronics, early access.
[J2]. J. Qiu, H. Wang, Y. Liu, M. Fu, and J. Liang*, “A synchronous current inversion and energy extraction circuit for electromagnetic energy harvesting enhancement”, IEEE Transactions on Circuits and Systems I: Regular Papers, in press.
[J3]. J. Liang, L. Wang, J. Liang, M. Fu, T. Long, and H. Wang*, J. Liang and H. Wang, “A switched-capacitor and series-resonant hybrid MHz DCX in data center applications”, IEEE Transactions on Power Electronics, in press.
[J4]. J. Liang, Y. Qin, Y. Liu, M. Fu, and H. Wang*, “Phase shift regulated resonant switched capacitor based intermediate bus converter for 48V data center power system”, IEEE Transactions on Industrial Electronics, in press.
[J5]. M. Zhou, H. Li, and M. Fu*, “High-order Data Transfer Circuits for Simultaneous Wireless Power and Data Transfer Systems”, IEEE Journal of Emerging and Selected Topics in Power Electronics, early access.
[J6]. H. Li and M. Fu*, “Evaluation and Suppression of High Frequency Radiated EMI in Inductive Power Transfer System”, IEEE Transactions on Power Electronics, early access.
[J7]. C. Qi , G. Zheng ,Y. Liu, H. Wang, and M. Fu*, “A Linearized Large-signal Model for Inductive Power Transfer System Using Series Compensation”, IEEE Transactions on Industrial Electronics, early access.
[J8]. K. Yue, Y. Liu*, X. Zhang, M. Fu, J. Liang and H. Wang, “Transmitter Side Voltage Based Mutual Inductances and Load Tracking for Two-Transmitter LCC-S Compensated Wireless Power Transfer Systems”, IEEE Journal of Emerging and Selected Topics in Power Electronics, early access.
[J9]. L. Gao, L. Teng, H. Wang, Y. Liu, M. Fu and J. Liang*, “A Self-Sensing Synchronous Switch Circuit for Bidirectional Piezoelectric Energy Conversion”, IEEE Transactions on Industrial Electronics, early access.
[J10]. Y. Li*, J. Chen, Y. Liu, X. Zhao, M. Fu and Z. He, “An Accurate Modeling and Suppression Method for Current Imbalance in Dual-Receiver WPT Systems for Low-voltage and High-current Applications”, IEEE Transactions on Transportation Electrification, early access.
[J11]. Y. Zhuge, J. Liang, M. Fu, T. Long and H. Wang*, “Comprehensive Overview of Power Electronics Intensive Solutions for High-Voltage Pulse Generators”, IEEE Open Journal of Power Electronics, vol. 5, pp. 1-20, Mar. 2024.
[J12]. Z. Li, G. Ning, K. Zhao, H. Wang, Y. Liu and M. Fu*, “A Dual-Mode Wireless Charger Based on Cascaded Rectifier and Hybrid Compensation”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 71, no. 3, pp. 1466-1470, Mar. 2024.
[J13]. Y. Jiang, J. Liang, H. Wang, Y. Liu and M. Fu*, “Load-Impedance-Insensitive Design of High-Efficiency Class EF Inverters”, IEEE Transactions on Power Electronics, vol. 39, no. 2, pp. 1958-1962, Feb. 2024.
[J14]. X. Wang, R. He, J. Liang, H. Wang, and M. Fu*, “Modified LCC Compensation and Magnetic Integration for Inductive Power Transfer”, IEEE Journal of Emerging and Selected Topics on Power Electronics, vol. 12, no. 1, pp. 186-194, Feb. 2024.
[J15]. B. Xue, L. Wang, P. Zhao, M. Fu, J. Liang and H. Wang*, “Decoupled State-Plane Analysis of Series–Series Compensated Bidirectional IPT Systems”, IEEE Transactions on Power Electronics, vol. 39, no. 1, pp. 42-46, Jan. 2024.
[J16]. T. Li, M. Fu, H. Wang, Y. Liu and J. Liang*, “A Three-transistor Energy Management Circuit for Energy-harvesting-powered IoT Devices”, IEEE Internet of Things Journal, vol. 11, no. 1, pp. 1301-1310, Jan. 2024.
[J17]. B. Xue, L. Liang, M. Fu and H. Wang*, “State-Space Based Universal Time-Domain Model for Voltage-Fed Bidirectional IPT Systems”, IEEE Transactions on Industrial Electronics, vol. 71, no. 1, pp. 615-624, Jan. 2024.
[J18]. R. He, B. Xue, M. Zhou, M. Fu, J. Liang, Y. Liu and H. Wang*, “Resonant Frequency Tracking Scheme for LLC Converter Based on Large and Small Signal Combined Model”, IEEE Access, vol. 11, pp. 83390-83399, Nov. 2023.
[J19]. R. He, X. Wang, H. Wang, and M. Fu*, “Optimal Terminals of a Multitransmitter Multireceiver Inductive Coupler With Equality Power Constraints”, IEEE Transactions on Power Electronics, vol. 38, no. 10, pp. 11953-11963, Oct. 2023.
[J20]. Y. Yin, H. Li, S. Gao, Y. Li, X. Zhang and M. Fu*, “A Simple Integrated and Low-Radiation Receiver for Inductive Power Transfer”, IEEE Transactions on Power Electronics, vol. 38, no. 10, pp. 11776-11785, Oct. 2023.
[J21]. P. Zhao, H. Wang, J. Liang and M. Fu*, “Detuned LCC/S-S Compensation for Stable-Output Inductive Power Transfer System Under UltraWide Coupling Variation”, IEEE Transactions on Power Electronics, vol. 38, no. 10, pp. 12342-12347, Oct. 2023.
[J22]. Z. Xie, L. Teng, H. Wang, Y. Liu, M. Fu and J. Liang*, “A Self-Powered Synchronous Switch Energy Extraction Circuit for Electromagnetic Energy Harvesting Enhancement”, IEEE Transactions on Power Electronics, vol. 38, no. 8, pp. 9972-9982, Aug. 2023.
[J23]. G. Ning, K. Zhou, J. Liang, H. Wang, and M. Fu*, “Reconfigurable and Modular Wireless Charger Based on Dual-Band Design”, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 70, no. 9, pp. 3524-3528, Sep. 2023.
[J24]. P. Zhao, X. Ji, H. Wang, and M. Fu*, “H5-Bridge-Based Bowl-Shape Wireless Charger for Multiple Loads”, IEEE Transactions on Industrial Electronics, vol. 70, no. 9, pp. 8853-8861, Sep. 2023.
[J25]. M. Zhou, C. Peng, M. Fu, J. Liang and H. Wang*, “Current Zero-Crossing Prediction Based Critical Conduction Mode Control of Totem-Pole PFC Rectifiers”, IEEE Transactions on Power Electronics, vol. 38, no. 7, pp. 8513-8527, July 2023.
[J26]. K. Yue, Y. Liu*, M. Fu, J. Liang and H. Wang, “Mode Switching Based Parameter Identification for 2TX-1RX Wireless Power Transfer Systems”, IEEE Access, vol. 11, pp. 46847-46859, July 2023.
[J27]. L. Gao, L. Teng, M. Fu, H. Wang, and J. Liang*, “A Switched-mode Self-sensing Solution for Piezoelectric Synchronous Electric Charge Extraction”, IEEE Transactions on Industrial Electronics, vol. 70, no. 7, pp. 7457-7466, July 2023.
[J28]. X. Ji, P. Zhao, H. Wang, Z. Yang and M. Fu*, “Multiple-Receiver Inductive Power Transfer System Based on Multiple-Coil Power Relay Module”, IEEE Transactions on Circuits and Systems I: Regular Papers, vol. 70, no. 6, pp. 2625-2634, June 2023.
[J29]. C. Qi, G. Zheng, J. Liang, Y. Liu, H. Wang, and M. Fu*, “A Simplified Three-order Small-signal Model for Capacitive Power Transfer System Using Series Compensation”, IEEE Transactions on Power Electronics, vol. 38, no. 5, pp. 5688-5692, May 2023.
[J30]. Y. Jiang, H. Li, Y. Liu, J. Liang and M. Fu*, “Multi-Constraint Design of Single-Switch Resonant Converters Based on Extended Impedance Method”, IEEE Journal of Emerging and Selected Topics on Power Electronics, vol. 11, no. 2, pp. 1901-1912, April 2023.
[J31]. K. Zhao, G. Ning, R. He, H. Yang, H. Wang, and M. Fu*, "An Unsymmetrical Driving Scheme for Inductive Power Transfer Systems Using Decoupled Transmitter Coils", IEEE Journal of Emerging and Selected Topics on Industrial Electronics, vol. 4, no. 2, pp. 614-624, April 2023.
[J32]. H. Li, Y. Liu, and M. Fu*, “Circular Capacitive Coupler with Multilayer Interleaving for Stable Output”, IEEE Transactions on Microwave Theory and Techniques, vol. 71, no. 2, pp. 719-726, Feb. 2023.
[J33]. L. Wang, H. Wang*, M. Fu, J. Liang, and Y. Liu, “A Three-Port Energy Router for Grid-Tied PV Generation Systems with Optimized Control Methods”, IEEE Transactions on Power Electronics, vol. 38 no. 1, pp. 1577-1582, Jan. 2023.
[J34]. G. Zheng, C. Qi, J. Liang, Y. Liu, H. Wang, and M. Fu*, “Uniform and Simplified Small-Signal Model for Inductive Power Transfer Systems”, IEEE Transactions on Power Electronics, vol. 38 no. 2, pp. 658-664, Jan. 2023.
[J35]. Y. Gao, Z. Chen, H. Wang, Y. Liu, M. Fu, J. Liang*, “A Load-Independent Fission-Type Inductive Power Transfer System for 3D Reconfigurable IoT Array”, IEEE Access, vol. 11, pp. 8878-8888, Jan. 2023.
[J36]. Z. Wei, H. Wang*, Y. Lu, D. Shu, G. Ning, and M. Fu*, “Bidirectional constant current string-to-cell battery equalizer based on L2C3 resonant topology”, IEEE Transactions on Power Electronics, vol. 38, no. 1, pp. 666-577, Jan. 2023.
[J37]. R. He, P. Zhao, G. Ning, K. Yue, Y. Liu, and M. Fu*, “Optimal Driving and Loading Scheme for Multiple-Receiver Inductive Power Transfer Systems”, IEEE Transactions on Industrial Electronics, vol. 69, no. 12, pp. 12665-12675, Dec. 2022.
[J38]. R. He, X. Wang, M. Fu*, “Maximized Efficiency of Multi-coil Inductive Power Transfer System”, Journal of Power Supply, vol. 20, no. 6, pp. 102-110, Nov. 2022. (Chinese)
[J39]. G. Zheng, K. Zhao, H. Wang, J. Liang, M. Fu*, “Small-Signal Model for Inductive Power Transfer Systems Using LCC-S Compensation”, Transactions of China Electrotechnical Society, vol. 37, no. 21, pp. 5369-5376, Nov. 2022. (Chinese)
[J40]. Y. Gao, M. Fu, H. Wang and J. Liang, "A 2-D Inductive Power Transfer Network for Powering Massive Neighboring IoT Devices", IEEE Access, vol. 10, pp. 113560-113569, Oct. 2022.
[J41]. J. Liang, L. Wang, M. Fu, J. Liang and H. Wang*, "Overview of Voltage Regulator Modules in 48 V Bus-based Data Center Power Systems", CPSS Transactions on Power Electronics and Applications, vol. 7, no. 3, pp. 283-299, Sep. 2022.
[J42]. Y. Yin, H. Li, and M. Fu*, “Inductive Coupler Analysis Based on Scattering Parameters with Non-Standard Terminal Impedance", IEEE Journal of Emerging and Selected Topics on Industrial Electronics, vol. 3, no. 4, pp. 12665-12675, Sep. 2022.
[J43]. S. Wang, R. He, J. Liang, and M. Fu*, “High-Order Compensated Capacitive Power Transfer Systems with Coupling Independent Resonance", IEEE Transactions on Circuits and Systems I: Regular Papers, vol. 69, no. 8, pp. 3450-3460, Aug. 2022.
[J44]. G. Ning, K. Zhao and M. Fu*, “A Passive Current Sharing Method for Multi-Transmitter Inductive Power Transfer Systems", IEEE Transactions on Industrial Electronics, vol. 69, no. 5, pp. 4617-4626, May 2022.
[J45]. L. Wang, M. Fu, H. Wang*, Z. Xie, and J. Liang, “Three-Port Power Electronic Interface with Decoupled Voltage Regulation and MPPT in Electromagnetic Energy Harvesting Systems", IEEE Transactions on Industry Application, vol. 58, no. 2, pp. 2144-2154, March-April 2022.
[J46]. G. Zheng, P. Zhao, H. Li, and M. Fu*, “Small-Signal Model of an Inductive Power Transfer System Using LCC–LCC Compensation", IEEE Transactions on Industry Applications, vol. 58, no. 1, pp. 1201-1210, Jan.-Feb. 2022.
[J47]. P. Zhao, M. Zhou, Y. Jiang, and M. Fu*, “Horizontal Charging Area Extension Based on Switchable Relay Coils”, IEEE Transactions on Industry Applications, vol. 58, no. 1, pp. 1071-1080, Jan.-Feb. 2022.
[J48]. Y. Liu, T. Wu, and M. Fu*, “Interleaved Capacitive Coupler for Wireless Power Transfer”, IEEE Transactions on Power Electronics, vol. 36, no. 12, pp. 13526-13535, Dec. 2021.
[J49]. J. Kang*, Y. Liu, L. Sun, Z. Zhong, and M. Fu, “A Reduced-Order Model for Wirelessly Excited Machine Based on Linear Approximation”, IEEE Transactions on Power Electronics, vol. 36, no. 11, pp. 12389-12399, Nov. 2021.
[J50]. P. Zhao, G. Zheng, R. He, Y. Liu and M. Fu*, “A 45-W Two-Stage Wireless Fast Charger Using Unregulated Inductive Power Transfer”, IEEE Journal of Emerging and Selected Topics in Industrial Electronics, vol. 2, no. 3, pp. 287-296, July 2021.
[J51]. J. Feng*, Q. Li, F. Lee, and M. Fu, “LCCL-LC Resonant Converter and Its Soft Switching Realization for Omnidirectional Wireless Power Transfer Systems”, IEEE Transactions on Power Electronics, vol.36, no.4, pp. 3828-3839, April 2021.
[J52]. X. Li, L. Teng, H. Tang, J. Chen, H. Wang, Y. Liu, M. Fu, and J. Liang*, “ViPSN: a vibration-powered IoT platform”, IEEE Internet of Things Journal, vol.8, no.3, pp. 1728-1739, Feb. 2021.
[J53]. K. Yue, Y. Liu*, P. Zhao, B. Wang, M. Fu, and H. Wang, “Dynamic State Estimation Enabled Health Indicator for Parametric Fault Detection in Switching Power Converters”, IEEE Access, vol.9, 33224-33234, Feb. 2021.
[J54]. S. Wang, J. Liang, and M. Fu*, “Analysis and Design of Capacitive Power Transfer Systems Based on Induced Voltage Source Model”, IEEE Transactions on Power Electronics, vol.35, no.10, pp. 10532-10541, Oct. 2020.
[J55]. Y. Liu, B. Wang, X. Zheng*, D. Lu, M. Fu and N. Tai, “Fault Location Algorithm for Non-Homogeneous Transmission Lines Considering Line Asymmetry”, IEEE Transactions on Power Delivery, vol.35, no.5, pp. 2425 - 2437, Oct. 2020.
[J56]. M. Fu*, C. Fei, Y. Yang, Q. Li, and F. Lee, “A GaN-Based DC-DC Module for Railway Applications: Design Consideration and High-Frequency Digital Control”, IEEE Transactions on Industrial Electronics, vol.67, no.2, pp.1638-1647, Feb. 2020.
[J57]. R. He, P. Zhao, M. Fu*, Y. Liu, H. Wang, and J. Liang, “Decomposition and Synthesis of High-Order Compensation Inductive Power Transfer Systems for Improved Output Controllability”, IEEE Transactions on Microwave Theory and Technique, vol.67, no.11, pp. 4514-4523, Nov. 2019.
[J58]. J. Feng*, Q. Li, Fred C. Lee, and M. Fu, “Transmitter Coils Design for Free-Positioning Omnidirectional Wireless Power Transfer System”, IEEE Transactions on Industrial informatics, vol.15, no.8, pp. 4656-4664, Aug. 2019.
[J59]. M. Fu*, C. Fei, Y. Yang, Q. Li, and Fred C. Lee, “Optimal Design of Planar Magnetic Components for A Two-Stage GaN-Based DC-DC Converter”, IEEE Transactions on Power Electronics, vol.34, no.4, pp. 3329-3338, April 2019.
[J60]. M. Fu, Z. Tang, and C. Ma*, “Analysis and Optimized Design of Compensation Capacitors for A Megahertz WPT System Using Full-Bridge Rectifier”, IEEE Transactions on Industrial Informatics, vol.15, no.1, pp. 95-104, Jan. 2019.
[J61]. X. Lu, Y. Chen, M. Fu, and H. Wang*, “Multi-Objective Optimization Based Real-Time Control Strategy for Battery/Ultracapacitor Hybrid Energy Management Systems”, IEEE Access, vol.7, 11640-11650, Jan. 2019.
[J62]. H. Yin, M. Fu, M. Liu, J. Song, and C. Ma*, “Autonomous Power Control in A Reconfigurable 6.78-MHz Multiple-Receiver Wireless Charging System”, IEEE Transactions on Industrial Electronics, vol.65, no.8, pp. 6177-6187, Aug. 2018.
[J63]. M. Fu, C. Zhao, J. Song, and C. Ma*, “A Low-Cost Voltage Equalizer Based on Wireless Power Transfer and Voltage Multiplier”, IEEE Transactions on Industrial Electronics, vol.65, no.7, pp. 5487-5496, July 2018.
[J64]. M. Fu, H. Yin, M. Liu, Y. Wang, and C. Ma*, “A 6.78MHz Multiple-Receiver Wireless Power Transfer System with Constant Output Voltage and Optimum Efficiency”, IEEE Transactions on Power Electronics, vol.33, no.6, pp. 5330-5340, June 2018.
[J65]. M. Liu, M. Fu, C. Ma*, “Battery Cell Equalization via Megahertz Multiple-Receiver Wireless Power Transfer”, IEEE Transactions on Power Electronics, vol.33, no.5, pp. 4135-4144, May 2018.
[J66]. M. Fu, H. Yin, and C. Ma*, “Megahertz Multiple-Receiver Wireless Power Transfer Systems with Power Flow Management and Maximum Efficiency Point Tracking”, IEEE Transactions on Microwave Theory and Techniques, vol.65, no.11, 4285-4293, Nov. 2017.
[J67]. M. Liu, M. Fu, and C. Ma*, “Low-Harmonic-Contents and High-Efficiency Class E Full-Wave Current-Driven Rectifier for Megahertz Wireless Power Transfer Systems”, IEEE Transactions on Power Electronics, vol. 32, no. 2, pp. 1198-1209, Feb. 2017.
[J68]. M. Fu, H. Yin, M. Liu, and C. Ma*, “Loading and Power Control for A High-Efficiency Class E PA Driven Megahertz WPT System”, IEEE Transactions on Industrial Electronics, vol. 63, no. 11, pp. 6867-6876, Nov. 2016.
[J69]. M. Liu, M. Fu and C. Ma*, “Parameter Design for A 6.78-MHz Wireless Power Transfer System Based on Analytical Derivation of Class E Current-Driven Rectifier”, IEEE Transactions on Power Electronics, vol. 31, no. 6, pp. 4280-4291, June 2016.
[J70]. M. Fu, T. Zhang, P. Luk , X. Zhu, and C. Ma*, “Compensation of Cross Coupling in Multiple-Receiver Wireless Power Transfer Systems”, IEEE Transactions on Industrial Informatics, vol. 12, no. 2, pp. 474-482, April 2016.
[J71]. M. Fu, H. Yin, X. Zhu, and C. Ma*, “Analysis and Tracking of Optimal Load in Wireless Power Transfer Systems”, IEEE Transactions on Power Electronics, vol. 30, no. 7, pp. 3952–3963, July 2015.
[J72]. M. Fu, T. Zhang, C. Ma, and X. Zhu*, “Efficiency and Optimal Loads Analysis for Multiple-Receiver Wireless Power Transfer Systems”, IEEE Transactions on Microwave Theory and Techniques, vol. 63, no. 3, pp. 801–812, March 2015.
[J73]. M. Fu, T. Zhang, C. Ma*, X. Zhu, “Wireless Power Transfer Using Magnetic Resonance Coupling: Basic Considerations and Practices”, Transactions of China Electrotechnical Society, vol. 30, sup. 1, pp.6-12, 2015. (Chinese)
[J74]. M. Fu, C. Ma, and X. Zhu*, “A Cascaded Boost-Buck Converter for High Efficiency Wireless Power Transfer Systems”, IEEE Transactions on Industrial Informatics, vol. 10, no. 3, pp. 1972–1980, Aug. 2014.
[J75]. F. Wang, Y. Wang*, and M. Fu, “Efficiency Optimization in Low and Medium Power Range of New Energy Grid-connected Three-level Inverter”, Automation of Electric Power Systems, vol. 38, sup. 3, pp.101-105, Feb. 2014. (Chinese)

Conference Publication

[C1]. T. Li, G. Zheng, and M. Fu, “Small-signal model of S-S Compensated IPT System with Coupling Variation”, 2024 10th International Power Electronics and Motion Control Conference (IPEMC 2024 - ECCE Asia), Chengdu, China, May. 17-20, 2024.
[C2]. W. Sun, Y. Jiang, H. Wang, J. Liang and M. Fu, “Load-Insensitive Design of Class E Inverter Based on Inequality Constraints”, 2024 10th International Power Electronics and Motion Control Conference (IPEMC 2024 - ECCE Asia), Chengdu, China, May. 17-20, 2024.
[C3]. S. Gao, Y. Jiang, M. Fu, “A High Efficiency Active Class E Rectifier Over A Load Range”, 2024 IEEE 7th International Electrical and Energy Conference (CIEEC), Harbin, China, May. 10-12, 2024.
[C4]. P. Zhao, X. Ji, X. Wang, M. Fu, “Achieving Stable Output for Inductive Wireless Power Transfer System Against Ultra-Wide Coupling Variation using Dissonance LCC/S-S Compensation”, Proceedings of the 2023 China Power Electronics and Energy Conversion Conference & the 26th Annual Conference and Exhibition of the Chinese Power Supply Society (CPEEC & CPSSC 2023), Guangzhou, China, November.10-13, 2023.
[C5]. R. He, X. Wang, M. Fu, “Optimal Current Control Method Based on Coupling Range for One TX Multi-RXs Inductive Power Transfer Systems”, 2023 International Conference on Wireless Power Transfer (ICWPT), Weihai, Shandong, China, October. 13-15, 2023.
[C6]. S. Gao, Y. Yin, H. Wang, M. Fu, “A Novel Integrated IPT Receiver by Shorting the Coil and Shielding Layer”, 2023 Proposal for IEEE PELS Students and Young Professionals Symposium (SYPS), Shanghai, China, Aug. 27-29, 2023.
[C7]. J. Yang, Y. Liu, K. Yue, Z. Guan, H. Wang, M. Fu, “Closed-Form Solution of Mutual Inductance and Load for LCC-S Wireless Power Transfer Systems”, 2023 IEEE International Conference on Industrial Electronics for Sustainable Energy Systems (IESES), Shanghai, China, July. 26-28, 2023.
[C8]. X. Gao, H. Li, Y. Jiang, M. Fu, “Optimization of Differential Class E Inverter for Lower EMI”, 2023 IEEE International Conference on Industrial Electronics for Sustainable Energy Systems (IESES), Shanghai, China, July. 26-28, 2023.
[C9]. S. Yao, Z. Li, X. Wang, M. Fu, “A Novel Three-Port Converter for Wireless Power Transfer”,2023 IEEE International Conference on Industrial Electronics for Sustainable Energy Systems (IESES), Shanghai, China, July. 26-28, 2023.
[C10]. K. Zhou, M. Fu, G. Ning, “Transmitting Coil Array Optimization for Wireless Power Transfer”, 2023 IEEE International Conference on Industrial Electronics for Sustainable Energy Systems (IESES), Shanghai, China, July. 26-28, 2023.
[C11]. T. Li, G. Zheng, X. Wang, C. Qi, M. Fu, “Small-Signal Model of LCC Compensated IPT System with Phase Shift Modulation”, 2023 IEEE International Symposium on Power Electronics for Distributed Generation Systems (PEDG), Shanghai, China, June. 9-12, 2023.
[C12]. M. Zhou and M. Fu, “LCC Compensation of Signal Channel for Simultaneous Wireless Power and Data Transfer Systems”, in 2023 Proc. Int. Power Electron. Conf. (ECCE Asia), Jeju, South Korea, May. 22 - 25, 2023.
[C13]. C. Qi, G. Zheng, X. Wang, X. Ji, M. Fu, “Small-signal Impedance Model of an Inductive Power Transfer System Using LCC-LCC Compensation”, in 2023 Proc. Int. Power Electron. Conf. (ECCE Asia), Jeju, South Korea, May. 22 - 25, 2023.
[C14]. S. Yao, M. Fu, H. Li, Y. Yin, P. Zhao, “Coupler Comparison of Inductive and Capacitive Power Transfer Systems”, The 2022 International Conference on Wireless Power Transfer (ICWPT), Chongqing, China, Dec. 2 - 5, 2022.
[C15]. X. Yu, P. Zhao, K. Chao, X. Ji, M. Fu, “Power Relay Module Based Charging Function Extension for Standard Wireless Charger”, 2022 IEEE International Power Electronics and Application Conference and Exposition (PEAC), Guangzhou, China, Nov. 4 - 7, 2022.
[C16]. F. Hu, H. Yang, H. Wang and M. Fu, "An Active Clamping Current-Fed Three Port Converter for Fuel Cell/Supercapacitor Hybrid Energy Storage Systems", 48th Annual Conference of the IEEE Industrial Electronics Society (IECON), Brussels, Belgium, Oct. 18 - 21, 2022.
[C17]. K. Chao, P. Zhao, X. Yu, X. Ji, M. Fu, "Power Relay Module Based Multiple-load Charging Capability Extension”, 48th Annual Conference of the IEEE Industrial Electronics Society (IECON), Brussels, Belgium, Oct. 18 - 21, 2022.
[C18]. Y. Yin, H. Li, M. Fu, "An Integrated Receiver for Inductive Power Transfer", 2022 IEEE Energy Conversion Congress and Exposition (ECCE), Detroit, Michigan, USA, Oct. 9 - 13, 2022.
[C19]. Y. Jiang, R. He, K. Zhao, M. Fu, "Impedance-Model-Based Design of High-Order Class E Inverter", 2022 IEEE Energy Conversion Congress and Exposition (ECCE), Detroit, Michigan, USA, Oct. 9 -13, 2022.
[C20]. S. Gao, Y. Liu, Y. Yin and M. Fu, “A Low Radiation Capacitive Coupler and Its Compensation”, 23rd IEEE International Conference on Industrial Technology (ICIT), Shanghai, China, Aug. 22 -25, 2022.
[C21]. X. Wang, R. He, G. Ning, M. Fu, “Optimal Driving Current Interval for Multiple-Receiver Inductive Power Transfer System”, IEEE 2022 Wireless Power Week (WPW), Bordeaux, France, July 5 - 8, 2022.
[C22]. X. Ji, P. Zhao, K. Chao, X. Yu , M. Fu, “Wireless Charging Capability Extension Using Power Relay Module”, IEEE 2022 Wireless Power Week (WPW), Bordeaux, France, July 5 - 8, 2022.
[C23]. H. Li, Y. Liu, Y. Yin, M. Fu, "S Circular Capacitive Coupler for Stable Output Under Horizontal Misalignment”, 2022 31th International Symposium on Industrial Electronics (ISIE), Anchorage, Alaska, USA, June 1 - 3, 2022.
[C24]. C. Qi, G. Zheng, Y. Yin, H. Li, M. Fu, "Small-Signal Model for Capacitive Power Transfer Systems Using Series Compensation”, The 31th International Symposium on Industrial Electronics (ISIE), Anchorage, Alaska, USA, June 1 - 3, 2022.
[C25]. K. Zhao, M. Fu, G. Ning, R. He, H. Yang, and H. Wang, “A novel driving scheme for inductive power transfer systems using decoupled transmitter coils”, in 2022 Proc. Int. Power Electron. Conf. (ECCE Asia), Himeji, Japan, May 15 - 19, 2022.
[C26]. K. Yue, Y. Liu*, X. Zhang, R. He and M. Fu, “Identifying Complete Set of Parameters Using Transmitter Side Information for two-TX-one-RX Wireless Power Transfer Systems”, 2022 IEEE Applied Power Electronics Conference and Exposition (APEC), Houston, TX, USA, Mar. 20 - 24, 2022.
[C27]. Z. Wei, H. Wang*, Y. Lu, G. Ning and M. Fu, “Bidirectional constant current S2C battery equalizer based on fixed-frequency L2C3 resonant converter”, 2022 IEEE Applied Power Electronics Conference and Exposition (APEC), Houston, TX, USA, Mar. 20 - 24, 2022.
[C28]. B. Xue, H. Wang*, R. He, P. Zhao, M. Fu and Y. Liu, “A ZVS pulse width modulation scheme for active class-E rectifier based IPT systems”, 2022 IEEE Applied Power Electronics Conference and Exposition (APEC), Houston, TX, USA, Mar. 20 - 24, 2022.
[C29]. Y. Jiang, H. Li and M. Fu, “High-Frequency DC/DC Converter Based on Differential Load-Independent Class E Inverter”, IEEE 1st International Power Electronics and Application Symposium (PEAS), Shanghai, China, Nov. 13 - 15, 2021.
[C30]. Y. Jiang, H. Li and M. Fu, “Bidirectional High-Frequency Inductive Power Transfer Systems Based on Differential Load-Independent Class E Converters”, 47th Annual Conference of the IEEE Industrial Electronics Society (IECON), Toronto, ON, Canada, Oct. 13 - 16, 2021.
[C31]. G. Ning and M. Fu, “Modelling and Analysis of Current Sharing for Two transmitter Inductive Power Transfer System Based on LC-S Compensation”, The 2021 International Conference on Wireless Power Transfer (ICWPT), Nanjing, China, June 25 - 28, 2021.
[C32]. H. Li, Y. Jiang, and M. Fu, “Evaluation of Radiative EMI in IPT Systems”, The 2021 International Conference on Wireless Power Transfer (ICWPT), Nanjing, China, June 25 - 28, 2021.
[C33]. K. Zhao, G. Ning, and M. Fu, “A Single Variable Control Method for Bidirectional Inductive Power Transfer”, The 2021 International Conference on Wireless Power Transfer (ICWPT), Nanjing, China, June 25 - 28, 2021.
[C34]. S. Wang, R. He, and M. Fu, "Modeling and Analysis about Capacitive Coupler of Capacitive Power Transfer System", The 2021 International Conference on Wireless Power Transfer (ICWPT), Nanjing, China, June 25 - 28, 2021.
[C35]. M. Zhou, P. Zhao, and M. Fu, “Charging Area Extension of Qi-Based Wireless Fast Charger”, 2021 30th International Symposium on Industrial Electronics (ISIE), Kyoto, Japan, June 20 - 23, 2021.
[C36]. L. Wang, H. Wang, Y. Liu, J. Liang, M. Fu, “A Fully ZVS Dual-Active-Bridge Based Three-Port Converter with High Integration”, 2021 IEEE Applied Power Electronics Conference and Exposition (APEC), Phoenix, Arizona, USA, June 9 - 12, 2021.
[C37]. L. Gao, T. Li, J. Liang, H. Wang, Y. Liu, M. Fu, “A Self-Sensing Synchronous Electric Charge Extraction (SECE) Solution for Piezoelectric Energy Harvesting Enhancement”, 2021 IEEE Applied Power Electronics Conference and Exposition (APEC), Phoenix, Arizona, USA, June 9 - 12, 2021.
[C38]. K. Yue, Y. Liu, P. Zhao, M. Fu, H. Wang, and J. Liang, “Coupling Coefficient and Load Estimation for Wireless Power Transfer Systems with Transmitter Side Input Current”, 2021 IEEE Applied Power Electronics Conference and Exposition (APEC), Phoenix, Arizona, USA, June 9 - 12, 2021.
[C39]. G. Zheng, K. Zhao, H. Wang, J. Liang and M. Fu, “Reduced-Order Model for Inductive Power Transfer Systems”, 2022 IEEE Applied Power Electronics Conference and Exposition (APEC), Phoenix, Arizona, USA, June 9 - 12, 2021.
[C40]. P. Zhao, K. Yue, Y. Jiang, Y. Liu and M. Fu, “Heat Distribution of IPT Receiver with Low-Voltage and High-Current Output”, 2022 IEEE Applied Power Electronics Conference and Exposition (APEC), Phoenix, Arizona, USA, June 9 - 12, 2021.
[C41]. L. Wang, M. Fu, and H. Wang, “A three-port power electronic interface to harvest the maximum power in electromagnetic energy harvesting systems”, 9th International Power Electronics and Motion Control Conference (IPEMC), Nanjing, China, Nov. 29 - Dec. 2, 2020.
[C42]. Y. Liu, S. Wang, G. Zheng, G. Ning, T. Wu and M. Fu, “Induced Voltage Source Model for Capacitive Power Transfer Using Vertical Coupler”, 9th International Power Electronics and Motion Control Conference (IPEMC), Nanjing, China, Nov. 29 – Dec. 2, 2020.
[C43]. G. Zheng, P. Zhao, G. Ning, Y. Liu, and M. Fu, “Zero Voltage Switching of a Low-Power IPT System with High-Step Down Voltage Ratio”, 9th International Power Electronics and Motion Control Conference (IPEMC), Nanjing, China, Nov. 29 – Dec. 2, 2020.
[C44]. G. Ning, S. Wang, G. Zheng, Y. Liu, and M. Fu, “A Novel Passive Current Sharing Method for a Two-Transmitter One-Receiver WPT System”, 9th International Power Electronics and Motion Control Conference (IPEMC), Nanjing, China, Nov. 29 – Dec. 2, 2020.
[C45]. G. Ning, P. Zhao, R. He, and M. Fu, “A Novel Passive Current Sharing Method for a Two-Receiver-Coil IPT System”, IEEE 2021 Wireless Power Week (WPW), Seoul, South Korea, May 5 - 9, 2020.
[C46]. R. He, G. Ning, and M. Fu, “A D4Q Pad with High Misalignment Tolerance for Inductive Power Transfer System”, IEEE 2021 Wireless Power Week (WPW), Seoul, South Korea, May 5 - 9, 2020.
[C47]. S. Wang, J. Liang, H. Wang, and M. Fu, “An Induced Voltage Source Model for Capacitive Power Transfer”, IEEE Applied Power Electronics Conference and Exposition (APEC), New Orleans, LA, USA, Mar. 15 - 19, 2020.
[C48]. R. He, M. Fu, “High-order Compensations for Inductive Power Transfer”, CPSS Annual Conference, Shenzhen, China, Nov.1 - 4, 2019.
[C49]. P. Zhao, R. He, and M. Fu, “A Novel Wireless Faster Charger Using Unregulated IPT”, 45th Annual Conference of the IEEE Industrial Electronics Society (IECON), Lisbon, Portugal, Oct. 14 - 17, 2019. (Award paper in IES-SYPA competition, top 1%)
[C50]. K. Yue, Y. Liu, P. Zhao, R. He, “Time Domain Coupling Coefficient Estimation Using Transmitter-side Information in Wireless Power Transfer System”, 45th Annual Conference of the IEEE Industrial Electronics Society (IECON), Lisbon, Portugal, Oct. 14 - 17, 2019.
[C51]. K. Yue, Y. Liu, R. He, M. Fu, and H. Wang, “Model-Based Parametric Fault Detection in Power Electronic Converters”, IEEE Energy Conversion Congress and Exposition (ECCE), Baltimore, MD, USA, Sep. 29 - Oct. 3, 2019.
[C52]. J. Song, M. Liu, M. Fu, and C. Ma, “High Power Density Stacked-Coils Based Power Receiver for MHz Wireless Power Transfer", IEEE 2019 Wireless Power Week (WPW), London, England, Jun. 17 - 21, 2019.
[C53]. M. Fu, C. Fei, Y. Yang, Q. Li, and F. Lee, “A Two-Stage Rail Grade DC/DC Converter Based on GaN Device”, 2019 IEEE Applied Power Electronics Conference and Exposition (APEC), Anaheim, California, USA, Mar. 17 - 21, 2019.
[C54]. M. Fu, C. Fei, Y. Yang, Q. Li, and F. Lee, “Design Consideration of a Two-Stage Rail Grade DC/DC Converter”, CPES Annual Conference, Blacksburg, Virginia, USA, Apr. 8-10, 2018.
[C55]. M. Fu, Y. Yang, C. Fei, Q. Li, and F. Lee, “Optimal Design of Planar Magnetic Components for A Two-Stage Rail Grade DC/DC Converter”, CPES Annual Conference, Blacksburg, Virginia, USA, Apr. 8 - 10, 2018.
[C56]. J. Fen, M. Fu, Q. Li, and F. Lee, “Resonant Converter with Coupling and Load Independent Resonance for Omnidirectional Wireless Power Transfer Application”, 2017 IEEE Energy Conversion Congress and Exposition (ECCE), Cincinnati, OH, USA, Oct. 1 - 5, 2017.
[C57]. H. Yin, M. Fu, C. Zhao, and C. Ma, “A Decentralized Charging Control of a Multiple-Receiver Wireless Power Transfer System Using Ultracapacitor Semi-active Topology”, IEEE 25th International Symposium on Industrial Electronics (ISIE), Santa Clara, CA, USA, Jun. 8 - 10, 2016.
[C58]. Z. Tang, M. Fu, M, Liu and C. Ma, “Optimization of the Compensation Capacitors for Megahertz Wireless Power Transfer Systems”, 41st Annual Conference of the IEEE Industrial Electronics Society (IECON), Yokohama, Japan, Nov. 9 - 12, 2015.
[C59]. H. Yin, M. Fu, M, Liu and C. Ma, “Power Distribution of a Multiple-Receiver Wireless Power Transfer System: A Game Theoretic Approach”, 41st Annual Conference of the IEEE Industrial Electronics Society (IECON), Yokohama, Japan, Nov. 9 - 12, 2015.
[C60]. M. Fu, Z. Tang, M. Liu, S. Liu, X. Zhu and C. Ma, “Output Power Improvement by Impedance Matching Networks for a Class E Power Amplifier Driven Wireless Power Transfer Systems”, Annual Conference of China Electrotechnical Society, Wuhan, China, Oct. 25 - 27, 2015.
[C61]. M. Liu. M. Fu, Z. Tang, S. Liu, X. Zhu and C. Ma, “Design Procedure of a Class E DC/DC Converter for Megahertz Wireless Power Transfer”, Annual Conference of China Electrotechnical Society, Wuhan, China, Oct. 25 - 27, 2015.
[C62]. M. Fu, Z. Tang, M. Liu, X. Zhu and C. Ma, “Full-Bridge Rectifier Input Reactance Compensation in Megahertz Wireless Power Transfer Systems”, 2015 IEEE PELS Workshop on Emerging Technologies: Wireless Power (WoW), Daejeon, South Korea, Jun. 5 - 6, 2015.
[C63]. M. Liu, M. Fu, Z. Tang, and C. Ma, “A Compact Class E Rectifier for Megahertz Wireless Power Transfer”, 2015 IEEE PELS Workshop on Emerging Technologies: Wireless Power (WoW), Daejeon, South Korea, Jun. 5 - 6, 2015.
[C64]. S. Liu, M. Liu, M. Fu, C. Ma, and X. Zhu, “A High-Efficiency Class-E Power Amplifier with Wide-Range Load in WPT Systems”, 2015 IEEE Wireless Power Transfer Conference (WPTC), Boulder, CO, USA, May 13 - 15, 2015.
[C65]. C. Zhao, H. Yin, M. Fu, and C. Ma, “Analysis, control, and wireless charging of energy systems using ultracapacitors”, 2014 IEEE International Electric Vehicle Conference (IEVC), Florence, Italy, Dec. 17 - 19, 2014.
[C66]. M. Fu, T. Zhang, C. Ma, and X. Zhu, “A Review of Megahertz Wireless Power Transfer Systems Based on Magnetic Resonance Coupling”, International Conference of Wireless Power Transmission Technology and Application, Nanjing, China, Oct. 27-28, 2014.
[C67]. M. Fu, T. Zhang, X. Zhu, and C. Ma, “Subsystem-Level Efficiency Analysis of a Wireless Power Transfer System”, 2014 IEEE Wireless Power Transfer Conference (WPTC), Jeju City, South Korea, May 8 - 9, 2014.
[C68]. T. Zhang, M. Fu, X. Zhu, and C. Ma, “Optimal Load Analysis for a Two-Receiver Wireless Power Transfer System”, 2014 IEEE Wireless Power Transfer Conference (WPTC), Jeju City, South Korea, May 8 - 9, 2014.
[C69]. M. Fu, T. Zhang, C. Ma, X. Zhu, “Wireless Charging of a Supercapacitor Model Vehicle Using Magnetic Resonance Coupling”, ASME International Design Engineering Technical Conferences & Computers and Information in Engineering Conference (IDETC/CIE), Portland, Oregon, USA, Aug. 4 - 7, 2013.
[C70]. M. Fu, T. Zhang, X. Zhu, and C. Ma, “A 13.56 MHz Wireless Power Transfer System without Impedance Matching Networks”, 2013 IEEE Wireless Power Transfer Conference (WPTC), Perugia, Italy, May. 15 - 16, 2013.
[C71]. C. Ma, X. Zhu, and M. Fu, “Wireless Charging of Electric Vehicles: A Review and Experiments”, ASME International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (IDETC/CIE), Washington, DC, USA, Aug. 28 - 31, 2011.