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01 特邀报告人

李泽元 教授 (Prof. Fred C. Lee)

中国工程院外籍院士、美国工程院院士、IEEE Fellow

美国弗吉尼亚理工大学

报告题目： Solid State Transformer- with PCB Based Litz Wire

The subject of solid-state transformer (SST), aiming at replacing traditional bulky 60 Hz transformer, has been widely pursuit in medium voltage applications. Operating at 10-20 kilohertz, SST is featured with high power density, modularity and scalability, and is deemed attractive for such emerging applications as data center, telecommunication, electric vehicle charging, and smart grids.  With the advent of the wide-band-gap power semiconductor devices, a prototype 30KW SST operating at 200KHZ is demonstrated.

It is seemingly preponderant to set such a goal to achieve high frequency, high-power density, and in the same time, high voltage insulation capability. At this frequency level, litz-wire based transformer must be used. It is inevitable that partial discharge is likely to occur with trapped air bubbles among the stranded thin wires.  A novel PCB based litz wire design is proposed for the transformer primary windings together with conventional litz wire on the secondary side. A 200 kHz, 30 kW CLLC converter targeting at 13.8KV application is demonstrated. The peak efficiency of this optimized converter reaches 98.8%, together with 3.7 kW/L power density. The transformer exhibits good insulation capability, with a partial discharge-free level reaching 7.7 kV. 

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 250 companies worldwide have benefited from this industry partnership program. 

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. 

Dr. Lee is a recipient of the 2015 IEEE Medal in Power Engineering “for contributions to power electronics, especially high-frequency power conversion."

刘进军 教授

中国电源学会理事长

西安交通大学，IEEE Fellow

报告题目： 能源转型的新时代给电力电子技术带来的机遇与挑战

刘进军，西安交通大学电气学院教授、领军学者，IEEE Fellow（会士），长江学者特聘教授，国家重点研发计划项目首席科学家。1997年博士毕业即留校任教至今，现任电力电子与新能源技术研究中心主任。现为中国电源学会理事长、英文学报主编，IEEE电力电子学会2015-2021副主席、IEEE电力电子学报副编辑，教育部高等学校电气类专业教学指导委员会副主任委员。研究方向：电力电子变流器与电子化电能系统的建模、控制与设计方法，面向可持续能源与分布式发电的微电网技术，电力电子技术在电能质量控制与输配电系统中的应用。获国家级和省部级科学技术奖、教学成果奖等多项。荣获2006年中达学者奖，2014年全国优秀科技工作者，2016年国务院特殊津贴奖励，IEEE电力电子学报2016年、2021年最佳论文奖，2020年宝钢优秀教师特等奖提名奖，2022霍英东教育教学奖。

邓建军 院士 

中国工程院院士，中国电源学会会士

中国工程物理研究院流体物理研究所

报告题目：Z箍缩聚变及其应用对电源技术的挑战

报告概述了聚变的研究和未来应用情况，重点对Z箍缩惯性约束聚变的原理和装置及其未来应用进行了介绍，由此分析了Z箍缩聚变及其应用对电源技术提出的挑战。

邓建军，中国工程院院士，强流脉冲加速器专家。1985年毕业于北京工业学院，2003年获清华大学博士学位。

邓建军院士长期从事脉冲功率技术、高功率加速器研制等国防研究，主持研制成功了国内首台10兆安培超高功率脉冲加速器和世界第一台兆赫兹多脉冲高功率直线感应加速器等，使我国的高功率脉冲装置研制水平达到了世界先进。他曾获得国家科技进步一等奖三项、省部级科技进步一等奖五项，发表论文200多篇，出版著作一部。首批入选国家“百千万人才工程”，享受国务院政府特殊津贴，先后获得“于敏数理科学奖”、“求是杰出青年科技奖”、国防科技工业有突出贡献的中青年专家、首届国防科技工业十大创新人物等荣誉。

Prof. Brad Lehman

President of IEEE PELS, IEEE Fellow

Electrical and Computer Engineering,

Northeastern University (USA)

报告题目：Emerging Challenges and Advanced Solutions for DC Faults in HVDC, PV, EV, and Hybrid Power Systems

Brad Lehman is President of the IEEE Power Electronics Society (PELS).  He previously was VP of Products since 2019 – 2022 and Editor-in-Chief of the IEEE Transactions on Power Electronics (TPEL) from 2013-2018. He is currently a Professor at Northeastern University (NU), Boston. Dr. Lehman has been the recipient of the 2015 IEEE (PELS) Modeling and Control Technical Achievement Award, a 2016 IEEE Standards Medallion, the 2018 IEEE Award for Achievement in Power Electronics Standards, and the 2019 IEEE PELS  Harry A. Owen, Jr. Distinguished Service Award. He has been listed in the inaugural edition of the book The 300 Best Professors, Princeton Review, 2012. He performs research in power electronics and renewable energy, with emphasis on the modeling, design, and control of high-density converters.

随着科技的飞速发展，智能制造设备正引领着工业生产的新纪元。从自动化生产线到AI辅助的质量

Prof. Chris Mi 

Fellow IEEE & SAE

Distinguished Professor

Electrical and Computer Engineering 

San Diego State University (USA)

报告题目：Wireless Battery Management Systems for Electric Vehicle and Storage Applications

Dr. Mi is the Distinguished Professor of Electrical and Computer Engineering at San Diego State University. He is a Fellow of IEEE and SAE. He is also the Director of the US Department of Energy-funded Graduate Automotive Technology Education (GATE) Center for Electric Drive Transportation at SDSU. He was previously a faculty member at the University of Michigan-Dearborn from 2001 to 2015, and an Electrical Engineer with General Electric from 2000 to 2001. He also served as the CTO of 1Power Solutions from 2008 to 2011, and CTO of EV Safe Charger, Inc. from 2021. Dr. Mi received his Ph. D from the University of Toronto, Canada, in 2001. 

Dr. Mi has published five books, 200+ journal papers, 130 conference papers, and 20+ issued and pending patents. He served as Editor-in-Chief, Area Editor, Guest Editor, and Associate Editor of multiple IEEE Transactions and international journals, as well as the General Chair of over ten IEEE international conferences. Dr. Mi has won numerous awards, including the “Distinguished Teaching Award” and “Distinguished Research Award” from the University of Michigan-Dearborn, IEEE Region 4 “Outstanding Engineer Award,” IEEE Southeastern Michigan Section “Outstanding Professional Award,” and SAE “Environmental Excellence in Transportation (E2T) Award.” He is the recipient of three Best Paper Awards from IEEE Transactions on Power Electronics and the 2017 ECCE Student Demonstration Award. In 2019, he received the Inaugural IEEE Power Electronics Emerging Technology Award. In 2022, he received the Albert W. Johnson Research Lectureship and was named the Distinguished Professor, the highest honor given to an SDSU faculty member, and only one award is given each year. Most recently, he received the 2023 IEEE PELS Vehicle and Transportation Systems Achievement Award, the IEEE Transactions on Industry Applications Best Paper Award, and the SDSU Innovator of the Year Award. In 2024, he received Alumni Association Distinguished Faculty Award from San Diego State University.

Prof. Sanjib PANDA

IEEE Fellow

Department of Electrical and Computer Engineering (ECE), 

College of Design and Engineering (CDE), 

National University of Singapore

报告题目： MARINISED AIOT-ENABLED ENERGY STORAGE SYSTEM (ESS) AND DIGITAL SOLUTION FOR CARBON NEUTRAL SHIPYARD

The integration of Energy Storage Systems (ESS) into modern energy infrastructure has become increasingly critical as the world shifts towards sustainable energy solutions. ESS plays a pivotal role in enhancing reliability, efficiency, and flexibility of power systems, especially in the context of renewable energy sources such as solar and wind, which are inherently variable and intermittent. By storing excess energy during periods of low demand and discharging it during peak times, ESS mitigates the imbalance between energy supply and demand, thus stabilizing the grid and reducing reliance on fossil fuel-based peak power plants. In maritime environments, such as the proposed Floating Living Lab (FLL) for carbon-neutral shipyards, the ESS is essential for ensuring continuous and resilient energy supply. The FLL concept, which integrates LNG, solar PV, and ESS, aims to provide a sustainable power solution for shipyard operations while addressing the challenges of harsh offshore environments while connected to the grid to provide ancillary services is required.

Sanjib Kumar Panda (S’86-M’91-SM’01-F’21) received B. Eng. Degree from the South Gujarat University, India, in 1983, M.Tech. degree from the Indian Institute of Technology, Banaras Hindu University, Varanasi, India, in 1987, and the Ph.D. degree from the University of Cambridge, U.K., in 1991, all in electrical engineering. He was the recipient of the Cambridge-Nehru Scholarship and M. T. Mayer Graduate Scholarship during his PhD study (1987-1991). Since 1992, he has been holding a faculty position in the Department of Electrical and Computer Engineering, National University of Singapore and currently serving as an Associate Professor and Director of the Power & Energy Research Area. Dr. Panda has published more than 540 peer-reviewed research papers, co-authored one book and contributed to several book chapters, holds ten patents and co-founder of three start-up companies. His research interests include high-performance control of motor drives and power electronic converters, condition monitoring and predictive maintenance, building energy efficiency enhancement etc. He is serving as an Associate Editor of several IEEE Transactions e.g. Power Electronics, Industry Applications, Energy Conversion, Access and IEEE Journal of Emerging and Selected Topics in Power Electronics. Dr. Panda is serving as an IEEE PELS Distinguished Lecture for 2022-26. He had served as the Chair of the IEEE PELS Technical Committee, TC-12: Energy Access and Off-grid Systems 2021-2023. Dr. Panda is also serving as, R-10 Membership & Chapter Development Coordinator for IEEE PELS since 2016 till date.

Nick Singh

Head of Smart Grids Centre of Excellence & Microgrids Programme Director

Power Delivery & Utilisation

Eskom Research Testing & Development

报告题目：Powering the future : Envisioning the role of power electronics for energy storage & conversion with microgrids for a Sustainable Energy Transition.

Nick Singh has more than 27 years of experience, specialising in Smart Grids, Control Systems and Renewable Integration. He leads a team of engineers and scientists, and facilitates laboratories in the Smart Grid domain, equipped to service the requirements of the power utility, which starts at Generation, Transmission, and Distribution ending at the customer. 

He currently holds the position of Head of Smart Grids Centre of Excellence and Microgrid Programme Director. He is involved in centre leadership and management, technical support and strategy for Research Testing & Development and Line divisions. Nick is a member of the Study Committee of Technology Technical advisory Committee (SCOT TC), South African Smart Grid Initiative (SASGI), ISGAN, EPRI and Chairs the SSEG/DER Working group that manages the technology standards in the area of SSEG/DER integration. He is an Industrial mentor at a number of Universities local and abroad and has delivered multiple public lectures in the field of Smart Grids and Renewable integration.

Nick has 27 years of experience in the Field of Electronic Engineering, MEng and Project Management; Graduate School of Business Leadership (UNISA, SBL), and Wits University Business School (EDP) and is the lead on Smart Grid Collaborations between ERDF(France), ISGF(India), EPRI(USA) in the respective areas. He is a Global Smart Energy Federation (GSEF) Board member and is the GSEF Ambassador for Anglo Phonic Africa.   

Nick is presently managing DER implementation within the Commercial, Industrial and Agricultural sectors, as well Renewable Containerised Off-grid applications for rural areas. Nick is the Microgrid project Director responsible for the role out of systems within Eskom and the Assembly & Manufacturing at Komati PowerStation which is being repurposed in Eskom’s Just Energy transition.

Prof. Petar J. Grbović

Innsbruck Power Electronics Laboratory (i-PEL), 

Institute of Mechatronics, 

University of Innsbruck, Austria Univ.

报告题目：Current Source PWM Converters-From Theory to Practice

Power electronics and switching mode power converters in general are today part of every segment of our life. Any piece of electric equipment we have today is somehow based on power electronics and switching mode power converters; home appliance, industrial equipment, renewable energy, automotive, avionic, ICT, military, etc., etc. Conversion efficiency, specific power, power density and converter cost are today the most critical requirements for new applications. One way to increase the conversion efficiency and reduce cost/size/weight is to deploy multi-level and/or multi-cell converters and partial power processing power converters. 

Historically, very first power converters were Voltage Source Converters (VSC) based on the vacuum tubes as power switches. The first work on Vacuum Tube based VSC was reported in early 1930s. Then, with the invention of Bipolar Junction Transistor (BJT) and then Silicon Controlled Rectifiers (SCRs), the Current Source Converter topology become dominant. Until late 1980s, the CSC dominated in most of industrial applications, such as Variable Speed Drives and high-power grid connected converters. With the invention of the Metal Oxide Silicon Field Effect Transistors (MOSFETs) in late 1970s and the Insulated Gate Bipolar Transistors (IGBTs) in late 1980, the Voltage Source Converters become again dominant, especially in low-medium voltage and low-medium power applications. Today, majority of power conversion applications are based on PWM VSC with MOSFETs, IGBTs or IGCTs, depending on the voltage and power rating.

In recent years we have seen strong intertest in PWM Current Source Converters (CSCs). It can be proven that in some applications the CSCs could be superior over the VSCs. However, so far, there is not significant penetration of CSCs into real applications such as industry, renewables, automotive and ICT. The main issue is the fact that until today there is not available switch with Bi-Directional voltage blocking capability.

The Key Note will start with a short introduction and comparison of Voltage and Current

Source Converters. Then, One-Quadrant (1Q) and multi-Quadrant (2Q &4Q) CSCs will be presented and analyzed. Analysis of CSC cell and design guidelines will be given. Three-phase single-cell and multi-cell interleaved CSCs will be briefly addressed. Power semiconductor switches with Bi-Directional voltage blocking capability, in particular Monolithic Bi-Directional

GaN switch will be addressed. Finally, the Key Note will be concluded with several real-life case studies and design details.

Univ.-Prof. Dr. Petar J. Grbović received the Dipl. Ing. (B. Sc.) and the Magister degrees from the School of Electrical Engineering, University of Belgrade, Serbia, in 1999 and 2005, and the Doctor (Ph. D) degree from the Laboratoire ’Électro technique etd’Électronique de Puissance de Lille, l’Ecole Centrale de Lille, France in 2010.From March 1999 to February 2003, he was an R/D Engineer with RDA Co, Belgrade. From November 2000 to June 2001, he was a Consulting Engineer with CESET Italy (a division of Emerson Appliance Motors Europe). From March 2003 to April 2005, he waswith the R&D Department, PDL Electronics, Ltd., Napier, New Zealand. Since April 2005 until July 2010, he was working with Schneider Toshiba Inverter Europe, Pacy Sur-Eure, France, as Power Electronics Group Expert. Since September 2010 until August 2011, he was with General Electric Global Research, Munich, Germany. Since September 2011 until September 2018, he was with HUAWEI Technologies, Europe Energy Competence Centre in Munich/Nuremberg, Germany, where he worked as a Senior Expert in the area of power electronics and power conversion. In March 2016 he was appointed to position of the scientific committee of Centre of Power Electronics and Drives, C-PED Lab., Roma TRE University, Italy. In June 2018 he was appointed to position of Full Professor at Innsbruck Power Electronics Laboratory (the i-PEL), the University of Innsbruck, Austria. The focus of his research is on application of advanced energy storage devices, active gate driving for high power IGBTs and SiC MOSFETs, power converter topologies, advanced power semiconductor devices and control of power converters and semiconductor switches. Prof. Grbović published 28 IEEE journal papers, 53 IEEE conference papers, 24 IEEE Key Note sand a book “Ultra-capacitors in power Conversion Systems: Analysis, Modelling and Design in Theory and Practice”. He has 17 US & EP patents granted and 9 international patent application spending.

侯召政 部长

华为数字能源技术与平台规划部

报告题目：数字能源时代的三新基础设施发展趋势及关键技术挑战

在低碳化、电气化、数字化、智能化的趋势下，能源世界和数字世界将深度融合发展，能源产业已经进入到数字能源新时代。本报告将围绕碳中和道路上的三大关键变革--数字能源时代的三新能源基础设施，即：面向能源变革的新型电力系统能源基础设施、面向出行变革的新型电动出行能源基础设施、面向智能变革的新型数字产业能源基础设施，重点介绍这“三新”基础设施面临的挑战，将4T（watt、heat、battery、bit）技术进行创新融合，推动能源行业绿色低碳化转型。

侯召政，华为数字能源技术与平台规划部部长，负责华为数字能源产品和解决方案三代技术与平台的规划开发、4T（watt、heat、battery、bit）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x亿级产业化发货，拥有国内外授权专利60+件。

罗海辉 总经理

株洲中车时代半导体有限公司

报告题目：SiC MOSFET技术进展与发展方向

近年来，在新能源汽车产业发展的驱动下，SiC MOSFET技术取得了长足的进步，成本也快速下降，进一步推动了SiC MOSFET在充电桩、OBC、DC/DC、光伏、轨道交通等诸多领域的应用。本报告回顾了SiC MOSFET在芯片设计、芯片工艺、封装、可靠性等方面的重要进展，指出了SiC MOSFET进一步发展需要解决的技术难题，包括短路性能与静态损耗的折中优化、MOS界面质量的进一步优化、可靠性提升、超结技术等，并针对这些技术难题，对潜在的技术解决方案进行了探讨。

罗海辉,博士，中国中车首席技术专家，现任株洲中车时代半导体有限公司总经理，长期从事IGBT和碳化硅功率器件技术研发与产业化工作，带领团队构建全电压系列IGBT产品技术平台并为轨道交通、新能源汽车、新能源发电、工业控制和输配电等领域提供功率半导体器件解决方案，入选“国家重点领域创新团队”。荣获国家青年拔尖人才、国家科技领军人才称号。主持的项目曾获国家技术发明奖二等奖1项、省部级科技奖5项，通过省部级科技成果鉴定5项。申请发明专利100余项，其中75项发明专利已授权。在国际会议、国内外核心期刊发表论文60余篇。

Harufusa Kondo 高级技术顾问

三菱电机功率器件制作所

报告题目：Advancement of Power chip and module technology

Mitsubishi Electric Corp. has a long history and extensive experience in the development of power devices. This presentation will delve into the latest advancements in our power chips, including Si-IGBT and SiC MOSFET. We will specifically touch on the 8th generation IGBT. Additionally, we will discuss power modules designed for rapidly growing applications in sectors such as renewable energy, railways and power, consumer goods, and automotive.

Dr. Kondo received the B.S., M.S., and Ph.D. degrees from Osaka University, JAPAN.  

In 1985, he joined Mitsubishi Electric Corporation. In her LSI R&D Laboratory, he had been engaged in the design of large-scale chips for digital communication.  

In 2003, he moved to the Optical and High-frequency Device Works, where he had been worked on high-speed Optical Transceiver development.

Since 2009, he has been working at Power Device Works for the development of DIPIPM™, Industrial modules, and high-voltage modules including silicon IGBT and SiC MOSFET.  

He is currently the Senior Technical Advisor at Power Device Works, Mitsubishi Electric Corporation.

Prof. Kai Jiang

Huazhong University of Science and Technology

报告题目：Advanced Electrical Materials and Electrochemical Energy Storage Devices 

There is an urgent need to develop advanced electrical materials and devices to meet the needs of the power system with high penetration of renewable energy. Herein, we summarize several types of key electrical materials, including conductive materials, insulation materials, semiconducting materials, magnetic materials and energy storage materials, to analyze the research status and development trend, and put forward the development strategy of the different types of advanced electrical materials. Then this talk will focus on the energy storage materials and devices. The challenge and research progress of long-lifespan liquid metal battery, low-cost soldium ion battery and high-safety aqueous zinc batttery will be presented and discussed.

Dr. Kai Jiang is a Cheung Kong Scholar Professor of Electrochemical Energy Storage in the School of Electrical and Electronic Engineering, Huazhong University of Science and Technology (HUST), China. He got his PhD from Wuhan University in China at 2006 and worked as postdoc at Auburn University and MIT in USA from 2007 to 2012. Then he joined HUST and focused in the field of advanced materials and technologies for large-scale energy storage applications, such liquid metal batteries, sodium ion batteries and other electrochemical energy storage materials and devices. He has authored 60 patents and published more than 150 peer-reviewed papers on the journals of Nature, Adv. Mater., Energ. Environ. Sci., and Angew. Chem. Int. Ed., etc.

Prof. Jinying Zhang

Xi’an Jiaotong University

报告题目：Solid state hydrogen storage materials for hydrogen energy

Hydrogen energy is important to achieve the national goal of carbon neutral. Hydrogen storage technology is crucial for the development of hydrogen energy. Here, solid state hydrogen storage materials, including pyrolysis and hydrolysis ones, have been developed with high hydrogen storage density, high safety, and long-term storage properties. Hydrogen channels have been built inside pyrolysis hydrogen storage materials to lower the dehydrogenation temperature of MgH2 to be as low as 185℃ with good cycling performance. Highly active light metal hydrides were adopted as hydrolysis hydrogen storage materials with hydrogen storage density as high as 25wt.%, where graphene was introduced to coat parallelly on the surface of hydride crystals to adjust their hydrolysis kinetics. The hydrolysis was found to be realized as low as -40℃. A serial of hydrogen batteries based on solid-state hydrogen storage materials have been developed and adopted in sightseeing bus. Different scale of production lines has been built and tested.

Jinying Zhang, received her Master degree from Tsinghua University and PhD from Oxford University. She was working as a postdoctoral fellow from 2009 to 2012 in Nogoya University, Japan. She works as a PI in Xi’an Jiaotong Unviersity since 2013. Her research interests are the development of carbon/phosphorus new allotropes and their applications. She is mainly focusing on the applications of violet phosphorene in optical and electronic research fields, and graphene in solid state hydrogen storage materials.

Dr. Changjiang ZHAN

NR Electric Co., Ltd

Deputy Chief Engineer

报告题目：Enable a More Stable Grid Dominated by Renewables: NR Grid-Forming Energy Storage System

Dr. Changjiang ZHAN has more than 34 years’ experience in Power Electronics, HVDC & FACTS and Renewable Energy (wind & photovoltaic), including nearly 16 years’ European industry working experience in Siemens (Germany and UK) as a senior expert of system design /HVDC subproject manager (2011-2018), and in Alstom (UK) as a principal engineer (2003-2010), and four years academic research experience in UMIST (UK) as a Post-doctoral research associate (1999-2003), respectively. He has been working as a deputy chief engineer in NR Electric Co., Ltd. since June of 2018. His current research interests include the system design and control of power electronic converters, stability and power quality of power-electronic-based power systems, such as HVDC, FACTS and grid-forming battery energy storage system (BESS). He is a Chartered Engineer of IET, and is now the Convenor of CIGRE Working Group B4-101 “Industrial Implementation and Application of Grid Forming Energy Storage Systems (GFM ESS)”. 

02 专题讲座

03 录用论文

• Advanced Battery Materials and their Preparation

• Battery Management system (BMS) for Battery Systems

• Power Conversion Techniques for Battery Systems

• Advanced Fuel Cell Materials and their Preparation

• Power Conversion Techniques for Fuel Cell Systems

• Green Hydrogen Generation and Applications

• Energy Management for Energy Storage Systems

• Reliability, Diagnosis, Prognosis and Protection of Energy Storage Systems

• Energy Storage and Conversion for Grid Applications

• Energy Storage and Conversion for Transportation applications

• Energy Storage and Conversion for Data and ICT applications

• Advanced Power-to-X Technologies and Applications

• Artificial Intelligence (AI) in Energy Storage and Conversion Systems

• Other Emerging Topics in Energy Storage and Conversion Systems

04 工业报告

• CPSS & IEEE International Symposium on Energy Storage and Conversion（ISESC）

• 2024全球电力电子高峰论坛

• 第十届中国电源学会科学技术奖颁奖仪式

• Infineon GaN杯第十届高校电力电子应用设计大赛决赛

• 电源科研成果交流会

• 电源高端人才对接会

• 电源创新产品推广会

• 电源青年人才论坛

• 中国电源学会青年人才托举工程交流会暨年度总结会

• 电源女科学家论坛

• 高压直流变压器分论坛

• 国际宽禁带半导体器件与应用技术分论坛

• 中国电源学会团体标准宣贯交流会