第四届中国电力电子与能量转换大会暨展览会、中国电源学会第二十八届学术年会(CPEEC&CPSSC 2025)将于2025年11月7- 10日在深圳国际会展中心18&20号馆举办。作为中国电力电子、电源届参会人数最多、参展规模最大的盛会,今年预计将有3000+参会注册代表和6500+人次专业观众莅临现场。
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特邀13位电源、电力电子及相关领域国内外顶尖院士、专家进行报告。其中:大会报告环节设置9场、前沿论坛设置4场。
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</strong></p><p>美国弗吉尼亚理工大学</p><p>中国工程院外籍院士、美国工程院院士、IEEE Fellow</p><p>报告题目</p><p><strong>Design Challenges of SiC Based High-Power, High-Frequency CLLC Resonant Converter with Wide Gain Range.</strong></p><p><strong>报告摘要</strong></p><p>Generation 3 power semiconductor devices, such as SiC, offers significant reduction of switching losses in comparison with its counterpart IGBT for high power applications. In general, a factor of 2-3 increase in switching frequency is expected. In many DC/DC convertor applications where the gain range is relatively narrow, resonant convertors are already deemed a preferred choice. With ZVS turn-on and ZCS turn-off, resonant converters have been demonstrated with one order of magnitude increasing in switching frequency and with improved efficiency.</p><p>However, in many emerging high-power applications such as EV charging, renewable energy, and energy storage are featured with wide gain range, PWM converter with some form of soft switching are still in the mainstay. The subject of this presentation is about the propose means to overcome the challenges related to the wide gain range and means to operate beyond 100KHz , with much improved efficiency. The control strategies are proposed as follows, “flexible link voltage” to extend the operating range while high efficiency is critical; “shorting” mode to boosting the tank energy to realize high voltage gain; and “PWM” mode to enable much reduced frequency range while operating at light load. The proposed strategies together have changed the fundamental properties while removed the limitations of the CLLC converter, such that it is best suited for high power applications while wide gain range are required.</p><p><strong>报告人简介</strong></p><p>Dr. Lee is a University Distinguished Professor Emeritus at Virginia Tech. He is a member of the U.S. National Academy of Engineering, U.S. National Academy of Inventors, and a foreign member of the Chinese Academy of Engineering, China. Dr. Lee founded the Center for power electronics and led a program that encompasses research, technology development, educational outreach, industry collaboration, and technology transfer. To date, more than 230 companies worldwide have benefited from this industry partnership program. </p><p>Dr. Lee has supervised to completion 91 Ph.D. and 93 M.S. students. He holds over 100 US patents, and has published over 330 journal articles and more than 760 refereed technical papers. His research interests include high-frequency power conversion, magnetics and EMI, distributed power systems, renewable energy, power quality, high-density electronics packaging and integration, and modeling and control. </p><p>Dr. Lee is a recipient of the 2015 IEEE Medal in Power Engineering “for contributions to power electronics, especially high-frequency power conversion.)
Dr. Don Tan
IEEE 副主席
美国工程院院士、IEEE Fellow
报告题目
Towards 100% EVs: Ultra-fast charging and ubiquitous infrastructure
报告摘要
As the EV technology for the driving train entered the phase of maturity with many superior performances, significant progress in battery technologies ushed in the era of electrical vehicle proliferation. Battery-powered electric vehicles (BEV) are now in price parity with internal combustion engine (ICE) cars, even being more competitive. Many countries/regions now have aggressive mandates towards zero-emission to combat global climate change. A major remaining obstacle is the availability of ultra-fast charging required for long-haul driving and ubiquitous charging structure for everyday driving. We will discuss the challenges facing ultra-fast charging and available solutions coming on the horizon. We will provide a new thinking in achieving ubiquitous charging infrastructure by leveraging existing and readily-available technologies. For autonomous vehicles, wireless power charging provides a path forward. The newly-founded IEEE Transportation Electrification Council (TEC) is providing much-needed leadership in the technical space to help pushing for ubiquitous charging infrastructure on a global scale.
报告人简介
Dr. Tan earned his PhD from Caltech. He is a member of the National Academy of Engineering and a fellow of the IEEE. He has served as Distinguished Engineer, Fellow, Chief Engineer-Power Conversion, Program Manager, Department Manager, and Center Director in a US Fortune 500 corporation. Unusually prolific as a visionary technical leader in ultra-efficient power conversion and electronic energy systems, Dr. Tan has pioneered breakthrough innovations with numerous high-impact industry firsts and record performances that received commendations from the highest level of US Government. He has developed hundreds of designs and thousands of hardware units deployed for space applications without a single on-orbit failure. His suite of world-class electronics performed flawlessly on the James Webb Space Telescope (JWST), located one million miles away, achieving world-record-breaking performances and advancing the understanding of deep space for humanity.
Dr. Tan is the IEEE Technical Activities Vice President-Elect 2025, founding President of IEEE Transportation Electrification Council, Chair of IEEE Fellow Advisory and Oversight Subcommittee, and Vice Chair of IEEE Industry Engagement Committee. Among numerous others, Don has served as Division II Director, IEEE Board of Directors; Fellow Committee Chair, IEEE PELS/PES eGrid Steering Committee Chair, PELS Long Range Planning Committee Chair, Nomination Committee Chair, PELS President, Editor-in-Chief (Founding) for IEEE Journal of Emerging and Selected Topics in Power Electronics, APEC (the fourth largest event in IEEE) General Chair, PELS Vice President-Operations, Guest Editor-in-Chief for IEEE Transactions on Power Electronics and IEEE Transactions on Industry Applications, Fellow Committee, PELS Vice President-Meetings, IEEE Chair for IEEE/Google Little Box Challenge (awarded $1M cash prize), and IEEE/DoD Working Group Chair, developed IEEE/ANSI standards 1515/1573. Don has delivered about 130+ keynotes/invited global presentations. He has received more than $30M+ external customer funding for research and technology development. He also serves on many prestigious national and international award, review and selection committees.
刘胜 教授
武汉大学
中国科学院院士
报告题目
宽禁带半导体材料和器件仿真与数字孪生
报告摘要
宽禁带半导体是支撑下一代高效能源转换、智能电网和先进雷达系统的战略核心材料,其研发水平直接关系到国家产业竞争力和安全自主可控。本报告旨在系统探讨如何通过融合物理模型、人工智能与高性能计算的多物理场、跨尺度建模仿真技术,构建一个贯穿“材料-器件-电路-系统”全链条的数字孪生体。本报告的内容覆盖了课题组近期在宽禁带半导体碳化硅晶体和氧化镓晶体的生长工艺仿真与验证、半导体薄膜装备开发中的仿真应用、自主知识产权的功率半导体器件开发实践、国产自主软件研发等具体进展。其核心目标是实现对半导体器件从制备、服役到失效的全生命周期的精准洞见与可靠性调控,从根本上变革传统的“试错”式研发模式,显著缩短研发周期,提升产品性能与良率,为我国在这一关键领域实现从理论创新到产业应用的跨越式发展提供核心驱动力。
报告人简介
刘胜,武汉大学教授,武汉大学集成电路学院院长、工业科学研究院执行院长。斯坦福大学博士,ASME Fellow和IEEE Fellow,微纳制造领域专家,国内芯片封装技术的引领者,刘胜教授在微纳制造科学与工程技术方面(涉及集成电路、发光二极管LED、微传感器及电力电子IGBT 等芯片封装)取得了系统的创新成果。以第一完成人获2020年国家科学技术进步一等奖、2016年国家技术发明二等奖、2015年教育部技术发明一等奖、2018年电子学会技术发明一等奖、2009年IEEE国际电子封装学会杰出技术成就奖(全球每年1人,国内首人)、2009年中国电子学会特别成就奖、1997年国际微电子及封装学会(IMAPS)技术贡献奖、1995年美国总统教授奖(当年30人),1999年入选首批国家杰青(海外)项目(当年仅7人)。发表SCI 论文550余篇,出版专著6部(英文4部),授权发明专利230余件。
Dr. Dushan Boroyevich
Virginia Polytechnic Institute and State University
Member of the National Academy of Engineering, USA
Former President of the IEEE Power Electronics Society
IEEE Life Fellow; CSEE Fellow
报告题目
Power Electronics: From Power Converters to Electronic Power Systems.
报告摘要
Traditionally, power electronics has been focused on switching-power-converters assuring desirable dynamic behavior of the load (or source), assuming ideal characteristics of the source (load), while optimizing utilization of the converter internal components, e.g. efficiency, power density, safety and reliability, etc. However, the anticipated energy transition necessary for alleviating global warming may require modern electronic power systems 4-10 times larger than the existing electrical grid. In order to enable their effective design and integration, the power converters comprising them could be considered just components, characterized by low-frequency relationships between input, output, and external control variables, regardless of how these terminal characteristics are attained through high-frequency control of the converter internal components.
This presentation will contemplate possible structures/architectures of the future additional networks for making, moving and serving of electrical energy, that could be developed by using the existing electronic technologies, instead of utilizing outdated, constant frequency synchronous AC electromechanical power systems. The basic premises are that to optimize the utilization of primary energy sources there will be a power electronics converter at every source, and to optimize the performance of final energy consumers there will be a power electronics converter at every load. Thence, to optimize the energy transport between source and load converters, and optimize the utilization of electrical cables between them, the proposed architecture would be based on point-to-point energy transfer among intelligent electronic energy routers, forming a hierarchical network of dynamically-decoupled, electronically-interconnected, sub-networks.
报告人简介
Dushan Boroyevich received the Dipl.Ing. degree from the University of Belgrade, Belgrade, Serbia (formerly Yugoslavia), in 1976, the M.S. degree from the University of Novi Sad, Novi Sad, Serbia, in 1982, and the Ph.D. degree from Virginia Polytechnic Institute and State University (Virginia Tech), Blacksburg, VA, USA, in 1986.
From 1986 to 1990, he was an Assistant Professor with and the Director of the Power and Industrial Electronics Research Program, Institute for Power and Electronic Engineering, University of Novi Sad, where he later became the Acting Head of the institute. He then joined the Bradley Department of Electrical and Computer Engineering, Virginia Tech, as an Associate Professor. He is currently the American Electric Power Professor with the same department, where he is also the Director Emeritus of the Center for Power Electronics Systems. His research interests include multiphase power conversion, electronic power distribution systems, power electronics systems modeling and control, and the integrated design of power converters.
Dr. Boroyevich was the President of the IEEE Power Electronics Society from 2011 to 2012. He is a member of the U.S. National Academy of Engineering. He was a recipient of the IEEE William E. Newell Power Electronics Technical Field Award and IEEE Power Electronics Society's Harry A. Owen Distinguished Service Award.
; long-term mission profiles; reliability analysis methods and improvement strategies of power electronic converters for renewable energy systems. A few case studies on will also be given.</p><p><strong>报告人简介</strong></p><p>Frede Blaabjerg was with ABB-Scandia, Randers, Denmark, from 1987 to 1988. From 1988 to 1992, he got the PhD degree in Electrical Engineering at Aalborg University in 1995. He became an Assistant Professor in 1992, an Associate Professor in 1996, and a Full Professor of power electronics and drives in 1998 at AAU Energy. From 2017 he became a Villum Investigator. He is honoris causa at University Politehnica Timisoara (UPT), Romania in 2017 and Tallinn Technical University (TTU), Estonia in 2018.</p><p>His current research interests include power electronics and its applications such as in wind turbines, PV systems, reliability, harmonics and adjustable speed drives. He has published more than 600 journal papers in the fields of power electronics and its applications. He is the co-author of four monographs and editor of ten books in power electronics and its applications.</p><p>He has received 38 IEEE Prize Paper Awards, the IEEE PELS Distinguished Service Award in 2009, the EPE-PEMC Council Award in 2010, the IEEE William E. Newell Power Electronics Award 2014, the Villum Kann Rasmussen Research Award 2014, the Global Energy Prize in 2019 and the 2020 IEEE Edison Medal. He was the Editor-in-Chief of the IEEE TRANSACTIONS ON POWER ELECTRONICS from 2006 to 2012. He has been Distinguished Lecturer for the IEEE Power Electronics Society from 2005 to 2007 and for the IEEE Industry Applications Society from 2010 to 2011 as well as 2017 to 2018. In 2019-2020 he served as a President of IEEE Power Electronics Society. He has been Vice-President of the Danish Academy of Technical Sciences. </p><p>He is nominated in 2014-2021 by Thomson Reuters to be between the most 250 cited researchers in Engineering in the world.</p><p><img src=)
Prof. Liuchen Chang
University of New Brunswick
Former President of IEEE Power Electronics Society
Fellow of the Canadian Academy of Engineering
报告题目
Power Electronics for Distributed Energy Resources: Past, Present and Future
报告摘要
Distributed energy resources (DERs) have become an integral part of power systems, thanks to the increasing penetration of renewable energy and energy storage units. The technologies for DERs have advanced significantly over the past two decades. Power electronic technologies are essential for the integration, protection, performance, and interoperability of DERs. This presentation focuses on the past and recent developments in power electronic technologies for DERs, especially on the topics of power conversion, integration and control, MV and HV technologies, and testing and validation of DER systems. An overview of the evolution in interconnection standards over the past 25 years reveals the progression in technical requirements. Dr. Chang will also report the preliminary findings based on the survey of the professional community for DER power electronic technologies, projecting the long-term technological developments and applications of power electronics for DERs.
报告人简介
Liuchen Chang received B.S. from Beijing Jiaotong University in 1982, M.Sc. from China Academy of Railway Sciences in 1984, and Ph.D. from Queen’s University in 1991. He joined the faculty of University of New Brunswick in 1992, and is now Professor Emeritus at UNB. He was the NSERC Chair in Environmental Design Engineering during 2001-2007, and the Principal Investigator of the Canadian Wind Energy Strategic Network during 2008-2014. He is a long-time volunteer for IEEE for over 30 years and was the President of the IEEE Power Electronics Society (2021-2022).
Dr. Chang was a recipient of Canadian Wind Energy Association’s Templin Award, New Brunswick’s Innovation Award for Excellence in Applied Research, and PELS Sustainable Energy Systems Technical Achievement Award. He is a fellow of the Canadian Academy of Engineering. He has published more than 400 refereed papers in journals and conference proceedings. Dr. Chang has focused on research, development, demonstration and deployment of distributed energy systems.
Prof. Dong-Choon Lee
Yeungnam University Gyeongsan
Former President of The Korean Institute of Power Electronics
IEEE Fellow
报告题目
Recent Advances in Multilevel Converters; Topology, Control, and Applications
报告人简介
Dong-Choon Lee received his B.S., M.S., and Ph.D. degrees in Electrical Engineering from Seoul National University, Seoul, Korea, in 1985, 1987, and 1993, respectively. He has been a faculty member in the Department of Electrical Engineering, Yeungnam University, Gyeongsan, Korea, since 1994. He served as the Editor-in-Chief of the Journal of Power Electronics of the Korean Institute of Power Electronics (KIPE), from 2015 to 2017. In 2019, he served as the President of KIPE. Also, he served as General Chair, for ICPE 2023-ECCE Asia. Presently, he is an IEEE fellow and he is serving as an Associate Editor of IEEE Transactions on Power Electronics and the Taegu PELS Chapter Chair. His current research interests include power converter design and control, renewable energy and its grid connection, AC machine drives, and DC power system.
 Asia.</p><p>His current research interests include medium-voltage inverters, electromagnetic interference (EMI) filters, and active power filters. Within Japan's MEXT )
Dr. Wada is a senior member of the IEEE and the IEEJ.
Prof. Lin Ruan
The Institute of Electrical Engineering, Chinese Academy of Sciences
报告题目
Research Progress on the Application of Phase Change-Cooling Technology in Flexible DC Converter Valves
报告摘要
With the continuous increase in capacity of Flexible DC Converter Valves, power devices face severe heating challenges. High temperatures and cyclic thermal stress fluctuations have become the core factors affecting device reliability. Currently, all in-service converter valves adopt water cooling technology, which, while featuring high technology maturity and excellent cooling performance, inherently suffers from drawbacks such as water conductivity, corrosivity, and system high maintenance complexity. To overcome this technical bottleneck, A pump-free self-circulating phase-change cooling valve segment prototype based on CRRC's 4.5kV/2000A press-pack power devices is demonstrated. By taking advantage of the highly efficient heat transfer characteristics of gas-liquid phase-change processes, the cooling efficiency and operational safety of converter valves is significantly enhanced.
Test results show that the prototype maintains a maximum radiator surface temperature below 65°C at its rated operating condition. Under harsh operating conditions with an inlet water temperature of 40°C and load fluctuations ranging from 0.2P.U. to 1.0P.U., its temperature fluctuation amplitude is reduced by up to 44% compared to traditional water-cooling solutions, effectively suppressing temperature fluctuations in power switching devices. Additionally, the phase-change cooling technology can reduce energy consumption of cooling system by more than 20% compared to water-cooling systems of equivalent scale. This technological breakthrough not only addresses the conductivity and corrosion risks of cooling water but also provides a new solution for the high efficiency, compact and safety design of high-voltage, high-capacity converter valves.
报告人简介
Prof. Ruan is a researcher at the Institute of Electrical Engineering, Chinese Academy of Sciences (CAS), a doctoral supervisor, and a professor at the University of Chinese Academy of Sciences. In 2012 and 2018, she served as a senior visiting scholar at the University of Cambridge and Queen Mary University of London, respectively. In 2018, she initiated the establishment of the specialized Committee of the Cooling technology for Clean Energy Equipment under the China Society for Hydropower Engineering (CSHE)and was appointed as its secretary-general.
She has long been engaged in fundamental and applied research on phase-change cooling technology for electrical equipment,power electronic equipment an IT devices, as well as equipment development. She has authored or co-authored over 50 research papers as the first or corresponding author and holds more than 60 invention patents. She was a recipient of the CAS K.C. Wong Education Foundation "Outstanding Female Scientist" Award? in 2011 and China-UK Leaders in Innovation Fellowships, jointly awarded by the Chinese Academy of Engineering and the UK Royal Academy of Engineering in 2016 and some other Provincial- and ministerial-level awards.
创新根技术的构建,主导建设了数字能源历代ICT/新能源/工业控制芯片、功率封装、功率器件、PSIP技术研发及xx亿级产业化发货,拥有国内外授权专利60+件。现任IEEE高级会员、中国电源学会储能与能量转换专委会副主任委员、中国电工技术学会电力电子专委会委员、中国电源学会元器件专委会委员、电子封装技术国际会议(ICEPT)功率电子与能源电子专题主席、中国电力发展促进会电力电子专委会数字能源代表。</p><p><img src=)
肖强 副总经理
株洲中车时代半导体股份有限公司
报告题目
双碳目标下功率半导体技术演进与应用机遇
报告摘要
在“双碳”目标推动下,功率半导体在交通与能源电气化和低碳化进程中发挥着愈加重要的作用。硅基器件在高压与成熟应用中持续优化,SiC等宽禁带材料正快速渗透至新能源汽车、充电设施、可再生能源、储能及轨道交通等领域。本报告将回顾功率半导体的技术演进,探讨在绿色交通与能源转型中的应用机遇,并展望行业未来发展方向。
报告人简介
肖强,中国中车资深技术专家,现任株洲中车时代半导体股份有限公司副总经理,研发中心主任。长期从事功率半导体技术相关工作,带领团队攻克 IGBT 沟槽栅设计与工艺量产等关键技术;研制出750V-1700V系列沟槽栅 IGBT 芯片及其配套 FRD ,并实现量产,性能表现达到国际主流水平;参与国家重点研发项目6项,省部级以上奖励4项,获湖南省三尖创新人才称号,发表高水准论文10余篇,申请发明专利34项。
Prof. Xiongfei Wang
Tsinghua University
IEEE Fellow
报告题目
Challenges and Solutions for Stability of Converter-Based Power Systems
报告人简介
Xiongfei Wang is currently Xinghua Chair Professor at the Department of Electrical Engineering, Tsinghua University, China. From 2009 to 2022, he was with Aalborg University, Denmark, where he became Assistant Professor in 2014, Associate Professor in 2016, Professor and the founding Leader of Electronic Power Grid (eGRID) Research Group in 2018. From 2022 to 2025, he was Professor with KTH Royal Institute of Technology, Stockholm, Sweden. His research interests include modeling and control of power electronic converters, stability and power quality of power-electronic-dominated power systems, and high-power converters.
Dr. Wang serves as the Editor-in-Chief of IEEE Transactions on Power Electronics, the Chair of IEEE International Roadmap of High-Power Electronics for Modern Energy Grids, and the Chair of IEEE Power Electronics Society Technical Committee on Electronic Power Grid Systems. He is IEEE Fellow and has received 11 IEEE Prize Paper Awards, the 2016 AAU Talent for Future Research Leaders, the 2018 Richard M. Bass Outstanding Young Power Electronics Engineer Award, the 2019 IEEE PELS Sustainable Energy Systems Technical Achievement Award, and the 2022 Isao Takahashi Power Electronics Award.
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安徽大学电气工程与自动化学院
艾普斯电源(苏州)有限公司
安徽瑞德磁电科技有限公司
安徽希磁科技股份有限公司
北京柏艾斯科技有限公司
北京大华无线电仪器有限责任公司
北京市天润中电高压电子有限公司
北京芯合半导体有限公司
沧州建桥电源有限公司
成都赛力康电气有限公司
创意电子有限公司
氮矽科技
东莞铭普光磁股份有限公司
东莞市必德电子科技有限公司
东南大学
恩智技术股份有限公司
福禄克测试仪器(上海)有限公司
固纬电子(苏州)有限公司
广东大比特网络科技有限公司
广东高云半导体科技股份有限公司
广东明路电力电子有限公司
广东南方宏明电子科技股份有限公司
广东致能半导体有限公司
广州德肯电子股份有限公司
广州金升阳科技有限公司
广州市爱浦电子科技有限公司
贵州云睿电子科技有限公司
杭州铂科电子有限公司
杭州飞仕得科技股份有限公司
杭州精日科技有限公司
杭州瞬迦科技有限公司
杭州远方仪器有限公司
杭州芯创德半导体有限公司
合肥蓝点数字电源有限公司
河南求同电气科技有限公司
横店集团东磁股份有限公司
横河测量技术(上海)有限公司
华仿科技(北京)有限公司
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展商论坛、卫星会场
展览会同期,同时安排3个活动报告区举办4场展商论坛共计11个报告,以及2场卫星会场,内容涵盖:功率半导体、被动元件、半导体材料与封装技术、测试测量仪器与设备、半导体制造设备、电力电子系统以及电力电子生态链上下游等多个领域。为来自电源、电力电子及相关应用界的专业观众们搭建交流合作平台,使展商与专业观众得到多维度、深层次的“面对面对话”。
新能源汽车电子器件论坛
首次设立新能源汽车电子专区,配合专区举办1场“新能源汽车电子器件论坛”,聚焦行业技术应用热点,来自高校知名教授和知名企业专家共同发布趋势报告,聚技术创新之力,谋产业发展之机。
名誉主席
李泽元 徐德鸿
大会主席
刘进军
指导委员会主席
罗 安 邓建军
指导委员会委员
章进法 阮新波马 皓袁小明 周桃园 杜 雄
技术程序委员会主席
李武华涂春鸣 王高林 陈阿莲
工业报告委员会主席
章进法张军明 孙耀杰
专题讲座委员会主席
阮新波张品佳 王懿杰
组织委员会主席
马皓
前沿论坛委员会主席
袁小明
专题活动委员会主席
杜 雄
展览委员会主席
何建军
秘书长
张 磊
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