Document 422488
TABLE OF CONTENTS Table of Contents Foreword ......................................................... 2 Conference Sponsor, Committee & Partners .......................................................... 4 Conference Schedule ................................... 12 General Information ...................................... 20 Conference Location ...................................... 20 Ground Transportation ................................... 21 Conference Registration ................................ 24 Information for Presenters and Session Chairs ............................................... 25 Optional Tours................................................ 26 Plenary Session ............................................ 28 Tutorial .......................................................... 40 Tuesday, November 4th................................ 50 Wednesday, November 5th .......................... 51 Thursday, November 6th .............................. 53 Friday, November 7th ................................... 56 Saturday, November 8th ............................... 84 Dialogue session ......................................... 110 Important Rules, Notices & Conference Policies ........................................................ 126 Exhibitor Description ................................... 130 Student Travel Fund List ............................. 150 Schedule-at-a-glance ..................... Appendix-1 Conference Hotel Floor Plan ......... Appendix-2 IEEE PEAC’ 2014 11 Dear Colleague: On the behalf of organizing committees of 2014 IEEE International Power Electronics and Application Conference and Exposition (IEEE PEAC’ 2014), I would like to welcome all colleagues around world to participate in the conference which will be held from 5th to 8th November 2014 in City Shanghai, China. I am sure that IEEE PEAC’ 2014 Shanghai will be a successful event on power electronics field. We are glad that IEEE PEAC’ 2014 has got a good response from both academia and industry. The conference has received more than 455 submissions from 14 countries and after peer review process 315 high quality papers are accepted. On the first day, we will have eight high quality tutorials with topics ranging from Wide Band Gap devices, advanced power conversion and control, wireless charging, reliability of power electronic device and systems etc by leading experts. On the 2nd day we will have highlighted plenary speeches from the world top experts, who will share with us their deepest insight look to the trend of power electronics. The 3rd and 4th days are for the technical sessions covering broad area such as power electronics, renewable energy and smart grid, control etc. Industrial Forum and exhibition are another feature of IEEE PEAC’ 2014. Beside academics, we have reception and gala dinner with Chinese traditional performance. Please join us! busiest container port, but also a popular tourist destination renowned for its historical landmarks such as The Bund, City God Temple and Yu Garden as well as major museums including the Shanghai Museum and the China Art Museum. I hope you will not only have a wonderful experience of academic exchange, but also meet old friends, make new contacts, and enjoy the Chinese culture during IEEE PEAC’ 2014. Fred C. Lee Dehong Xu General Chairs of IEEE PEAC’ 2014 During your stay in Shanghai, besides joining the activities of the conference please plan your time to visit the city and enjoy the culture and local food. The venue is located in Pudong district of city Shanghai, which is home to the Lujiazui Finance and Trade Zone and a skyline that includes the Oriental Pearl Tower and the Jin Mao Tower, symbolic of Shanghai and China's economic development. Shanghai is not only a global financial center, and a transport hub with the world's 2 IEEE PEAC’ 2014 IEEE PEAC’ 2014 3 FOREWORD FOREWORD Foreword Yung C. Liang Singapore National Univ., Singapore International Steering Committee Chairs Jinjun Liu Xi’an Jiaotong Univ., China Conference Sponsors Hirofumi Akagi Tokyo Institute of Technolgy, Japan Sponsored by: China Power Supply Society (CPSS) IEEE Power Electronics Society (PELS) Technical Sponsored by: Frede Blaabjerg Aalborg Univ., Denmark Seung-Ki Sul Seoul National Univ., Korea IEEE Nanjing Section Dianguo Xu Harbin Institute of Technology, China Industry Applications Society of the Institute National Steering Committee Chairs of Electrical Engineers of Japan (IEEJ-IAS) Korea Institute of Power Electronics (KIPE) China Association for Science and Technology (CAST) National Science Foundation of China (NSFC) Bo Zhang South China Univ. of Technology, China Jinfa Zhang Delta Electronics (Shanghai) Design Center, China Yongdong Li Tsinghua Univ., China Conference Committee Xiangning He Zhejiang Univ., China General Chair Fred C. Lee Virginia Tech., USA SPONSOR, COMMITTEE & PARTNERS SPONSOR, COMMITTEE & PARTNERS Conference Sponsor, Committee & Partners Dehong Xu Zhejiang Univ., China Xiaoming Zha Wuhan Univ., China Tutorial and Keynote Committee Chairs Technical Program Committee Chairs Hao Ma Zhejiang Univ. , China Xinbo Ruan Nanjing Univ. of Aeronautics and Astronautics, China Sewan Choi Seoul National Univ. of Science and Technology, Korea Toshihisa Shimizu Tokyo Metropolitan Univ., Japan Yunwei Li Univ. of Alberta, Canada Jaeho Choi Chungbuk National Univ., Korea Publications Committee Chair Tsorng-Juu Liang National Cheng-Kung Univ., Taiwan, China Luowei Zhou Chongqing Univ., China C.K. Michael Tse Hong Kong Polytechnic Univ. , Hong Kong, China Exposition Committee Chairs 4 IEEE PEAC’ 2014 Dianguo Xu Harbin Institute of Technology, China IEEE PEAC’ 2014 5 Financial Committee Chair Zhanshi Li China Power Supply Society, China Industry Seminar Committee Chair Renxian Cao Sungrow Power Supply Co., Ltd., China Technical Program Committee Members Raja Ayyanar Arizona State Univ., USA Juergen Biela ETH Zurich, Switzerland Zhong Chen Nanjing Univ. of Aeronautics and Astronautics, China Yongzhen Chen Liaoning Univ. of Technology, China Xiong Du Chongqing Univ., China Lili Guo Harbin Engineering Univ., China Herbert H.C. Iu The Univ. of Western Australia, Australia Hui Li FAMU-FSU, USA Yunwei (Ryan) Li Univ. of Alberta, Canada Kang-Zhi Liu Chiba Univ., Japan Fanglin Luo Nanyang Technological Univesity, Singapore Denizar Cruz Martins Federal Univ. of Santa Catarina, Brazil Li Ran Univ. of Warwick, UK 6 Zhihong Bai Zhejiang Univ., China Alian Chen Shandong Univ., China Daolian Chen Fuzhou Univ., China Daniel Costinett Univ. of Tennessee, USA Yanxia Gao Shanghai Univ., China Yehui Han Univ. of Wiscon-Madison, USA Jinsong Kang Tongji Univ., China Qiang Li Virginia Tech., USA Bor-Ren Lin National Yunlin Univ. of Science and Technology, Taiwan, China Xiaodong Liu Anhui Univ. of Technology, China Udaya K. Madawala The Univ. of Auckland, New Zealand Istvan Nagy Budapest Univ. of Technology and Economics, Hungary Tetsuo Uzuka Railway Technical Research Institute, Japan IEEE PEAC’ 2014 Rong-Jong Wai Yuan Ze Univ., Taiwan, China Nianchun Wang Southeast Univ., China Shuo Wang Univ. of Texas at San Antoni, USA Siu-Chung Wong Hongkong polytechnic Univ., Hongkong, China Yugang Yang Liaoning Technical Univ., China Mohamed Machmoum Univ. de Nantes, France Jean-Frederic Charpentier French Navil Acedemy, France Zhengzhi Liu Institute of Plasma Phsyics,Chinese Academy of Science, China Yan Xin Nanjing Univ. of Aeronautics and Astronautics, China P. Bauer Delft Univ. of Tech., Netherlands Zhe Chen Aalborg Univ., Denmark Nicola Femia Univ. di Salemo, Italy Shoji Fukuda Hokkaido Univ., Japan Eiji Hiraki Yamaguchi Univ., Japan Praveen K. Jain Queen's Univ., Canada Eel-Hwan Kim Cheju National Univ., Korea Hirofumi Matsuo Nagasaki Univ., Japan Robert Oconnell Univ. of Missouri-Columbia, USA David Perreault Massachusetts Inst. of Tech., USA IEEE PEAC’ 2014 Fei “Fred” Wang Univ. of Tennessee, USA Jin Wang Ohio State Univ., USA Pat Wheeler Univ. of Nottingham, UK SPONSOR, COMMITTEE & PARTNERS SPONSOR, COMMITTEE & PARTNERS Chenghui Chen Xiamen Kehua Hengsheng Co., Ltd., China David (Dewei) Xu Ryerson Univ., Canada Mohamed Benbouzid Universite de Bretagne Occidentale, France Luc Loron Univ. de Nantes, France Naxin Cui Shandong Univ., China Peng Fu Institute of Plasma Phsyics,Chinese Academy of Science, China Ke Jin Nanjing Univ. of Aeronautics and Astronautics, China A. Berthon Institut de Genie Energetique, France Byungcho Choi Kyungpook National Univ., Korea A. J. Forsyth The Univ. of Birmingham, UK C. Grantham Univ. of New South Wales, Australia Yoichi Hori Univ. of Tokyo, Japan T. Kawabata Ritsumeikan Univ., Japan Mikihiko Matsui Tokyo Inst. of Polytechnics, Japan T. A. Meynard LEEI ENSEEIHT, France José Renes Pinheiro Universidade Federal de Santa Maria, Brazil Francesco Profumo Politecnico di Torino, Italy 7 Longya Xu Ohio State Univ., USA Dierk Schroeder Technische Universitat Munchen, Germany E. Pagano Universita Degli Studi Di Napoli Federico II., Italy Patrick Luk Cranfield Univ., UK Yoon-Ho Kim Chung-Ang Univ., Korea T.G. Habetler Georgia Inst. of Tech., USA Ashoka Bhat Univ. of Victoria, Canada Ivo Barbi Univ. Fed De Santa Catarina, Brazil Hamid A. Toliyat Texas A&M Univ., USA Yin Yu Tzou National Chiao Tung Univ., Taiwan, China Yoji Takeda Osaka Prefecture Univ., Japan M. F. Rahman Univ. of New South Wales, Australia Akira Nabae Nagaoka Univ. of Tech., Japan W. Koczara Technical Univ. of Warsaw, Poland Joachim Holtz Univ. of Wuppertal, Germany M. Ehsani Texas A&M Univ., USA V. Benda Czech Technical Univ., Czech A. Alexandrovitz Technion-Israel Institute of Technology, Israel International Steering Committee Members Vassilios G. Agelidis The Univ. of Sydney, Australia Liuchen Chang Univ. of New Brunswick, Canada Bo-Hyung Cho Seoul National Univ., Korea Rik W. De Doncker RWTH Aachen Univ., Germany Tatsuhiko Fujihira Fuji Electric Co., Ltd., Japan Shu Yuen Hui Hong Kong Univ., HongKong, China Soon-Chan Hong Dankook Univ., Korea Adrian Ioinovici Sun Yat-sen Univ., China Rajashekara Kaushik Univ. of Texus at Dallas, USA 8 Dushan Boroyevich Virginia Tech, USA Boshi Chen Shanghai Univ., China Dong F. Tang NGAS, USA Deepak Divan Georgia Tech, USA Grahame Holmes Monash Univ., Australia Gerard Hurley National Univ. of Ireland, Ireland Dong-Seok Hyun Hanyang Univ., Korea Thomas Jahns Univ. of Wisconsin-Madison, USA Ralph M. Kennel Technische Universitaet Muenchen, Germany IEEE PEAC’ 2014 Heung-Geun Kim Kyungpook National Univ., Korea Philip T. Krein Univ. of Illinois, USA Yanfei Liu Queens Univ., Canada Alan Mantooth Univ. of Arkansas, USA Meiqin Mao Hefei Univ. of Technology, China Eisuke Masada Railway Technical Research Institute , Japan Yasuyuki Nishida Chiba Institute of Technology, Japan Dean Patterson Univ Of Lincoln Nebraska, USA Norbert Pluschke Semikron, Germany Zhaoming Qian Zhejiang Univ., China J. W. Kolar ETH Zurich, Switzerland Fujio Kurokawa Nagasaki Univ., Japan Leo Lorenz Infineon Technologies , China Gourab Majumdar Mitsubishi Electric Corporation, Japan Sudip Mazumder Univ. of Illinois at Chicago, USA Kouki Matsuse Meiji Univ., Japan Ching-Tsai Pan National Tsing Hua Univ., , Taiwan, China Fang Zheng Peng Michigan State Univ., USA Poh Chiang Loh Aalborg Univ., Denmark Xinbo Ruan Nanjing Univ. of Aeronautics and Astronautics, China Masahito Shoyama John Shen Kyushu Univ., Japan Ilinoise Institute of Technolgy, USA Keyue Ma Smedly Jian Sun Univ. of California, Irvine, USA Rensselaer Polytechnic Institute, USA Paolo Tenti Tore M. Undeland Univ. of Padova, Italy Norwegian Univ. of Sci. & Tech., Norway Bin Wu Tsai-Fu Wu Ryerson Univ., Canada National Tsing Hua Univ. , Taiwan, China Zhaoan Wang Zhengming Zhao Xi'an Jiaotong Univ., China Tsinghua Univ., China Qingchang Zhong Zhiqiang Zhu Sheffield Univ., UK Sheffield Univ., UK National Steering Committee Members Wei Chen Fuzhou Univ., China Shaojun Xie Nanjing Univ. of Aeronautics and Astronautics, China IEEE PEAC’ 2014 Xing Zhang Hefei Univ. of Technology, China Yong Kang Huazhong Univ. of Science & Technology, China 9 SPONSOR, COMMITTEE & PARTNERS SPONSOR, COMMITTEE & PARTNERS H. Takano Hitachi Medical Corporation, Japan Andrzej Trzynadlowski Univ. of Nevada, USA Dapeng Zheng Emerson Network Power, China Zhihong Wu Tongji Univ., China Xiaodong Liu Anhui Univ. of Technology, China 10 Zhengyu Lv Zhejiang Univ., China Qionglin Zheng Beijing Jiaotong Univ., China Conference Partners Platinum Parters: Ping Wang Tianjin Univ., China Miao Zhang Guangdong Univ. of Technology, China Dairun Zhang Sichuan Univ., China Jianguo Jiang Shanghai Jiaotong Univ. Fuji Electric Yimin Lu Guangxi Univ., China Jianping Xu Southwest Jiaotong Univ., China Xu Cai Shanghai Jiaotong Univ. Shenzhen Inovance Technology Co., Ltd. Xi Xiao Tsinghua Univ., China Yue Sun Chongqing Univ., China IEEE PEAC’ 2014 SPONSOR, COMMITTEE & PARTNERS SPONSOR, COMMITTEE & PARTNERS Yanru Zhong Xi'an Univ. of Technology, China Cong Wang China Univ. of Mining Technology Chenghui Zhang Shandong Univ., China Weiping Zhang Beijing Univ. of Technology, China Chunjiang Zhang Yanshan Univ., China Tianhao Tang Shanghai Maritime Univ., China Yi Ruan Shanghai Univ., China An Luo Hunan Univ., China MITSUBISHI ELECTRIC Delta Electronics, Inc. Gold Parters: Sungrow Power Supply Co., Ltd. XiaMen KeHua HengSheng Co., Ltd. Silver Parters: ZheJiang KEDA Magnetoelectricity Co., Ltd. Magnetics International Yangzhou Kaipu Electronics Co., Ltd. IEEE PEAC’ 2014 11 KEY: T - Tutorial TS - Technical Session IS - Industry Session SS - Special Session Tuesday, November 4th Registration 9:00-17:00 WINTER GARDEN Registration 8:00-18:00 WINTER GARDEN T1 Development of Power Converters 9:00-12:00 MEETING ROOM 2 T2 Power Semiconductors and Power Converters -Current Trends, Future, Issues and Solutions- 9:00-12:00 MEETING ROOM 3 T3 The Effects of Magnetic Components on EMI Behaviors of SMPS 9:00-12:00 MEETING ROOM 4 T4 Grid Integration of Electric Vehicles: Wired and Wireless Solutions 9:00-12:00 MEETING ROOM 5 Lunch 12:00-13:30 DINING AREA The Role of Circuits and Systems Theory in Power Electronics: Methods, Applications and Case Studies 14:00-17:00 MEETING ROOM 2 T6 Wide Bandgap based Power Electronics 14:00-17:00 MEETING ROOM 3 T7 Design for Reliability of Power Electronic Systems 14:00-17:00 MEETING ROOM 4 T8 Advanced control of power converters 14:00-17:00 MEETING ROOM 5 Welcome Reception & Exhibition 18:00-20:00 WINTER GARDEN Registration 8:00-17:00 WINTER GARDEN Exhibition 8:30-18:00 WINTER GARDEN Wednesday, November 5th T5 Thursday, November 6th 12 IEEE PEAC’ 2014 IEEE PEAC’ 2014 13 CONFERENCE SCHEDULE CONFERENCE SCHEDULE Conference Schedule TS - Technical Session IS - Industry Session SS - Special Session Opening Ceremony 8:30-9:00 GRAND BALLROOM Plenary Session -1 9:00-10:20 GRAND BALLROOM Coffee Break 10:20-10:40 WINTER GARDEN Plenary Session - 2 10:40-12:00 GRAND BALLROOM Lunch 12:00-13:30 DINING AREA Plenary Session - 3 13:30-14:50 GRAND BALLROOM Coffee Break 14:50-15:10 WINTER GARDEN Plenary Session - 4 15:10-16:30 GRAND BALLROOM Dialogue Sessions 16:30-18:00 POSTER AREA Dinner 18:00-19:30 DINING AREA Speaker Breakfast 6:45-7:45 DINING AREA A Registration 7:00-16:00 WINTER GARDEN Exhibition 8:00-16:00 WINTER GARDEN TS7-1 Step-up DC/DC Converter 8:00-10:00 MEETING ROOM 2 TS7-2 Wind Power Converter-1 8:00-9:40 MEETING ROOM 3 TS7-3 Multilevel Converter-1 8:00-10:00 MEETING ROOM 4 IS7-1 Industry Session 8:30-10:00 MEETING ROOM 5 TS7-4 Micro-grid System-1 8:00-9:40 MEETING ROOM 6 Coffee Break 10:00-10:20 TS7-5 Resonant DC/DC Converter 10:20-11:40 MEETING ROOM 2 TS7-6 Wind Power Converter-2 10:20-11:40 MEETING ROOM 3 Friday, November 7th 14 IEEE PEAC’ 2014 IEEE PEAC’ 2014 15 CONFERENCE SCHEDULE CONFERENCE SCHEDULE KEY: T - Tutorial TS - Technical Session IS - Industry Session SS - Special Session TS7-7 Multilevel Converter-2 10:20-12:00 MEETING ROOM 4 IS7-2 Industry Session 10:20-11:20 MEETING ROOM 5 TS7-8 Micro-grid System-2 10:20-11:40 MEETING ROOM 6 Lunch 12:00-13:30 DINING AREA TS7-9 DC/DC Converter 13:30-15:30 MEETING ROOM 2 TS7-10 PV System-1 13:30-15:30 MEETING ROOM 3 TS7-11 SiC and Si Devices 13:30-15:30 MEETING ROOM 4 SS7-1 Special Session on Electric Generator Design, Power Electronics and Control Systems for Marine Renewable Energy-1 13:30-15:10 MEETING ROOM 5 TS7-12 Micro-grid System-3 13:30-15:30 MEETING ROOM 6 Coffee Break 15:30-15:50 TS7-13 Inverter and Power Supply 15:50-17:50 MEETING ROOM 2 TS7-14 PV System-2 15:50-17:30 MEETING ROOM 3 TS7-15 GaN Devices 15:50-17:10 MEETING ROOM 4 SS7-2 Special Session on Electric Generator Design, Power Electronics and Control Systems for Marine Renewable Energy-2 15:50-17:10 MEETING ROOM 5 TS7-16 Grid-Tied Inverter-1 15:50-17:50 MEETING ROOM 6 Banquet 18:00-20:00 GRAND BALLROOM Speaker Breakfast 6:45-7:45 DINING AREA A Registration 7:00-12:00 WINTER GARDEN Motor Drive and Control-1 8:00-10:00 MEETING ROOM 2 Saturday, November 8th TS8-17 16 IEEE PEAC’ 2014 IEEE PEAC’ 2014 17 CONFERENCE SCHEDULE CONFERENCE SCHEDULE KEY: T - Tutorial TS - Technical Session IS - Industry Session SS - Special Session TS8-18 PV System-3 8:00-9:40 MEETING ROOM 3 TS8-19 Magnetics 8:00-10:00 MEETING ROOM 4 TS8-20 Wireless Power Transfer System-1 8:00-9:40 MEETING ROOM 5 TS8-21 Grid-Tied Inverter-2 8:00-9:40 MEETING ROOM 6 Coffee Break 10:00-10:20 TS8-22 Motor Drive and Control-2 10:20-12:20 MEETING ROOM 2 TS8-23 Power Factor Correction Converter 10:20-11:40 MEETING ROOM 3 TS8-24 Electric Vehicles and Railway Systems 10:20-12:20 MEETING ROOM 4 TS8-25 Wireless Power Transfer System-2 10:20-11:40 MEETING ROOM 5 TS8-26 Distribution Systems 10:20-12:20 MEETING ROOM 6 Lunch 12:20-13:30 DINING AREA TS8-27 Topology and Control of Inverter 13:30-15:30 MEETING ROOM 2 TS8-28 Rectifier 13:30-15:30 MEETING ROOM 3 TS8-29 LED Lighting 13:30-14:50 MEETING ROOM 4 TS8-30 Special Power Supply-1 13:30-15:10 MEETING ROOM 5 TS8-31 Soft-switching DC/DC Converter 13:30-15:30 MEETING ROOM 6 Coffee Break 15:30-15:50 TS8-32 Advanced Control Method 15:50-17:50 MEETING ROOM 2 TS8-33 Bidirectional Converter 15:50-17:10 MEETING ROOM 3 TS8-34 Dual Active Bridge Converter 15:50-17:50 MEETING ROOM 4 TS8-35 Special Power Supply-2 15:50-17:30 MEETING ROOM 5 Dinner 18:00-19:30 DINING AREA 18 IEEE PEAC’ 2014 IEEE PEAC’ 2014 19 CONFERENCE SCHEDULE CONFERENCE SCHEDULE KEY: T - Tutorial Conference Location Ground Transportation Holiday Inn Shanghai Pudong Kangqiao AREA AIRPORTS No. 1088, Xiuyan Road, Pudong New Area, Shanghai, 201315, China Tel: +86-21-38291888 Fax: +86-21-38291899 ◆ Shanghai Pudong International Airport (PVG) Holiday Inn Shanghai Pudong Kangqiao strategically located at the center of Pudong New District with a landscaped garden. It is by far the most beautiful Holiday Inn in China and the flagship for the brand. With the convenient access to the expressways, the hotel is only 25 minutes away from both of the Shanghai international Airports and Shanghai Railway Stations. Additional Accommodation Hotel: Jinjiang Inn Hotel (Shanghai Zhoupu) No. 1030, Kangshen Road, Pudong New Area, Shanghai, China (1.6 km away from conference hotel) Tel: +86-21-20962266 Fax: +86-21-20967799 Website: www.jinjianginns.com GENERAL INFORMATION GENERAL INFORMATION General Information ◆ Shanghai Hongqiao International Airport(SHA) Free Shuttle Bus Service We will offer the FREE shuttle bus from the airport to conference hotel during 4th-5th November and from conference hotel to the airport during 8th-9th November. The time table is as below: ◆ 4th-5th November, 2014 Departure Time: 9:00-21:00, Buses leave every hour on the hour time. From Shanghai Pudong International Airport (PVG) and Shanghai Hongqiao International Airport (SHA) to Holiday Inn Shanghai Pudong Kangqiao Pick-up Points: ◇ Shanghai Pudong International Airport (PVG) Terminal 1 (T1): Arrivals Exit Terminal 2 (T2): Arrivals Exit ◇ Shanghai Hongqiao International Airport(SHA) Terminal 1 (T1): Exit Gate No.3 Terminal 2 (T2): For Domestic Arrivals: Exit Gate No. 4 (with checked baggage); South Rainbow Bridge Exit, North Rainbow Bridge Exit (without checked baggage) For International / Hongkong, Macau, Taiwan Arrivals: Exit Gate No. 10 ◇ Shanghai Hongqiao High-Speed Railway Station (Take the shuttle bus at Shanghai Hongqiao International Airport) North Arrivals No.15 and South Arrivals No.15 20 IEEE PEAC’ 2014 IEEE PEAC’ 2014 21 Departure time: 8th November 18:30 9th November 7:00 9:00 11:00 13:00 15:00 From Holiday Inn Shanghai Pudong Kangqiao to Shanghai Pudong International Airport (PVG) and Shanghai Hongqiao International Airport (SHA) Public Transport Guide (To Holiday Inn Shanghai Pudong Kangqiao) From Shanghai Hongqiao Railway Station/Airport 31km from Conference Location 1. Take Metro Line 10(Hongqiao Rail Station to New JiangWan Town) to Jiaotong University Station; 2. Transfer to Metro Line 11 (North JiaDing to Luoshan Rd. ) reach Pusan Rd. Station ( Exit Gate No.2); 3. Walk 79 meters to Pusan Rd./Yuqiao Rd. Bus Station( refer to Traffic Map1); 4. Transfer to Bus 572(West Huaihai Rd./Kaixuan Rd. to Xiuyan Rd./North Zhouyuan Rd., do not take interzone Bus 572) reach Xiuyan Rd./North Zhouyuan Rd. Station; 5. Walk 260 meters to reach Holiday Inn Shanghai Pudong Kangqiao( refer to Traffic Map2). From Shanghai South Railway Station 23km from Conference Location From Shanghai Railway Station 24km from Conference Location 1. Take Metro Line 1( Fujin Rd. – Xinzhuang) to People's Square Station; 2. Transfer to Metro Line 8(Shiguang Rd. to Shendu Highway) reach Oriental Sports Center Station; 3. Transfer to Metro Line11(North JiaDing to Luoshan Rd) reach Pusan Rd. Station( Exit Gate No.2); 4. Walk 79 meters to Pusan Rd./Yuqiao Rd. Bus Station( refer to Traffic Map1); 5. Transfer to Bus 572(West Huaihai Rd./Kaixuan Rd. to Xiuyan Rd./North Zhouyuan Rd., do not take interzone Bus 572) reach Xiuyan Rd./North Zhouyuan Rd. Station; 6. Walk 260 meters to reach Holiday Inn Shanghai Pudong Kangqiao( refer to Traffic Map2). From Shanghai Pudong International Airport 23km from Conference Location 1. Take Airport Busline No.8 to South Zhu Highway/ Zhouzhu Highway (Zhuqiao Station) Station; 2. Walk 10 meters to the bus station across the street, transfer to Longbin Special Line( Last Bus:18:00) or Longhui Special Line(Last Bus:19:15), reach Xiuyan Rd./North Zhouyuan Rd. Station; 3. Walk 390 meters to reach Holiday Inn Shanghai Pudong Kangqiao( refer to Traffic Map3). 1. Take Metro Line 1(Xinzhuang – Fujin Rd.) to Xujiahui Station; 2. Transfer to Metro Line 11 (North JiaDing to Luoshan Rd. ) reach Pusan Rd. Station ( Exit Gate No.2); 3. Walk 79 meters to Pusan Rd./Yuqiao Rd. Bus Station( refer to Traffic Map1); 4. Transfer to Bus 572(West Huaihai Rd./Kaixuan Rd. to Xiuyan Rd./North Zhouyuan Rd., do not take interzone Bus 572) reach Xiuyan Rd./North Zhouyuan Rd. Station; 5. Walk 260 meters to reach Holiday Inn Shanghai Pudong Kangqiao( refer to Traffic Map2). 22 IEEE PEAC’ 2014 IEEE PEAC’ 2014 23 GENERAL INFORMATION GENERAL INFORMATION ◆ 8th-9th November, 2014 Oral Technical Sessions and Industry Sessions: All oral presenters should submit your presentation file and printed biography from 10:00am-17:00pm on Nov. 5th-6th at MEETING ROOM 1. Authors must assure that all fonts needed are embedded in their presentation files, which are compatible with Microsoft Office 2007. To avoid disruption of the session, the author will not be allowed to use their own computer and files will need to be downloaded to the computer from a USB key. Conference Registration The length of the presentation is restricted to 15 minutes, plus 5 minutes for questions, totaling 20 minutes for each paper. In order to participate in the IEEE PEAC’ 2014 you must be registered. Prepaid conference registration is required for the tutorial, plenary Session, and technical Session and dialogue sessions. For presenters and Session Chairs in the Oral Technical Sessions and the Industry Sessions, you must attend a mandatory speaker breakfast on the morning of your presentation. The breakfast will be held at To register or pick up your conference materials please visit the PEAC2014 Registration Reception in the Holiday Inn Shanghai Pudong Kangqiao (Winter Garden). 6:45am-7:45am in Dining Area A (please refer to Tuesday, November 4th……….. 9:00-17:00 Wednesday, November 5th…….8:00-18:00 Thursday, November 6th…….....8:00-17:00 Friday, November 7th…………...7:00-16:00 Saturday, November 8th……......7:00-12:00 24 IEEE PEAC’ 2014 conference hotel floor plan on the Appendix-2) at the Holiday Inn Shanghai Pudong Kangqiao. A breakfast ticket is needed, you can get the ticket from 10:00am-17:00pm on Nov. 5th-6th at MEETING ROOM 1 when you submit your presentation file and printed biography. The Session Chairs will host this breakfast at which the presenter will be given your speaker ribbon and provided instructions. If you have not provided your printed biography beforehand, you can provide your printed biography to your session chair at the breakfast. IEEE PEAC’ 2014 25 GENERAL INFORMATION GENERAL INFORMATION Information for Presenters and Session Chairs For those presenters in the Dialogue Sessions, you will be able to mount your presentation on the poster boards in the Poster Area (please refer to conference hotel floor plan on the Appendix-2) from 10:00am to 15:30pm on Nov. 6th, 2014, using tape we will provide. For Dialogue Sessions–available poster surface area is restricted to 2000mm (height) x 950 mm (width). The author of each poster will have 2-3 minutes to orally introduce his/her work. The session chairs will move from one poster to the next consecutively. Optional Tours One day Shanghai Tour Date: November 7th, 2014 9:00-17:00 In the morning, historical walk on the The Bund (Waitan). It is one of the most noted architectural symbols of Shanghai. The word "Bund" derives from an Anglo-Indian word for an embankment along a muddy waterfront. The Bund in Shanghai was first used when the first British company opened a office there in 1846. The Bund, or the waterfront, is now surrounded by about 50 various buildings of different architectural styles including Gothic, Baroque, Romanesque, Classicism and the Renaissance. Next stop is the Shanghai Bazaar and Yu Yuan Garden. Yuyuan is the most famous Chinese garden in Shanghai. It is located in the heart of Shanghai's Old town (Shanghai bazaar), one of the few existing historical tourist places in Shanghai. Shanghai bazaar is teemed with a great number of traditional narrow streets and lanes where vendors sell the native souvenirs and food stuffs to the people. bronzes, jade, ceramics, paintings, and calligraphy. Next is the Xin Tian Di which is akin to Lan Kwai Fong in Hong Kong and Clarke Quay in Singapore. Now it is a good blend between the modern and the old area, hence Shikumen Xintiandi. The past and the present and the East and West makes Xintiandi very charming, making it into the most ideal site for visitors to have a good view of the history, culture, and modern lifestyle of Shanghai. One day Suzhou Tour Date: November 8th, 2014 In the morning, we will visit The Humble Administrator’s Garden which is a famous Chinese garden in Suzhou. It is the largest garden in Suzhou and is generally considered to be the finest garden in Southern China. It was awarded a World Heritage Site. After lunch, you will cruise on the Grand Canal. The Grand Canal is the earliest and longest manmade watercourse in the world. With an overall length of 1794 kilometers, the ancient Grand Canal started in Beijing in the north and reached Hangzhou in the south. The ancient city of Suzhou was the paradise for all merchants owing to the Beijing-Hangzhou Grand Canal; even to this day, about half of the volume of goods is transported by waterway through the Grand Canal. To boat on the ancient Grand Canal is absolutely one of the best ways to appreciate the beauty of typical ancient river towns in south region of Yangtze River. After that, we will visit the Tiger Hill. After the tour, transfer back to the hotel. After lunch, visit Shanghai Museum. It is one of the biggest museums in China, with a collection of over 120,000 pieces of Chinese art & cultural relics. The museum is especially famous for its treasures of 26 IEEE PEAC’ 2014 IEEE PEAC’ 2014 27 GENERAL INFORMATION GENERAL INFORMATION Dialogue Sessions: Plenary Session SESSION CHAIRS: Dianguo Xu, Harbin Institute of Technology, China Xinbo Ruan, Nanjing University of Aeronautics and Astronautics, China Trend of Power Electronics Researches and Applications electronics packaging and integration, and modeling and control. Dr. Lee received the William E. Newell Power Electronics Award in 1989, the Arthur E. Fury Award for Leadership and Innovation in Advancing Power Electronic Systems Technology in 1998, and the Ernst-Blickle Award for achievement in the field of power electronics in 2005. He has served as president of the IEEE Power Electronics Society during 1993–1994. He was named to the National Academy of Engineering in 2011. 9:00-9:40 Prof. Fred C. Lee Virginia Polytechnic University and State University; Member of US National Academy of Engineering, USA Speaker’s Biography: Prof. Fred C Lee received the B.S. degree from the National Cheng Kung University, in 1968, and the M.S. and Ph.D. degrees from Duke University in 1972 and 1974, respectively, all in electrical engineering. He is currently a University Distinguished Professor at Virginia Tech, Blacksburg, where he is also the Director of the Center for Power Electronics Systems (CPES), a National Science Foundation Engineering Research Center established in 1998. He holds 69 U.S. patents and has published 238 journal articles and more than 596 refereed technical papers. During his tenure at Virginia Tech, he has supervised to completion 71 Ph.D. and 80 Master’s students. His research interests include highfrequency power conversion, distributed power systems, renewable energy, power quality, high-density 28 IEEE PEAC’ 2014 Delta’s Journey to Energy Savings 9:40-10:20 Mr. Yancey Hai Chairman of the Delta Electronics, Inc., Taiwan, China Abstract: Delta Group, founded by Mr. Bruce C.H. Cheng in 1971, is the world’s No. 1 switching power supply provider. Our company mission is: “To provide innovative, clean and energy-efficient solutions for a better tomorrow,” which guides our business in addressing key environmental issues such as energy conservation and global climate change. Delta’s core business is developing innovative energysaving products and solutions in the categories of power electronics, energy management, and smart green life. In 2013, the company's global revenue was $7.18 billion and its CAGR (compound annual growth rate) since it was founded in 1971 was 33.4%. We invest 5% to 6% of our annual sales revenues in R&D and have worldwide R&D facilities in Mainland IEEE PEAC’ 2014 29 PLENARY SESSION PLENARY SESSION Thursday November 6th, 2014 9:00-12:00 GRAND BALLROOM Delta’s electricity intensity (electricity consumption per unit of output value) has dropped by 40% since 2009 with the implementation of innovative energy-saving practices and the efforts of employees at our global sites. Delta has promised that all newly constructed Delta buildings will only be green buildings. By adopting energy-saving techniques and building automation solutions, Delta’s 11 certified Green Buildings saved over 12M KWh in 2013. Speaker's Biography: Mr. Yancey Hai joined Delta Electronics in 1999 and became Vice Chairman and CEO in 2004. In June 2012, Mr. Hai was elected as Chairman to oversee Delta’s corporate strategic direction and major decisions as well as solidify the corporate governance mechanism. Under Mr. Hai's leadership Delta Electronics is now the global leader in switching power supplies and a major player in state-of-the-art green technologies and energy management solutions that fulfill Delta’s corporate mission: “To provide innovative, clean and energyefficient solutions for a better tomorrow”. Delta Electronics quadrupled its revenues to $5.9 billion and increased its market capitalization from $2 billion in 2004 to over $13 billion in 2013 with more than 70% of its shares held by global institutional investors. In recognition of his significant contributions, Mr. Hai received the “2010 China Business Leader of the Year Award” co-hosted by CNBC Asia Pacific and the China Business Network, and was named “Asia Innovator of 30 IEEE PEAC’ 2014 the Year” at the 2010 CNBC Asia Business Leaders Awards. In 2012 Mr. Hai was honored with IR Magazine’s “Best CEO Award” of Greater China. In 2013 has won the Asia Talent Management Award at CNBC’s as 12th Asia Business Leaders Awards. With this award Mr. Hai is the first business leader of a Taiwan based company to win ABLA honors twice. Before joining Delta, Mr. Hai was the country manager of GE Capital Taiwan, and prior to that he served in key positions in international financial organizations such as JP Morgan and Citibank. Mr. Hai received an MA in International Business Management from the University of Texas at Dallas. Advancing Power Devices Efficient Power Conversion for More- 10:40-11:20 Dr. Tatsuhiko Fujihira Chief Technology Officer for Electronic Devices, Fuji Electric Co., Ltd., Japan Abstract: Growing population and economy of this planet require us to build up a sustainable society system. Regarding energy, more renewable resources, for example solar and wind, must be introduced in place of limited fossil fuels. In electric power conversion, more energy-saving and more resource-saving, efficient systems must be developed and applied all over the world. Power devices are the key to develop more efficient power electronic systems. In this speech, advancing power devices of today and their application examples to efficient power converters are presented including SiC and new types of IGBT. Speaker's Biography: Dr. Tatsuhiko Fujihira is the CTO for Electronic Devices, Fuji Electric Co., Ltd., Ja- IEEE PEAC’ 2014 31 PLENARY SESSION PLENARY SESSION China, Taiwan, Singapore, Japan, the U.S., and Europe. With advanced power electronics technology, Delta offers industry-leading power products in many segments, such as information technology and telecommunication. In recent years, Delta has changed from being a key component supplier to becoming a provider of green solutions. From 2010 to 2013, Delta’s energy-saving products and solutions saved 11.9 billion kWh of electricity and 6.4 million tons of CO2e (carbon dioxide equivalent) for our customers. Powering the Future: Developments in Miniaturized, Isolated Power Converters operating at Very High Frequency 11:20-12:00 Prof. David J. Perreault Massachusetts Institute of Technology, USA Abstract: Advances in the miniaturization, integration and performance of power electronics are becoming essential to reducing energy consumption and increasing functionality in myriad applications. This talk describes emerging techniques that seek to address these challenges, with a focus on isolated dc-dc converters operating at Very High Frequencies (VHF, 30300 MHz). Power circuit and drive topologies, integrated power devices and controls, and substrateintegrated transformers suitable for efficient operation in the VHF regime are described, along with construction techniques to fabricate high-power-density isolated converters. These techniques are demonstrated in a 32 IEEE PEAC’ 2014 prototype 6 W isolated dc-dc converter that achieves 75% efficiency at 75 MHz operation at a power density of > 200 W/in3. Speaker’s Biography: Prof. David J. Perreault received the B.S. degree from Boston University, in 1989, and the S.M. and Ph.D. degrees from the Massachusetts Institute of Technology (MIT), in 1991 and 1997, respectively. In 1997, he joined the MIT Laboratory for Electromagnetic and Electronic Systems as a Postdoctoral Associate, and became a Research Scientist in 1999. In 2001, he joined the Department of Electrical Engineering and Computer Science, MIT, where he is currently an full Professor. His interests include design, manufacturing, and control techniques for power electronics, and in their use in a wide range of applications. 13:30-16:30 GRAND BALLROOM SESSION CHAIRS: Bo Zhang, South China University of Technology, China Jinfa Zhang, Delta Electronics Shanghai Co., Ltd., China Solid State Transformer 13:30-14:10 Prof. Johann W. Kolar Swiss Federal Institute of Technology (ETH) Zurich, Switzerland Speaker’s Biography: Prof. Johann W. Kolar received the M.Sc. and Ph.D. degrees from the University of Technology Vienna, Vienna, Austria. Since February 1, 2001, he has been a Professor and the Head of the Power Electronic Systems Laboratory, IEEE PEAC’ 2014 33 PLENARY SESSION PLENARY SESSION pan. He received BE and ME degrees from the University of Tokyo, Japan, and DE degree from the University of Yamanashi, Japan, in 1982, 1984, and 1998, respectively. Dr. Fujihira has more than 25 years of experience in the development of power semiconductor devices and process technologies. His activities have been focused on high-voltage and/or high-current power semiconductor devices, for example IGBT, power MOSFET, and high-voltage and/or -power ICs. Dr. Fujihira has authored more than 30 papers, including the world-first technical paper of superjunction devices, in which he named the device as “Superjunction”, holds more than 100 patens, and is the receiver of three scientific awards. He is responsible for the research and the development of power semiconductor devices from 2004. Dr. Kolar is an IEEE Fellow. He has been appointed an IEEE Distinguished Lecturer by the IEEE Power Electronics Society in 2011. From 1997 through 2000, he has been serving as an Associate Editor of the IEEE Transactions on Industrial Electronics, and since 2001, as an Associate Editor of the IEEE Transactions on Power Electronics. He received seven IEEE Transactions Prize Paper Awards and seven IEEE Conference Prize Paper Awards. Latest Power Chip and Module Technologies 14:10-14:50 Dr. Gourab Majumdar Mitsubishi Electric Corporation, Japan Abstract: The global climate change issue has become a concern of everyone’s daily life forcing demand for energy saving and ecological compatibility in power consumption to grow extremely high. This trend is driving developments of newer and advanced power device technologies for more-efficient power conversion in all areas power electronics application including renewable energy sources. Thus, power devices are considered to be extremely important for contributing effectively in the global effort to curb climate change. This presentation is prepared to explain various state- 34 IEEE PEAC’ 2014 of-the-art power devices/modules focusing on the latest generation of silicon IGBT and SiC power chip technologies. It will also provide highlights of expected future trends in such fields. Speaker's Biography: Gourab Majumdar (b. 1955) received Bachelor of Technology degree in electrical engineering from Indian Institute of Technology (IIT), Delhi, India in 1977 and Doctor of Engineering degree in engineering from Kyshuu Institute of Technology (KIT), Fukuoka, Japan in 2005. He came to Japan in September, 1978 on a special On-the-Job-Training program in the field of high electric power systems sponsored by Mitsubishi Electrc Corporation. He joined Mitsubishi Electric Corporation, Japan in 1980 and has worked in the company’s advanced power semiconductor development, design and applications units since 1983. In April, 2012, he was appointed as Fellow of Mitsubishi Electric, Semiconductor & Device Group and is currently carrying out his responsibilities in this executive cadre. He has published many technical papers and co-authored several technical books on advanced power devices such as IGBTs (Insulated Gate Bipolar Transistors) and IPMs (Intelligent Power Modules) and holds several patents in the related fields. He is a receipient of the prestigious National Invention Award in Japan in 2005 for invention of the IPM’s fundamental concept and has also received several other awards, including the top-ranked “Dai-5 Monodzukuri Nihon Taishou (The fifth Japan Craftmanship Grandprix)” award from the honorary Minister of Economy, Trade and Industry in 2013, for contribution in development and commercialization of various generations of the IPM product family. He also serves as a key organizing committee member of various international conferences related to power semiconductor technology such as PCIM and ISPSD. IEEE PEAC’ 2014 35 PLENARY SESSION PLENARY SESSION Swiss Federal Institute of Technology (ETH) Zurich, Zurich, Switzerland. He has proposed numerous novel pulse-width modulation converter topologies, and modulation and control concepts, e.g., the Vienna rectifier, the Swiss rectifier, and the three-phase ac–ac sparse matrix converter. He has published over 550 scientific papers in international journals and conference proceedings, and has filed more than 110 patents. 15:10-15:50 PLENARY SESSION Prof. Malcolm D McCulloch Head of Energy Power Group, Oxford University Abstract: With over 1.3 billion people without access to electricity, there is a requirement to reconsider the architecture of an effective electrical energy system that can be deployed to rural communities. It will be decentralised and contain a mix of renewables and energy storage, which are capital intensive. Over 3 million low power solar home systems have been deployed, but they have a typical power rating of 10W. Future energy systems will have to be efficient with the deployment of capital, and scale with the users requirements. This presentation will show one possible solution, where the systems starts with low-medium power (200500W) DC - esque system, which can then be readily upscaled to a higher power 2 kW AC grid based system, without having to change the wiring in the home. Initial results will be presented. Speaker's Biography: In 1993 Malcolm moved to Oxford University and to start up the Electrical Power Group (EPG). Climate change, resource depletion and social inequity are the big challenges facing our civilisation. The group’s focus is to developing, and commercialise, sustainable energy technologies in the three sectors of domestic energy use, transport and renewable generation. The domestic sector is one of the largest energy sectors in the UK. EPG developed a smart meter that can identify where the energy is being used in the house, an essential requirement to enable behaviour change. 36 IEEE PEAC’ 2014 This technology is now being commercialised by the company that McCulloch is a founder: Navetas Energy Management. Research is on going on developing techniques to determine the stress of the network from the point of common connection, as is the development of smart, cost effective, thermal energy storage. For the more electric transport sector, advanced lightweight electric motors have been developed, including a high torque density motor which is the core of the spin-out company YASA Motors. His is also the director of the Institute for Carbon and Energy Reduction in Transport, based at the Oxford Martin School, which is researching the techno-economic diffusion on new mobility modes. In renewable generation, novel lightweight low speed direct coupled generators are being developed along with a transverse axis tidal turbine, forming the IP of the spin-out company Kepler Energy. Prof McCulloch believes that developing the technology is only the start. There needs to be a public awareness of the seriousness of the problems. Therefore he has been instrumental, together with a small team of people, in conceiving and developing Tipping Point, an annual event to bring some of the top artists and climate scientists together. Through the creative use of the open space format, this forum has proved to be extremely successful that has found international acceptance. This has led to Prof McCulloch being an advisor to Ian McKewan for his book Solar. He has also been involved presenting the research to a wide range of audiences, from schools to the World Economic Forum in Tianjin China in 2010 and Hindustan Leadership summit in New Delhi, 2013. Dr McCulloch has over 75 publications and 15 patent and patent applications. IEEE PEAC’ 2014 37 PLENARY SESSION A new wiring system for domestic use for off-grid use 15:50-16:30 PLENARY SESSION Prof. Bin Wu Ryerson University; Fellow of the Engineering Institute of Canada and the Canadian Academy of Engineering, Canada lence Award in 2001, NSERC Synergy Award for Innovation in 2002, and Professional Engineers Ontario (PEO) Engineering Excellence Medal in 2014. He is a fellow of Institute of Electrical and Electronics Engineers (IEEE), Engineering Institute of Canada (EIC) and Canadian Academy of Engineering (CAE). PLENARY SESSION Medium Voltage Drives: State of the Art and Emerging Technologies Abstract: With the advancement of power electronics technology, medium voltage (MV, 2.3KV-13.8KV) drives have found extensive applications in industry. This talk presents the latest developments and emerging technologies of the MV drives. A number of state-of-the-art converter topologies for the MV drive will be introduced, including multilevel nested neutral point clamped (NNPC) converters, modular multilevel converters (MMC) and multi-module matrix converters (MMMC). To eliminate the MV transformer, which is costly, heavy and bulky, viable solutions in developing transformerless MV drives will be discussed. The talk concludes with a comprehensive technical summary of major commercial MV drives in the world. Speaker's Biography: Bin Wu graduated from Donghua University, Shanghai, China in 1978, and received his M.A.Sc. and Ph.D. degrees in electrical and computer engineering from the University of Toronto, Canada in 1989 and 1993, respectively. He joined Ryerson University in 1993, where he is currently a Professor and Senior NSERC/Rockwell Industrial Research Chair. Dr. Wu has published more than 300 technical papers, authored/coauthored two WileyIEEE Press books, and holds more than 25 issued/ pending US/European patents in the area of power conversion, medium voltage drives, and renewable energy systems. Dr. Wu received the Gold Medal of the Governor General of Canada in 1993, Premier’s Research Excel- 38 IEEE PEAC’ 2014 IEEE PEAC’ 2014 39 Wednesday November 5th, 2014 9:00-12:00 TUTORIAL T1: Development of Power Converters Prof. Tsai-Fu Wu, National Tsing Hua University, Taiwan, China MEETING ROOM 2 Power converters are the locomotive of the powerelectronics train. Power converters are the entrance gate to the power-electronics field. They lead and guide the power-electronics applications. Power converters are the trunks of power-electronics trees. Without them, all of the analysis, design and control branches cannot exist. This tutorial course presents a systematic approach to develop power converters. In the introduction, the existing PWM, single-stage, zsource, soft-switching and resonant converters are reviewed. Starting from section II: Origin of Converters, we will identify the first lossless PWM converter and reveal possible development principles. In section III, the typical input-output voltage transfer curves are discussed. Based on the original converter, two converter development schemes, Graft and Layer, are introduced in sections IV & V to develop multi-function converters systematically and to realize the transfer curves. The well known PWM converters and single-stageconverters will be adopted as illustration examples. Similar to the “decoding the genome”, we will present how to decode the PWM converters in section VI. Conventionally, many attempts have been proposed to develop these converters based mostly on canonical cell concepts and by introducing extra LC filters to the cells. In this presentation, the well known voltage-fed, current-fed and quasi z-source converters will be decoded and derived from the original converter step by step. 40 IEEE PEAC’ 2014 The aforementioned approaches can only develop nonisolated converters. By introducing dc transformers into the non-isolated ones, their isolated counterparts can be derived. To integrate more converters to increase power level or reduce current ripple, multi-phase converters are usually adopted. In literature, non-PWM power converters have been developed for low power applications. These will be presented in section VII. Before the conclusions, analogy of PWM converters to DNA (deoxyribonucleic acid) is addressed. T2: Power Semiconductors and Power Converters - Current Trends, Future, Issues and Solutions Dr. Petar. J. Grbović, HUAWEI Technologies Dusseldorf GmbH, Germany Dr. Thierry. A. Meynard, LAPLACE / ENSEEIHT / INPT, France MEETING ROOM 3 Power electronics and static power converters play significant role in industrial applications,power generation and transmission, home appliance, transportation, etc., etc. Today, our life will becompletely different without power electronics. Power electronics, particularly power semiconductors are progressing on daily bases. Each new generation of power semiconductor introduces new challenges and issues. Some of them make almost impossible to fully utilize full advantages of new power semiconductor devices. Two of the challenges are high di/dt and dv/dt, which in combination with parasitic inductance and capacitance of the power semiconductor and converter create issues of over-voltage, radiated and conducted EMI emission, stress of the load isolation, etc., etc. The above mentioned issues (di/dt and dv/dt) will make impossible to fully utilize all the benefits of future IEEE PEAC’ 2014 41 TUTORIAL Tutorials TUTORIAL The tutorial is mainly aimed at Master/PhD students, power electronics engineers and professionals who want to improve their knowledge and understanding of current and future issues and solutions in application of new power semiconductor devices. T3: The Effects of Magnetic Components on EMI Behaviors of SMPS Prof. Wei Chen, Fuzhou University, China MEETING ROOM 4 Magnetics are the key components in power conversion systems. Besides their electrical issues, such as magnetizing and leakage inductances and the loss issues, such as core loss and winding losses, they also have great effects on the SMPS EMI issues. The tutorial will clearly illustrate the mechanism of SMPS EMI behaviors of magnetics from the point of view of electromagnetic fields and reveal the factors affecting the EMI issues. The conductive behaviors and near-field magnetic coupling are also illustrated. And moreover, some schemes will be shown to reduce the EMI noises by the design of magnetics. The tutorial begins with the EMI introduction and the noise paths in SMPS, and then shows how the magnetic components affect the EMI. Some examples, such as PFC and Flyback circuits are shown to illustrate how to design the magnetic components considering the EMI. Finally, the evaluation and test schemes are presented to estimate the EMI behaviors of magnetics. The tutorial will help engineers to create new ideas to solve the SMPS EMI problems by magnetic component designs. 42 IEEE PEAC’ 2014 T4: Grid Integration of Electric Vehicles: Wired and Wireless Solutions Prof. Udaya K. Madawala, The University of Auckland, New Zealand Dr. Duleepa Thrimawithana, The University of Auckland, New Zealand MEETING ROOM 5 Renewable Energy (RE) sources, energy storage systems and Electric Vehicles (EVs) can be considered as partial solutions to global energy crisis as well as for sustainable living. The interface that facilitates either uni- or bi-directional power flow between the grid and EVs/REs is an indispensable component of all these solutions. An efficient, compact and reliable power interface is, therefore, vital for grid integration of both EVs and REs. Consequently, grid integration has become one of the main focuses of current research in both industrial and academic community. This tutorial presents trends, together with the latest advances, in grid integration of EVs. Both wired and wireless solutions, employed for grid integration of EVs, are discussed along with battery management systems. Inductive Power Transfer (IPT) technology, widely used for wireless grid integration of EVs, is discussed in detail, covering theory, modeling and control in relation to both uni- and bi-directional power flows. Different concepts and control strategies that have been proposed and implemented as wired solutions are also presented, using models and analyses as appropriate. 14:00-17:00 T5: The Role of Circuits and Systems Theory in Power Electronics: Methods, Applications and Case Studies Prof. C. K. Michael Tse, Hong Kong Polytechnic University, Hong Kong, China IEEE PEAC’ 2014 43 TUTORIAL Wide Band Gap devices such as SiC and GaN. New devices packaging is a must. But, where is the limit of a new package? Is it possible to solve the issue with a new package or something more is necessary to be done? This will be intensively discussed in the tutorial. illustrated. Much of the power electronics discipline has been built upon the application of circuits and systems theory which spans across various aspects of fundamental circuit, control and system theory. However, in the process of developing solutions for new applications, the proper use of circuits and systems theory has not always been borne in mind, leading to unnecessary repetition and reinvention of concepts that would otherwise be reached directly if the approach taken had thoroughly considered the existing knowledge in circuits and systems. T6: Wide Bandgap based Power Electronics Prof. Jin Wang, Department of Electrical and Computer Engineering, The Ohio State University, USA MEETING ROOM 3 In this tutorial, the role of circuits and systems will be revisited and examples will be shown to illustrate how proper application of existing circuits and systems theory would conveniently lead to important observations and conclusions that would save re-investigation or expedite understanding of the problems. Specific applications of current interest to be tentatively covered in this short tutorial include LED driving, power factor correction, parallel-connected converters, inductive power transfer, etc. In each application, the basic circuit theory relevant to analysis and design of the system in question will be expounded and its proper use will be shown to be crucial in gaining significant improvement in understanding the key properties and systematic generation of design solutions. It will be shown that even the basic principles of circuit duality and Kirchhoff’s laws are not always appropriately exploited in power electronics, let alone proper application of these principles that would lead to systematic design approaches for LED driving and interconnection of power converters. Furthermore, use of power flow graphs and consideration of effect of parameter changes in conventional resonant circuits would be discussed, and their applications leading to systematic understanding of the design problems and classification of solution approaches for power factor correction circuits and inductive power transfer circuits will be 44 IEEE PEAC’ 2014 The demands being place upon power electronics continues to grow as industry looks to cut costs and improve efficiency of their associated hardware. New markets have emerged, such as high temperature power conversion, where Si based power devices are not able to operate. For this reason, researchers have been evaluating new materials to meet the immediate needs of industry and help satisfy future requirements. The tutorial provides a summary of wide bandgap based power electronics. It caters to professionals at the intermediate level. Audience members should be aware of wide bandgap devices, their advantages, but be interested in more specifics, such as their operation and application. Excluding an introduction and conclusion, this tutorial is broken up into five specific topics: (1) power device materials and architectures, (2) device evaluation (3) device and system level modelling (4) device applications, and (5) switched-capacitor topologies based on WBG materials. T7: Design for Reliability of Power Electronic Systems Prof. Frede Blaabjerg, Aalborg University, Denmark Ass. Prof. Huai Wang, Aalborg University, Denmark Ass. Prof. Ke Ma, Aalborg University, Denmark MEETING ROOM 5 In recent years, the automotive and aerospace industries have brought stringent reliability constraints on power electronic systems because of safety concerns. IEEE PEAC’ 2014 45 TUTORIAL TUTORIAL MEETING ROOM 2 T8: Advanced control of power converters Dr. Yongchang Zhang, North China University of Technology, China MEETING ROOM 4 This tutorial discusses the state of the art of advanced control methods for three-phase voltage source converters, with focus on the finite control set model predictive control (FCSMPC). According to the voltage vector numbers applied during one control period, all existing solutions are classified into three categories: single-vector-based control, double-vectors-based control and three-vectors-based control. An improved 46 IEEE PEAC’ 2014 FCSMPC with low complexity and high efficiency is proposed, which only requires one prediction to obtain the best voltage vector. Furthermore, two-vectorsbased and three-vectors-based MPC are proposed to achieve comparable or even better steady state performance than conventional SVM based approach with lower switching frequency. The proposed lowcomplexity multiple-vectors-based MPC provides an effective alternative to conventional SVM-based control methods. The conventional control method of three-phase power converters is vector control (voltage oriented control) using inner current loop and pulse width modulation techniques. Excellent steady state performance and quick dynamic response can be achieved; however, generally it requires fine tuning work and is not easy to consider various nonlinear constraints. Recently model predictive control (MPC) is emerging as a powerful control scheme for three-phase converters. The most popular MPC is finite control set MPC (FCSMPC), which attracts wide attention owing to its concept simplicity and flexibility to consider various constraints. Conventional FCSMPC has to evaluate a predefined cost function relating to control variable error for each converter voltage vector, which is computational intensive. Furthermore, only one voltage vector is applied during one control period, leading to relatively high ripples and current harmonics. This tutorial discusses the state of the art of FCSMPC for three-phase voltage source converters. An improved FCSMPC with low complexity and high efficiency is proposed, which only requires one prediction to obtain the best voltage vector. Furthermore, twovectors-based and three-vectors-based MPC are proposed to achieve comparable or even better steady state performance than conventional SVM-based approach with lower switching frequency. The proposed low-complexity multiple-vectors-based MPC provides an effective alternative to conventional SVM-based IEEE PEAC’ 2014 47 TUTORIAL TUTORIAL The industrial and energy sectors are also following the same trend, and more and more efforts are being devoted to improving the reliability of power electronic systems to achieve cost-effective and sustainable solutions. Today customers of many power electronic products expect up to 20 years of warranty and there is a strong need for more controllable reliability performance and all with focus at the financials. The emphasis of this tutorial is to give a framework on the design for reliability of power electronic systems, and the recent research activities and paradigm shits in this research area. It will cover the reliability requirements in different industry sectors, reliability and lifetime of IGBT modules and capacitors used in power electronic converters, and the specific evaluation, design, and improvement methods for reliability of power electronic systems. Study cases on mission profile based design of photovoltaic inverters and wind power converters, and active thermal control and condition monitoring of power converters are also discussed. The approaches presented in the tutorial are also the common interest for the companies involved in the Center of Reliable Power Electronics (CORPE) at Aalborg University (http://www.corpe.et.aau.dk/). The tutorial will also present the views of the instructors on the future research opportunities in the area of reliability of power electronics. Note: control methods. NOTE TUTORIAL This tutorial is interested to the professionals and engineers involved in the research and development of power converters control, motor drives, and senior undergraduate and graduate students. 48 IEEE PEAC’ 2014 IEEE PEAC’ 2014 49 Tuesday November 4th, 2014 Wednesday November 5th, 2014 9:00-17:00 Registration Winter Garden 8:00-18:00 Registration Winter Garden 9:00-12:00 Tutorial T1-T4 (For more information please go to page 40) T2 T3 T4 50 IEEE PEAC’ 2014 9:00-12:00 Development of Power Converters Tsai-Fu Wu National Tsing Hua University, Taiwan, China MEETING ROOM2 9:00-12:00 Power Semiconductors and Power Converters - Current Trends, Future, Issues and Solutions Petar. J. Grbović, HUAWEI Technologies Dusseldorf GmbH, Germany Thierry. A. Meynard, LAPLACE / ENSEEIHT / INPT, France MEETING ROOM3 9:00-12:00 The Effects of Magnetic Components on EMI Behaviors of SMPS Wei Chen, Fuzhou University, China MEETING ROOM4 9:00-12:00 Grid Integration of Electric Vehicles: Wired and Wireless Solutions Udaya K. Madawala, Duleepa Thrimawithana Department of Electrical & Computer Engineering, The University of Auckland, New Zealand MEETING ROOM5 IEEE PEAC’ 2014 51 WEDNESDAY TUESDAY T1 Thursday November 6th, 2014 14:00-17:00 Tutorial T5-T8 (For more information please go to page 43) WEDNESDAY T6 T7 T8 14:00-17:00 Wide Bandgap based Power Electronics Jin Wang, The Ohio State University, USA MEETING ROOM3 14:00-17:00 Design for Reliability of Power Electronic Systems Frede Blaabjerg, Huai Wang, Ke Ma, Aalborg University, Denmark MEETING ROOM4 14:00-17:00 Advanced control of power converters Yongchang Zhang, North China University of Technology, China MEETING ROOM5 18:00-20:00 Welcome Reception & Exhibition Winter Garden 8:00-17:00 Registration WINTER GARDEN 8:30-18:00 Exhibition WINTER GARDEN 8:30-9:00 Opening Ceremony GRAND BALLROOM 9:00-12:00 Plenary Session-1, 2 GRAND BALLROOM SESSION CHAIRS: Dianguo Xu, Harbin Institute of Technology, China Xinbo Ruan, Nanjing University of Aeronautics and Astronautics, China (For more information please go to page 28) 9:00-9:40 Trend of Power Electronics Researches and Applications Prof. Fred C Lee, Virginia Polytechnical University and State University, USA 9:40-10:20 Delta’s Journey to Energy Savings Mr. Yancey Hai, Chairman of the Delta Electronics, Inc., Taiwan, China 10:20-10:40 Coffee Break 52 IEEE PEAC’ 2014 IEEE PEAC’ 2014 53 THURSDAY T5 14:00-17:00 The Role of Circuits and Systems Theory in Power Electronics: Methods, Applications and Case Studies C. K. Michael Tse, Hong Kong Polytechnic University, Hong Kong, China MEETING ROOM2 THURSDAY 11:20-12:00 Powering the Future: Developments in Miniaturized, Isolated Power Converters operating at Very High Frequency Prof. David J. Perreault, Massachusetts Institute of Technology, USA 13:30-16:30 Plenary Session-3, 4 GRAND BALLROOM SESSION CHAIRS: Bo Zhang, South China University of Technology, China Jinfa Zhang, Delta Electronics Shanghai Co., Ltd., China 15:10-15:50 A new wiring system for domestic use for off -grid use Prof. Malcolm D. McCulloch, Head of Energy Power Group(EPG), Oxford University, U.K. 15:50-16:30 Medium Voltage Drives: State of the Art and Emerging Technologies Prof. Bin Wu, Ryerson University, Canada 16:30-18:00 Dialogue Sessions (For more information please go to page 110) POSTER AREA THURSDAY 10:40-11:20 Advancing Power Devices for More-Efficient Power Conversion Dr. Tatsuhiko Fujihira, Chief Technology Officer for Electronic Devices, Fuji Electric Co., Ltd., Japan (For more information please go to page 33) 13:30-14:10 Solid State Transformer Prof. Johann W. Kolar, Swiss Federal Institute of Technology (ETH) Zurich, Switzerland 14:10-14:50 Latest Power Chip and Module Technologies Dr. Gourab Majumdar, Executive Fellow, Mitsubishi Electric Corporation, Japan 14:50-15:10 Coffee Break 54 IEEE PEAC’ 2014 IEEE PEAC’ 2014 55 Shu Zhong1; 1Southwest Jiaotong University, China; 2Wisesoft Co., Ltd., China TS7.1.3 6:45-7:45 Speaker Breakfast Dinning Area A TS7.1.4 7:00-16:00 Registration WINTER GARDEN FRIDAY 8:00-16:00 Exhibition WINTER GARDEN TS7.1.5 8:00-10:00 TS7-1: Step-up DC/DC Converter MEETING ROOM 2 SESSION CHAIRS: Tsorng-Juu Liang, National Cheng Kung University, Taiwan, China C. K. Michael Tse, Hong Kong Polytechnic University, Hong Kong, China TS7.1.1 TS7.1.2 56 TS7.1.6 8:40-9:00 Novel Z-Source High Step-Up Boost Converter Xiaoxia Liang, Jinbin Zhao, Keqing Qu, Jianfeng Dai; Shanghai University of Electric Power, China 9:00-9:20 A Novel High Gain DC-DC Converter with Coupled Inductor Voltage Multiplier Hongfei Ma1,2, Bo Zhang1, Dongyuan Qiu1, Junfeng Han1; 1South China University of Technology, China; 2Lanzhou University of Technology, China 9:20-9:40 A Novel High Step-Up Three-Port Converter Po-Hsin Tseng, Jiann-Fuh Chen, TsorngJuu Liang, Hui-Wen Liang; National Cheng Kung University, Taiwan, China 9:40-10:00 High Step-up DC-DC Converter with Switched Capacitors and Interleaved Inductors Likun Xue, Ping Wang, Yifeng Wang, Wei Li; Tianjin University, China 8:00-8:20 A Novel Two Winding Coupled-Inductor Step-up Voltage Gain Boost-Flyback Converter Duo Xu1, Yaping Cai2, Zhangyong Chen2, Shu Zhong2; 1Wisesoft Co., Ltd., China; 2 Southwest Jiaotong University, China; 8:20-8:40 Analysis and Design of a High Efficiency High Step-up Gain DC-DC Converter Yaping Cai1, Duo Xu2, Zhangyong Chen1, IEEE PEAC’ 2014 IEEE PEAC’ 2014 57 FRIDAY Friday November 7th, 2014 FRIDAY TS7.2.1 TS7.2.2 TS7.2.3 TS7.2.4 58 8:00-8:20 Power Cycling Capabilities Assessment of IGBT Modules in Wind Power Converter Considering the Wind Turbulence Effects Hui LI1, Shengquan LIU1, Yang LI1, Yaogang Hu1, Xing QIN1,2, Li RAN1; 1Chongqing University, China; 2State Grid Dazhou Supply Company, China 8:20-8:40 Lifetime Estimation of MMC for Offshore Wind Power HVDC Application Hui Liu, Ke Ma, Poh Chiang Loh, Frede Blaabjerg; Aalborg University, Denmark 8:40-9:00 Control of IGBT Junction Temperature in Small-Scale Wind Power Converter Junke Wu, Luowei Zhou, Pengju Sun, Xiong Du; Chongqing University, China 9:00-9:20 Numerical IGBT Junction Temperature Calculation Method for Lifetime Estimation of Power Semiconductors in the Wind Power Converters Gaoxian Li1, Xiong Du1, Pengju Sun1, Luowei Zhou1, Heng-Ming Tai2; 1Chongqing University, China; 2University of Tulsa, USA IEEE PEAC’ 2014 TS7.2.5 9:20-9:40 A Novel Control Strategy for AC Fault Ride Through in MTDC System with Offshore Wind Farms Wenting Li1, Gang Shi1, Xu Cai1, Yaowei Xuan2, Enke Yu2; 1Shanghai Jiao Tong University, China; 2State Grid Zhoushan Power Supply Company, China 8:00-10:00 TS7-3: Multilevel Converter-1 MEETING ROOM 4 SESSION CHAIRS: Jun-ichi Itoh, Nagaoka University of Technology, Japan Guangzhu Wang, Shandong University, China TS7.3.1 TS7.3.2 8:00-8:20 A Neutral-point Potential Balancing Method for Z-source Neutral-PointClamped (NPC) Inverters by Adding the Shoot-through Offset Xiuyan Shi, Alian Chen, Chenghui Zhang; Shandong University, China 8:20-8:40 A Novel Output LC Filter Design Method of High Power Three-Level NPC Converter Ning LI1, Na ZHI1, Hui ZHANG1, Yue WANG2, Zhao’an WANG2; 1Xi’an University of technology, China; 2Xi’an Jiaotong University, China IEEE PEAC’ 2014 59 FRIDAY 8:00-9:40 TS7-2: Wind Power Converter-1 MEETING ROOM 3 SESSION CHAIRS: Dong-Choon Lee, Yeungnam University, Rep. of Korea Ke Ma, Aalborg University, Denmark TS7.3.4 FRIDAY TS7.3.5 TS7.3.6 60 8:40-9:00 A survey of cascaded multi-level PWM rectifier with VIENNA modules for HVDC system Xuebin JIANG, Jinghao YANG, Jingang HAN, Tianhao TANG; Shanghai Maritime University, China 9:00-9:20 Study of a New Buck-Boost Multilevel Inverter Liqiao Wang, Gang Ma, Si Zhao, Yafei Diao; Yanshan University, China 9:20-9:40 Comprehensive Loss Evaluation of Neutral-Point-Clamped (NPC) and T-Type Three-Level Inverters based on a Circuit Level Decoupling Modulation Zhe Zhang, Alexander Anthon, Michael A. E. Andersen; Technical University of Denmark, Denmark 9:40-10:00 Extended Dual Modulation Curves Voltage Balancing Strategy for Cascaded Hbridge Rectifier Jun Wang, Cong Wang, Hong Cheng, Guanglin Sha; China University of Mining and Technology, China IEEE PEAC’ 2014 8:30-10:00 IS7-1: Industry Session MEETING ROOM 5 SESSION CHAIRS: Jinfa Zhang, Delta Electronics Shanghai Co., Ltd., China Minchao Huang, Mickey Solution on Power Electronics, China IS7.1.1 IS7.1.2 IS7.1.3 8:30-9:00 1700V Si-IGBT and SiC-SBD Hybrid Module for AC690V Inverter system Danyi Xiang1, Song Chen1, Haining Wang1, O. Ikawa2, S. Miyashita2, T. Nishimura2, S. Igarashi2, T. Fujihira2; 1Fuji Electric (China) Co., Ltd., China; 2Fuji Electric Co., Ltd., Japan 9:00-9:30 Electric Vehicle Charging Solutions Mingyu Jiang, Delta Electronics, Inc., China 9:30-10:00 Summery on Key Technology and Topology of PV Gried Inverter Tony Hu, Sungrow Power Supply Co., Ltd., China IEEE PEAC’ 2014 61 FRIDAY TS7.3.3 TS7.4.1 8:00-8:20 A Framework for Stability Analysis of Micro-grid Consisting of Multiple Gridconnected-converters Shulong Tan, Geng Yang, Hua Geng; Tsinghua University, China TS7.4.5 10:20-11:40 TS7-5: Resonant DC/DC Converter MEETING ROOM 2 SESSION CHAIRS: Mutsuo Nakaoka, Kyungnam Univ., Malaysia Xiong Du, Chongqing University, China TS7.5.1 FRIDAY TS7.4.2 8:20-8:40 Fisher Discriminant Function Based New Passive Islanding Detection Approach Ning Liu, Jianhui Su, Huadian Xu, Yong Shi, Meiqin Mao, Jinwei Li; Hefei University of Technology, China TS7.5.2 TS7.4.3 TS7.4.4 62 8:40-9:00 Double Fundamental Frequency PLL With Second Order Generalized Integrator Under Unbalanced Grid Voltages Zhaoyang Yan, Hongyan He, Jianxia Li, Ming Su, Chunjiang Zhang; Yanshan University, China 9:00-9:20 Design Consideration of LCL-Filter for Three-Phase Voltage Source Inverter in Distributed Power Grid Yu Peng1, Meng Huang1, Jianjun Sun1, Xiaoming Zha1, Chi K. Tse2; 1Wuhan University, China; 2The Hong Kong Polytechnic University, Hongkong, China IEEE PEAC’ 2014 9:20-9:40 Resonance Features of Multi-paralleled Grid-connected Inverters and its Damping Method Zhiyong Chen, An Luo, Yandong Chen, Mingshen Li; Hunan University, China TS7.5.3 10:20-10:40 A Novel Current-feed Soft-switching Twoswitch Forward Resonant DC-DC Transformer (DCX) Wei Qin, Bo Zhu, Xu Zhang, Xinke Wu; Zhejiang University, China 10:40-11:00 LLC Resonant Converter Controller with Novel Light Load Control Chun-Hsu Yang, Tsorng-Juu Liang, Kai-Hui Chen, Ji-Shiuan Li, Ji-Shiang Lee; National Cheng Kung University, Taiwan, China 11:00-11:20 Current Balance Method for the Twophase Interleaved LLC-RDCX with Parallel PWM Output Regulation Hui Chen, Xinke Wu, Fangzheng Peng, Zhaoming Qian, Changsheng Hu; Zhejiang University, China IEEE PEAC’ 2014 63 FRIDAY 8:00-9:40 TS7-4: Micro-grid System-1 MEETING ROOM 6 SESSION CHAIRS: Jaeho Choi, Chungbuk National University, Rep. of Korea Xiaoming Zha, School of Electrical Engineering Wuhan University, China 11:20-11:40 High Efficiency LLC Converters with Compensated Synchronous Rectifier Chao-Chun Wang1, Cheng-Yan Yang1, Huang-Jen Chiu1, Hong-Bo Ma2; 1National Taiwan University of Science and Technology, Taiwan, China; 2Southwest Jiaotong University, China TS7.6.3 TS7.6.4 10:20-11:40 TS7-6: Wind Power Converter-2 MEETING ROOM 3 SESSION CHAIRS: Huai Wang, Aalborg University, Denmark Geng Yang, Tsinghua University, China FRIDAY TS7.6.1 TS7.6.2 64 10:20-10:40 Thermal Smooth Control based on Orthogonal Circulating Current for MultiMW Parallel Wind Power Converter Jianwen Zhang1, Yan Li3, Haisong Wang1, Xu Cai1, Seiki Igarashi2, Zhibing Wang3; 1 Shanghai Jiao Tong University, China; 2Fuji Electric Co., Ltd., Japan; 3China Electric Power Research Institute, China 10:40-11:00 Thermal control method based on reactive circulating current for anticondensation of wind power converter under wind speed variations Jianwen Zhang1, Haisong Wang1, Xu Cai1, Seiki Igarashi2, Yan Li3, Zhibing Wang3; 1 Shanghai Jiao Tong University, China; 2Fuji Electric Co., Ltd., Japan; 3China Electric Power Research Institute, China IEEE PEAC’ 2014 11:00-11:20 Study on Power Dynamic Transfer Characteristics of Wind Power Generation System Shude Yang, Xiangqian Tong, Hao Zhang; Xi’an University of Technology, China 11:20-11:40 A Wide Voltage Input and High-Efficiency Hybrid-mode Wind Power Converter with the Mode Transition Optimized Huipin Lin, Jin Hu, Fengwu Zhou, Zhengyu Lu; Zhejiang University, China 10:20-12:00 TS7-7: Multilevel Converter-2 MEETING ROOM 4 SESSION CHAIRS: XiangNing He, Zhejiang University, China Zhengyu Lv, Zhejiang University, China TS7.7.1 TS7.7.2 FRIDAY TS7.5.4 10:20-10:40 Integrated Control Method of Modular Multilevel Converter Zhenjiang Lv1, Mansoor Khan Muhammad1, Mingli Shen2; 1Shanghai Jiaotong University, China; 2Shanghai Electric Power Electronics Co., Ltd., China 10:40-11:00 A Novel Comprehensive Control Scheme of Low Frequency of the Modular Multilevel Converter Feng Li, Guangzhu Wang; Shandong University, China IEEE PEAC’ 2014 65 TS7.7.4 FRIDAY TS7.7.5 11:00-11:20 Universal Voltage Clamping Circuit for Ttype Neutral-Point-Clamped (TNPC) Converters Weiyi Feng, Lizhi Xu, Weiqiang Zhang, Hongyang Wu; Delta Electronics (Shanghai) Co., Ltd., China 11:20-11:40 Integrated Control Strategies of Modular Multilevel Converters Using Arm Current Control in Back-to-Back Systems Guangzhu Wang, Feng Li; Shandong University, China 11:40-12:00 A Novel STATCOM with Limited Active Power Support Based on Hybrid Cascaded Multilevel Converter Qiang Chen, Ning Gao, Rui Li, Xu Cai; Shanghai Jiao Tong University, China 10:20-11:20 IS7-2: Industry Session MEETING ROOM 5 SESSION CHAIRS: Jinfa Zhang, Delta Electronics Shanghai Co., Ltd., China Minchao Huang, Mickey Solution on Power Electronics, China IS7.2.1 66 10:20-10:50 Power solutions for data center Yong Chen, Xiamen Kehua Hengsheng Co., Ltd. IEEE PEAC’ 2014 IS7.2.2 10:50-11:20 Discussion of some power electronics problems in company Zhaoyong Zhou, Shenzhen Inovance Technology Co., Ltd., China 10:20-11:40 TS7-8: Micro-grid System-2 MEETING ROOM 6 SESSION CHAIRS: Tsai-Fu Wu, National Tsinghua University, Taiwan, China Yong Kang, Huazhong University of Science and Technology, China TS7.8.1 TS7.8.2 TS7.8.3 10:20-10:40 Research on Droop Control of Inverter Interface in Autonomous Microgrid Zhizhong Kan1, Zhongnan Guo1, Xiaomai Meng2, Chunjiang Zhang1; 1Yanshan University, China; 2Beijing Satellite Manufacturing Factory, China 10:40-11:00 Virtual Impedance Design of Virtual Synchronous Generation in Microgrid Chao Hu1, Fang Liu1, Haizhen Xu1, Rongliang Shi1, Lei Tao2; 1Hefei University of Technology, China; 2Sungrow Power Supply Co., Ltd., China 11:00-11:20 A Dynamic Voltage Transient Suppression Control Strategy for Microgrid Inverter Rongliang Shi1, Xing Zhang1, Fang Liu1, Haizhen Xu1, Lei Tao2; 1Hefei University of Technology, China; 2Sungrow Power Supply Co., Ltd., China IEEE PEAC’ 2014 67 FRIDAY TS7.7.3 11:20-11:40 Research on the Synchronization Control Strategy for Microgrid Inverter Rongliang Shi1, Xing Zhang1, Haizhen Xu1, Chao Hu1, Wei Cao2; 1Hefei University of Technology, China; 2Sungrow Power Supply Co., Ltd., China 13:30-15:30 TS7-9: DC/DC Converter MEETING ROOM 2 SESSION CHAIRS: Chin Chang, Semtech Corp, USA Xinbo Ruan, Nanjing University of Aeronautics and Astronautics, China TS7.9.4 TS7.9.5 TS7.9.6 FRIDAY TS7.9.1 TS7.9.2 TS7.9.3 68 13:30-13:50 Input Impedance Modeling of Digital Controlled Bi-directional DC/DC Converter with Inductor Current Feedback Xing Li, Hua Lin, Hua Wang; HuaZhong University of Science and Technology, China 13:50-14:10 Decoding the PWM Converters Tsai-Fu Wu1, Yu-Kai Chen2; 1National Tsing Hua University, Taiwan, China; 2National Formosa University, Taiwan, China 14:10-14:30 Voltage-Mode Controlled Switching Converter With Dual-edge Constant Off-time Modulation Xing Chen, Yiming Chen, Guohua Zhou, Ping Yang; Southwest Jiaotong University, China IEEE PEAC’ 2014 14:30-14:50 A Global Modeling Method of Buck Converter in Discontinuous Conduction Mode Junfeng Han, Bo Zhang, Dongyuan Qiu, Hongfei Ma; South China University of Technology, China 14:50-15:10 Modeling and Stability Analysis of Digital Current-Mode Controlled Boost Converter in z-Domain Yanfeng Chen, Wen He, Bo Zhang, Qingqian Zhang; South China University of Technology, China 15:10-15:30 An Accurate Small-Signal Model with Peak Current Mode Control Applied for the Active Clamp Forward Converter Used in the Constant Conduction Mode Richard Yang, Tony Hung, Payne Wang; Texas Instruments, China 13:30-15:30 TS7-10: PV System-1 MEETING ROOM 3 SESSION CHAIRS: Jung-Ik Ha, Seoul National University, Rep. of Korea Bo Zhang, South China University of Technology, China 13:30-13:50 TS7.10.1 A Novel Method for Low-frequency Oscillation Suppression Based on PV System Minghua Zhu, Fang Zhuo; Xi’an Jiaotong University, China IEEE PEAC’ 2014 69 FRIDAY TS7.8.4 FRIDAY 14:10-14:30 TS7.10.3 The Effect of Control Loops form of the Interface Converter in Output Voltage Regulation Mode on the Operating Characteristics of Photovoltaic Cells Ling QIN, Shaojun XIE, Chen YANG, Mao HU; Nanjing University of Aeronautics & Astronautics, China 14:30-14:50 TS7.10.4 DMC-based Cooperative Control Strategy for Distributed Photovoltaic Power Generation Systems Qing Sun1, Fuwen Yang1, Zhipeng Wu2; 1 East China University of Science and Technology, China; 2Midea Refrigeration Institute Midea Group, China 14:50-15:10 TS7.10.5 A Novel Method for Photovoltaic Inverter Applying Vector Resonant Controller Hao Zhai, Fang Zhuo, Hao Yi, Dong Zhang, Zhiqing Geng, Kewei Li; Xi’an Jiaotong University, China 15:10-15:30 TS7.10.6 Isolated Bidirectional Switched-capacitor Flyback Converter Hyun-Woo Kim, Joung-Hu Park; Soongsil University, Rep. of Korea 70 IEEE PEAC’ 2014 13:30-15:30 TS7-11: SiC and Si Devices MEETING ROOM 4 SESSION CHAIRS: Petar J. Grbović, HUAWEI Technologies Dusseldorf GmbH, Gemerny Zhengyu Lv, Zhejiang University, China 13:30-13:50 TS7.11.1 Interleaved Flyback Micro-inverter with SiC MOSFET Shiming Tan, Ping Lin, Changsheng Hu, Linglin Chen, Dehong Xu; Zhejiang University, China 13:50-14:10 TS7.11.2 A 10kV/200A SiC MOSFET Module with Series-Parallel Hybrid Connection Qiang Xiao, Zezheng Dong, Xinke Wu, Kuang Sheng; Zhejiang University, China 14:10-14:30 TS7.11.3 Analysis and Comparison of Si and SiC Power Devices on a Grid-Tie Fuel Cell Energy Storage System Riccardo Pittini, Alexander Anthon, Zhe Zhang, Michael A.E. Andersen; Technical University of Denmark, Denmark 14:30-14:50 TS7.11.4 A High Power Boost Converter for PV Systems Operating up to 300 kHz using SiC Devices Alexander Anthon, Zhe Zhang, Michael A.E. Andersen; Technical University of Denmark, Denmark IEEE PEAC’ 2014 71 FRIDAY 13:50-14:10 TS7.10.2 On/Off-Grid Integrated Photovoltaic Power Generation System Rui Li, Xing Liang, Xinpei Li, Xu Cai; Shanghai Jiaotong University, China 15:10-15:30 TS7.11.6 Performance Analysis of Package Parasitic Inductances for Fast Switching MOSFET in Converter Ken King-Man SIU, Martin Kin-Ho CHEUNG, Franz Peter Stückler; Infineon Technologies Hong Kong Ltd., Hongkong, China SS7.1.2 SS7.1.3 FRIDAY SS7.1.4 13:30-15:10 SS7-1: Special Session on Electric Generator Design, Power Electronics and Control Systems for Marine Renewable Energy-1 MEETING ROOM 5 SESSION CHAIRS: Jean-Frederic CHARPENTIER, Naval Academy, France Tianhao Tang, Shanghai Maritime University, China SS7.1.1 72 13:30-13:50 Performances Analysis of a Doubly Salient Permanent Magnet Generator for Marine Tidal Current Applications H. Chen, N. Aït-Ahmed, L. Moreau, M. Machmoum, M.E. Zaïm; IREENA Institut de Recherche en Energie Electrique de Nantes Atlantique, France IEEE PEAC’ 2014 SS7.1.5 13:50-14:10 Hybrid Current Control of Three-Phase Grid-Connected Converter for Marine Current Power Generation System Jingang Han, Yu Shi, Peng Wu, Tianhao Tang; Shanghai Maritime University, China 14:10-14:30 Optimal Control for a Self-Reacting Point Absorber: A One-Body Equivalent Model Approach Se´ bastien Olaya1, Jean-Matthieu Bourgeot1, Mohamed Benbouzid2; 1ENIB, France; 2University of Brest, France 14:30-14:50 Ocean Wave Energy Extraction: Up-toDate Technologies Review and Evaluation Hosna Titah-Benbouzid, Mohamed Benbouzid; University of Brest, France 14:50-15:10 Modular Multi-Level Converter Designed for DC-Based Offshore Wind Farm Liang Zhang1, Weiwei An1, Guodong Chen2, Dan Zhang3, Xiao-Peng Ji4; 1Nanjing Institute of Technology, China; 2Shanghai Electric Power Transmission & Distribution Group, China; 3Lanzhou JiaoTong University, China; 4Nanjing Sifang Epower Automation Co., Ltd., China IEEE PEAC’ 2014 73 FRIDAY 14:50-15:10 TS7.11.5 An Efficient Current-Source Power Bipolar Junction Transistor Driver Carl N. M. Ho1, River T. H. Li2, Enea Bianda3; 1ABB Switzerland Limited, Switzerland; 2 ABB (China) Limited, China; 3ABB Corporate Research, Switzerland FRIDAY 13:30-13:50 TS7.12.1 A Novel Frequency Restoring Strategy of Hydro-PV Hybrid Microgrid Feng Wei1, Sun Kai1, Yajuan Guan2, Yibo Wang3; 1Tsinghua University, China; 2Aalborg University, Denmark; 3Chinese Academy of Sciences, China 13:50-14:10 TS7.12.2 Implementation and Control of a SmallScale HVDC Lab Prototype Considering Grid Code Requirements Xudan Liu, Andreas Lindemann, Steffen Rabe, Marc Richter, Zbigniew A. Styczynski; Otto-von-Guericke University Magdeburg, Germany 14:10-14:30 TS7.12.3 Fault Analysis of Microgrid and Adaptive Distance Protection based on Complex Wavelet Transform Lijun Jin, Miaomiao Jiang, Guangyao Yang; Tongji University, China 14:30-14:50 TS7.12.4 A Short-circuit Current Calculation Method for Low-Voltage DC Microgrid Xiaoli Lai, Fei Liu, Kai Deng, Qi Gao, Xiaoming Zha; Wuhan University, China 74 IEEE PEAC’ 2014 14:50-15:10 TS7.12.5 An Improved Power Sharing Control Scheme of Distributed Generation Converters in Microgrid Guangqian Ding1, Feng Gao1, Quanrui Hao1, Song Zhang2; 1Shandong University, China; 2 State Grid of China Technology College, China 15:10-15:30 TS7.12.6 Line Impedance Measure Method for Microgrid Yong SHI, Jianhui SU, Jinwei LI, Xinxing HAO; Hefei University of Technology, China 15:50-17:50 TS7-13: Inverter and Power Supply MEETING ROOM 2 SESSION CHAIRS: Jinfa Zhang, Delta Electronics Shanghai Co., Ltd., China Jinjun Liu, Xi'an Jiaotong University, China FRIDAY 13:30-15:30 TS7-12: Micro-grid System-3 MEETING ROOM 6 SESSION CHAIRS: Yong Kang, Huazhong University of Science and Technology, China Miao Zhu, Shanghai Jiao Tong University, China 15:50-16:10 TS7.13.1 Switching Loss Reduction of AC-AC Converter using Three-level Rectifier and Inverter for UPS. Kazuki Yoneda, Hiroki Takahashi, Jun-ichi Itoh; Nagaoka University of Technology, Japan 16:10-16:30 TS7.13.2 Multi-Functional Bidirectional AC/DC Ttype 3-Level Converter for Super UPS Ye Zhu, Binci Xu, LingLin Chen, Dezhi Dong, Ping Lin, Dehong Xu; Zhejiang University, China IEEE PEAC’ 2014 75 FRIDAY 16:50-17:10 TS7.13.4 The Research on Phase Lock Method of Ultrasonic Power Supply with Variable Step Length Control Jie Luo, Guiping Du, Junxiang Fang; South China University of Technology, China 17:10-17:30 TS7.13.5 New PWM Strategy for Nine-Switch Inverters with Minimum Number of Semiconductor Switching Xiangfeng Li, Bo Zhang, Dongyuan Qiu, Dongdong Wang; South China University of Technology, China 17:30-17:50 TS7.13.6 A New Method of Modeling and Simulation for Push-Pull SPWM Inverter Jiaju Wu, Hongjun Shi, Hang Hu, Shuguo Zhang, Bin Liu; Nanchang Hangkong University, China 15:50-17:30 TS7-14: PV System-2 MEETING ROOM 3 SESSION CHAIRS: Jong-Hu Park, University of Soongsil, Rep. of Korea Bo Zhang, South China University of Technology, China 15:50-16:10 TS7.14.1 An Integrated Control Strategy of PVBattery Hybrid Systems Baoqi Liu1, Yanhu Zhang1, Bing Hu1, Liying Xue1, Wei Zhao2; 1Sungrow (Shanghai) Co., Ltd., China; 2Sungrow Power Supply Co., Ltd., China 16:10-16:30 TS7.14.2 An Improved Grid-Connected Photovoltaic Power Generation System with Low Harmonic Current in Full Power Ranges Xiangdong Sun, Tai Fan, Shaoliang An, Qi Zhang, Bo Zhang; Xi’an University of Technology, China 16:30-16:50 TS7.14.3 Investigation of Frequency Drift Methods of Islanding Detection with Multiple PV Inverters Yan Hong, Wenchong Huang; Fudan University, China 16:50-17:10 TS7.14.4 Leakage Current Suppression for Transformerless ZVS Full-bridge PV Inverter Yenan Chen, Jiangbei Xi, Dehong Xu; Zhejiang University, China 76 IEEE PEAC’ 2014 IEEE PEAC’ 2014 77 FRIDAY 16:30-16:50 TS7.13.3 An Active Synchronization Control Strategy Based on Voltage-controlled Inverter Jinlong Wang, Jinbin Zhao, Keqing Qu, Fen Li; Shanghai University of Electric Power, China FRIDAY 15:50-17:10 TS7-15: GaN Devices MEETING ROOM 4 SESSION CHAIRS: David Reusch, Efficient Power Conversion (EPC), USA Xinbo Ruan, Nanjing University of Aeronautics and Astronautics, China 15:50-16:10 TS7.15.1 An Optimized Layout with Split Bus Capacitors in eGaN-Based Integrated DCDC Converter Module Kangping Wang, Huan Ma, Xu Yang, Xiangjun Zeng, Guoqing Li; Xi’an Jiaotong University, China 16:10-16:30 TS7.15.2 MHz-class High-frequency Soft-switching GaN-based Inverter for Wireless Power Transmission via Electromagnetic Resonance Keisuke Yoshizawa1, Toshihiko Tanaka1, Eiji Hiraki2, Masayuki Okamoto3; 1Yamaguchi University, Japan; 2Okayama University, Japan; 3Ube National College of Technology, Japan 78 IEEE PEAC’ 2014 16:30-16:50 TS7.15.3 Highly Efficient Gallium Nitride Transitors Designed for High Power Density and High Output Current DC-DC Converters David Reusch, Johan Strydom, Alex Lidow; Efficient Power Conversion Corporation, USA 16:50-17:10 TS7.15.4 High Frequency LLC DC-Transformer based on GaN devices and the dead time optimization Ren Ren, Shuo Liu, Jinlong Wang, Fanghua Zhang; Nanjing University of Aeronautics and Astronautics, China 15:50-17:10 SS7-2: Special Session on Electric Generator Design, Power Electronics and Control Systems for Marine Renewable Energy-2 MEETING ROOM 5 SESSION CHAIRS: Luc Moreau, UNIVERSITE DE NANTES, France Tianhao Tang, Shanghai Maritime University, China SS7.2.1 15:50-16:10 Maximum Torque Per Ampere Control Strategy of a 5-phase PM Generator in healthy and faulty modes for tidal marine turbine application Ousmane FALL1,2,3, Jean Frédéric CHARPENTIER2, Ngac-Ky NGUYEN3, Paul LETELLIER1; 1Jeumont-Electric, France; 2 Ecole navale et groupe des écoles du Poulmic, France; 3Arts et Métiers Paristech, France IEEE PEAC’ 2014 79 FRIDAY 17:10-17:30 TS7.14.5 On Discussion of DC Side EMI Filter Design for Conducted Noise Suppression in Photovoltaic System Jiao Zhang, Wenjie Chen, Xiaomei Song, Hao Huang, Xu Yang; Xi'an Jiaotong University, China SS7.2.3 FRIDAY SS7.2.4 16:10-16:30 Comparison of Direct-Drive PM Generators for Tidal Turbines Sofiane Djebarri1,2, Jean Frederic Charpentier1, Franck Scuiller1, Mohamed Benbouzid2; 1French Naval Academy, France; 2 University of Brest, France 16:30-16:50 An Up-to-Date Review of Large Marine Tidal Current Turbine Technologies Zhibin Zhou1,2,3, Franck Scuiller1, Jean Frédéric Charpentier1, Mohamed Benbouzid2, Tianhao Tang3; 1French Naval Academy, France; 2University of Brest, France; 3Shanghai Maritime University, China 16:50-17:10 Joint Optimization of Electromagnetic Structure and Control of a Double Stator Permanent Magnet Generator for Tidal Energy Applications Jian Zhang, Luc Moreau, Junwei Guo, Mohamed Machmoum; Université de Nantes, France 15:50-17:50 TS7-16: Grid-Tied Inverter-1 MEETING ROOM 6 SESSION CHAIRS: River-TinHo Li, ABB (China) Limited, China Weiping Zhang, North China University of Technology, China 15:50-16:10 TS7.16.1 Protected Control Strategies for VoltageSource-Converter (VSC) under Grid Faults in AC/DC Hybrid Grid Minglin Zhu, Shengbao Geng, Yungui Li, Lijun Hang, Guojie Li; Shanghai Jiao Tong University, China 16:10-16:30 TS7.16.2 Asymmetrical High Voltage Ride Through Control Strategy of Grid-side Converter for Grid-connected Renewable Energy Equipment Ruiqi Li, Hua Geng, Geng Yang; Tsinghua University, China 16:30-16:50 TS7.16.3 Resonance Suppression Scheme in Single-Phase Grid Inverters with LLCL Filters Payam Alemi, Cheol-Ju Bae, Dong-Choon Lee; Yeungnam University, Rep. of Korea 16:50-17:10 TS7.16.4 Suppressing the side effect of the Grid Background Harmonics on Grid Inverter with Selective Harmonic Elimination PWM Shenjian Zou, Cheng Yan, Yangfan Zhang, Wenjie Chen, Dehong Xu; Zhejiang University, China 80 IEEE PEAC’ 2014 IEEE PEAC’ 2014 81 FRIDAY SS7.2.2 17:10-17:30 TS7.16.5 A Control Strategy of Microgrid Inverter Based on Feeder Power-flow Optimization Yuerong Wang, Herong Gu, Baozhen Su, Wei Zhao; Yanshan Univercity, China Note: NOTE FRIDAY 17:30-17:50 TS7.16.6 A Novel Hybrid SPLL for Polluted Grid Environment Gang Han, Jianwen Zhang, Xu Cai; Shanghai Jiao Tong University, China 82 IEEE PEAC’ 2014 IEEE PEAC’ 2014 83 6:45-7:45 Speaker Breakfast Dinning Area A SATURDAY 8:00-10:00 TS8-17: Motor Drive and Control-1 MEETING ROOM 2 SESSION CHAIRS: Geng Yang, Tsinghua University, China Jun Yao, Chongqing University, China 8:00-8:20 TS8.17.1 Improved Independent Vector Control of 2PMSM Fed by a Five-leg Inverter Reducing Common Leg Peak Current Yosuke Suzuki1, Hisao Kubota1, Kouki Matsuse1, Kaushik Rajashekara2; 1Meiji University, Japan; 2The University of Texas at Dallas, USA 8:20-8:40 TS8.17.2 Analysis and Simulation of Direct Torque Control based on Terminal Sliding mode Controller for doubly Salient Electromagnetic Machine Weili Dai, Hao Tian, Jun Ding; Hohai University, China 8:40-9:00 TS8.17.3 Investigating the Electromechanical Coupling in Piezoelectric Actuator Drive Motor Under Heavy Load Tiberiu-Gabriel Zsurzsan, Michael A.E. Andersen, Zhe Zhang, Nils A. Andersen; Technical University of Denmark, Denmark 84 IEEE PEAC’ 2014 9:00-9:20 TS8.17.4 Collective Dynamics of Coupled Synchronous Reluctance Motor Drives Dongdong Wang, Bo Zhang, Dongyuan Qiu, Xiangfeng Li; South China University of Technology, China 9:20-9:40 TS8.17.5 Speed Sensorless Torque Closed-Loop Vector Control of IPMSM Leilei Guo1, Xing Zhang1, Shuying Yang1, Zhen Xie1, Renxian Cao2; 1Hefei University of Technology, China; 2Hefei Sungrow Power Supply Co., Ltd., China 9:40-10:00 TS8.17.6 Study of Speed-Sensorless Weighted Vector Control of Parallel Connected Induction Motors Drive Long Qi, Chenchen Wang, Xiaojie You; Beijing Jiaotong University, China 8:00-9:40 TS8-18: PV System-3 MEETING ROOM 3 SESSION CHAIRS: Tianhao Tang, Shanghai Maritime University, China Jinbin Zhao, Shanghai University of Electric Power, China 8:00-8:20 TS8.18.1 Robust Control of Two-stage Photovoltaic Inverter for Unbalanced Low Voltage Ride-Through Operation Hao Tian1, Feng Gao1, Cong Ma1, Guoqing He2, Guanghui Li2; 1Shandong University, China; 2China Electric Power Research Institute, China IEEE PEAC’ 2014 85 SATURDAY Saturday November 8th, 2014 SATURDAY 8:40-9:00 TS8.18.3 Research on the Composite Control for PV Grid-connected and Energy-storage based on Quasi-Z-source inverter Baozhen Su, Herong Gu, Yuerong Wang, Wei Zhao; Yanshan University, China 9:00-9:20 TS8.18.4 The Step-power Method Study for the Maximum Power Tracking of Single-stage Photovoltaic Grid-connected Inverter Qi Zhang, Xiaoye Tian, Dong Tian, Zhao Liu, Minyuan Li , Xiangdong Sun; Xi'an University of Technology, China 9:20-9:40 TS8.18.5 Research on the Control Strategy of PV System on Suppressing Low-frequency Oscillation in Power System Minghua Zhu, Fang Zhuo; Xi’an Jiaotong University, China 8:00-10:00 TS8-19: Magnetics MEETING ROOM 4 SESSION CHAIRS: Wei Chen, Fuzhou University, China Yugang Yang, Liaoning Technical University, China 8:00-8:20 TS8.19.1 A Loosely Coupled Transformer with Mixed Winding and Electromagnetic Shielding for Contactless Power Transmission Jia Hou1, Qianhong Chen1, Siu-Chung Wong2, Xiaoyong Ren1, Xinbo Ruan1; 1Nanjing University of Aeronautics and Astronautics, China; 2Hong Kong Polytechnic University, Hong Kong, China 8:20-8:40 TS8.19.2 Analysis and Comparison of Magnetic Structures in a Tapped Boost Converter for LED Applications Maria C. Mira, Arnold Knott, Michael A. E. Andersen; Technical University of Denmark, Denmark 8:40-9:00 TS8.19.3 The Analysis and Application of the Nearfield Characteristics in the EMI Filter Qingbin Chen, Wei Chen, Subin Lin, Jiqing Dong; Fuzhou University, China 9:00-9:20 TS8.19.4 The Analysis of Near-Field Magnetic Leakage On The Domestic Induction Cooker Qinjun Hu, Wei Chen, Tianxiang Huang, Qingbin Chen; Fuzhou University, China 86 IEEE PEAC’ 2014 IEEE PEAC’ 2014 87 SATURDAY 8:20-8:40 TS8.18.2 A Unified Power Quality Conditioner for the Fault Ride-through Operation of Photovoltaic Power Station Xuefeng Ge1, Feng Gao1, Guoqing He2, Guanghui Li2; 1Shandong University, China; 2 China Electric Power Research Institute, China SATURDAY 9:40-10:00 TS8.19.6 Modeling and Analysis of the Stable Power Supply Based on the Magnetic Flux Leakage Transformer Yuqiu Zhang, Yanfeng Chen, Bo Zhang; South China University of Technology, China 8:00-9:40 TS8-20: Wireless Power Transfer System-1 MEETING ROOM 5 SESSION CHAIRS: Hideki OMORI, Osaka Institute of Technology, Japan Qianhong Chen, Nanjing University of Aeronautics and Astronautics, China 8:00-8:20 TS8.20.1 A New V2H System with Single-Ended Inverter Drive Bidirectional Wireless Resonant IPT Shinya Ohara1, Noriyuki Kimura1, Mutuo Nakaoka2, Hideki Omori1, Toshimitsu Morizane1, Yoshimichi Nakamura3; 1Osaka Institute of Technology, Japan; 2Kyungnam University, Rep. of Korea; 3Smart Energy Laboratory, Japan 88 IEEE PEAC’ 2014 8:20-8:40 TS8.20.2 A Modified Hybrid Multi-level Converter for High-Power High-Frequency IPT Systems Hamid Reza Rahnamaee, Udaya K. Madawala, Duleepa J. Thrimawithana; the University of Auckland, New Zealand 8:40-9:00 TS8.20.3 Route Optimization for Wireless Power Transfer Network Based on the CE method Lijuan Xiang1, Yue Sun1, Xin Dai1, Yu Chen1, Xiao Lv2; 1Chongqing University, China; 2Chongqing Special Equipment Inspection and Research Institute, China 9:00-9:20 TS8.20.4 WPT Topology Scheme with Dual Parallel -Circuit Class E Inverters and Integrated Inductor Xiaosheng Huang, Wei Chen; Fuzhou University, China 9:20-9:40 TS8.20.5 System Conditions Monitoring Method for a Wireless Cellular Phone Charger Euihoon Chung, Jun Lee, Jung-Ik Ha; Seoul National University, Rep. of Korea IEEE PEAC’ 2014 89 SATURDAY 9:20-9:40 TS8.19.5 New Magnetic Integration of Full-wave Rectifier with Center-Tapped Transformer Zengyi LU, Haijun YANG, Alpha J. ZHANG; Delta Electronics (Shanghai) Co., Ltd., China SATURDAY 8:00-8:20 TS8.21.1 Anti-islanding Modeling of Grid-tied Inverters Yingqi Zhang; GE (China) Research and Development Center, China 8:20-8:40 TS8.21.2 Unidirectional Buck DC-DC converter mode photovoltaic grid-connected inverters with high frequency link Jie Zhang, Fusong Huang, Bin Yan, Daolian Chen; Fuzhou University, China 8:40-9:00 TS8.21.3 An Improved Deadbeat Control Strategy for Photovoltaic Grid-Connected Inverter Based on Unipolar & frequency multiplication SPWM and Its Implementation Jinsong Kang, Shoujian Yang, Wei Xia, Shuo Wang; Tongji University, China 9:00-9:20 TS8.21.4 LLCL-Filter Based Single-Phase Grid-Tied Aalborg Inverter Weimin Wu1, Shuangshuang Feng1, Junhao Ji1, Min Huang2, Frede Blaabjerg2; 1Shanghai Maritime University, China; 2Aalborg University, Denmark 90 IEEE PEAC’ 2014 9:20-9:40 TS8.21.5 Notch Filter constraints analysis and SPLL Design under Unbalanced Voltage Conditions Xiu-Hui Chai, Chun-Jiang Zhang, Bing Ben, Xiao-huan Wang; Yanshan University, China 10:20-12:20 TS8-22: Motor Drive and Control-2 MEETING ROOM 2 SESSION CHAIRS: Hao Chen, China University of Mining & Technology, China Wei Xu, Huazhong University of Science and Technology, China 10:20-10:40 TS8.22.1 Phase-shifted Chaotic SVM for Harmonic Performance Improvement in Paralleled Voltage-Source Inverters Fed PMSM Drive Zheng Wang, Jian Chen, Bing Zhang, Yang Zheng; Southeast University, China 10:40-11:00 TS8.22.2 H∞ Speed Observer of Permanent Magnet Synchronous Motor Based on Immune Algorithm Qun Zhu, Zhonggang Yin, Yanru Zhong; Xi’an University of Technology, China 11:00-11:20 TS8.22.3 Hybrid Position Observer of IPMSM with Online Rotor Flux Identification Le-yang Yan, Xu-chun Li, Peng Zhang, Shao-kang Ma; Tsinghua University, China IEEE PEAC’ 2014 91 SATURDAY 8:00-9:40 TS8-21: Grid-Tied Inverter-2 MEETING ROOM 6 SESSION CHAIRS: Xudan Liu, Institute of Electric Power Systems, Germany Miao Zhu, Shanghai Jiao Tong University, China SATURDAY 11:40-12:00 TS8.22.5 A Speed and Flux Estimation Method of Induction Motor Using Fuzzy Extended Kalman Filter Zhonggang Yin, Lu Xiao, Xiangdong Sun, Jing Liu, Yanru Zhong; Xi’an University of Technology, China 12:00-12:20 TS8.22.6 Research on Stability Performance of Speed Estimation for Induction Motors Based on Adaptive Full-Order Observer Zhonggang Yin, Yanqing Zhang, Xiangdong Sun, Jing Liu, Yanru Zhong; Xi’an University of Technology, China 10:20-11:40 TS8-23: Power Factor Correction Converter MEETING ROOM 3 SESSION CHAIRS: HUANG-JEN CHIU, National Taiwan University of Science and Technology, Taiwan, China Jinjun Liu, Xi'an Jiaotong University, China 10:20-10:40 TS8.23.1 Common Mode Noise Reductions in Totem-pole Bridgeless PFC Converter Kewei Shi1, Masahito Shoyama1, Satoshi Tomioka2; 1Kyushu University, Japan; 2TDKlambda, Japan 92 IEEE PEAC’ 2014 10:40-11:00 TS8.23.2 Evaluation of 600V Superjunction Devices in Single Phase PFC Applications under CCM Operation Juan C. Hernandez, Lars P. Petersen, Michael A. E. Andersen; Technical University of Denmark, Denmark 11:00-11:20 TS8.23.3 A Novel Single-Stage Bridgeless Boost & Buck PFC Converter Qingliang Zheng, Weiming Lin, Shengjian Liu, Nanbing Wu; Fuzhou University, China 11:20-11:40 TS8.23.4 A Novel Robust Method for Three - phase High Power Rectifier System with High Quality Yuan Li, Shiyan Yang, Wei Yang, Jingfang Wang; Harbin Institute of Technology, China 10:20-12:20 TS8-24: Electric Vehicles and Railway Systems MEETING ROOM 4 SESSION CHAIRS: Dianguo Xu, Harbin Institute of Technology, China Xu Yang, Xi'an Jiaotong University, China 10:20-10:40 TS8.24.1 Novel Reactive Power Control Strategy Based on Constant DC-Capacitor Voltage Control for Reducing the Capacity of Smart Charger for Electric Vehicles on Single-Phase Three-Wire Distribution Feeders Hidenori Tanaka1, Toshihiko Tanaka1, Hiroaki Yamada1, Masayuki Okamoto2; 1Yamaguchi University, Japan; 2Ube National College of Technology, Japan IEEE PEAC’ 2014 93 SATURDAY 11:20-11:40 TS8.22.4 Closed-Loop Control of PMSM Based on Optimal Synchronous Pulse Patterns Zhaoyang Zhang1, Xiaoyun Feng1, JunFeng Xu2; 1Southwest Jiaotong University, China; 2 CSR Zhuzhou Institute Co., Ltd., China 10:20-11:40 TS8-25: Wireless Power Transfer System-2 MEETING ROOM 5 SESSION CHAIRS: Duleepa J Thrimawithana, The University of Auckland, New Zealand Wei Chen, Fuzhou University, China 11:00-11:20 TS8.24.3 Field Weakening Strategy in a Wide Speed Range of Induction Motors for Electric Vehicles Based on Maximum Torque Control Yifei Xu, Chuanwen Shen, Haohao Hui, Zhe Huang; Xi’an Jiao Tong University, China 10:20-10:40 TS8.25.1 An Effective Voltage Regulating Circuit for Inductive Power Transfer Systems Yu Chen1, Yue Sun1, Xiao Lv2, Chunsen Tang1, Zhihui Wang1; 1Chongqing University, China; 2Chongqing Special Equipment Inspection and Research Institute, China 11:20-11:40 TS8.24.4 Holistic Approach to Loss Minimization via Tailored Modulation Techniques for PMSM based EV Traction Drives Quanrui Hao; Shandong University, China 10:40-11:00 TS8.25.2 A Comparison of LCL and LC BiDirectional Inductive Power Transfer Systems L. Zhao, Duleepa J. Thrimawithana, Udaya K. Madawala; The University of Auckland, New Zealand 11:40-12:00 TS8.24.5 Output-transformerless traction substation based on three-phase to singlephase cascaded converter Yingying Zhou, Aiping Guo, Xiaoqiong He; Southwest Jiaotong University, China 12:00-12:20 TS8.24.6 Lower Electric Stress ZCS-PWM Superbuck Converter for Electric Vehicle DC Charging Spot Xiaoxiao KONG1, Ling QIN1, Yafang WANG1, Shaojun XIE2; 1Nantong University, China; 2Nanjing University of Aeronautics & Astronautics, China 94 IEEE PEAC’ 2014 11:00-11:20 TS8.25.3 Optimal parameters design for seriesseries resonant converter for wireless power transfer Boping Yang, Shuailin Du, Wenjie Chen, Chen Deng, Dehong Xu; Zhejiang University, China IEEE PEAC’ 2014 95 SATURDAY SATURDAY 10:40-11:00 TS8.24.2 A Novel Balancing Strategy for SeriesConnected Lithium Batteries based on mixed charging mode Fengwu Zhou1, Huipin Lin1, Jin Hu1, Zhengyu LV1, Bin Qian2, Jun Xu2; 1Zhejiang University, China; 2Shanghai Space Power Research Institute, China SATURDAY 10:20-12:20 TS8-26: Distribution Systems MEETING ROOM 6 SESSION CHAIRS: Koji Orikawa, Nagaoka University of Technology, Japan Weimin Wu, Shanghai Maritime University, China 10:20-10:40 TS8.26.1 Active Load Balancer on Three-phase Four-wire Distribution System with Constant DC Capacitor Voltage Control for Multiple Loads Yoshihiro Hisada1, Tint Soe Win1, Toshihiko Tanaka1, Hiroaki Yamada1, Masayuki Okamoto2, Seong Ryong Lee3; 1Yamaguchi University, Japan; 2Ube National College of Technology, Japan; 3Kunsan National University, Rep. of Korea 11:00-11:20 TS8.26.3 The Current and Voltage Detection Under Non-sinusoidal and Unbalanced Voltage Condition Xiaobin Zhang, Pan Zhang, Siyu Cheng, Jiandong Duan, Hui Zhang; Xi’an University of Technology, China 11:20-11:40 TS8.26.4 Hierarchical Structure of Multi-Modular Converter System and Modularized Design Scheme Chen Lv1, Muhammad Mansoor Khan1, Zhenjiang Lv1, Chunhua Li2; 1Shanghai Jiaotong University, China; 2SMEPC, China 11:40-12:00 TS8.26.5 Power Electronic Transformer for DC Power Distribution Network Zhaohui Wang, Zhen Zhang, Junming Zhang, Kuang Sheng; Zhejiang University, China 12:00-12:20 TS8.26.6 An Embedded Power Line Communication Technique for DC-DC Distributed Power System Based on the Switching Ripple Ruichi Wang, Jin Du, Sideng Hu, Jiande Wu, Xiangning He; Zhejiang University, China 10:40-11:00 TS8.26.2 Implementation of a Cascade DSTATCOM under Unbalanced Conditions Maosong Zhang, Qunjing Wang; Anhui University, China 96 IEEE PEAC’ 2014 IEEE PEAC’ 2014 97 SATURDAY 11:20-11:40 TS8.25.4 A New Shielding method for Magnetic fields of a wireless EV charger with regard to human exposure by Eddy Current and Magnetic Path Yuya Kitano1, Hideki Omori1, Tosimitsu Morizane1, Noriyuki Kimura1, Mutsuo Nakaoka2; 1Osaka Institute of Technology, Japan; 2 Kyungnam University, Rep. of Korea SATURDAY 13:30-13:50 TS8.27.1 Neutral-Point Voltage Waveform Control Method for Mitigating the Low-Frequency Ripple Current in E-capless Full-Bridge Inverter Guorong Zhu1,2, Wei-Xing Liu2, Xiao-Bin Fu2, Biao Liang2, Hao-Ran Wang2; 1Guizhou Institute of Technology, China; 2Wuhan University of Technology, China 13:50-14:10 TS8.27.2 Single-phase Bidirectional Bridge Topology without Electrolytic Capacitor at the DC Side Biao Liang, Guo-Rong Zhu, Xiao-Bin Fu, Wei-Xing Liu, Hao-Ran Wang; Wuhan University of Technology, China 14:10-14:30 TS8.27.3 Research on High-frequency Induction Heating Load-matched Based on LLC Resonant Circuit Jingang Li1, Liping Wang1, Qi Sun2; 1Xi’an University of Technology, China; 2Xi’an Action Electronics Co., Ltd, China 98 IEEE PEAC’ 2014 14:30-14:50 TS8.27.4 Relationship between Finite Control Set Model Predictive Control and Direct Current Control for Three-Phase Voltage Source Converters Yongchang Zhang, Qin Zhang; North China University of Technology, China 14:50-15:10 TS8.27.5 Model Predictive Current Control with Optimal Duty Cycle for Three-Phase GridConnected AC/DC Converters Yongchang Zhang, Yubin Peng; North China University of Technology, China 15:10-15:30 TS8.27.6 A PQ Control strategy of VoltageControlled Inverters Yang Chen, Jinbin Zhao, Keqing Qu, Fen Li; Shanghai University of Electric Power, China 13:30-15:30 TS8-28: Rectifier MEETING ROOM 3 SESSION CHAIRS: Yi Tang, Aalborg University, Denmark Jinbin Zhao, Shanghai University of Electric Power, China 13:30-13:50 TS8.28.1 Stability Analysis of Cascade AC System Based on Three-Phase Voltage Source PWM Rectifier Hui Yu, Xinbo Ruan, Xuehua Wang, Hanzhi Zhang, Yu Teng; Huazhong University of Science and Technology, China IEEE PEAC’ 2014 99 SATURDAY 13:30-15:30 TS8-27: Topology and Control of Inverter MEETING ROOM 2 SESSION CHAIRS: Hao Ma, Zhejiang University, China Shaojun Xie, Nanjing University of Aeronautics and Astronautics, China 14:10-14:30 TS8.28.3 A Novel Switching Table for Direct Power Control of Three-Phase PWM Rectifier Hui Zhou, Xiaoming Zha, Yiming Jiang, Wei Hu; Wuhan University, China SATURDAY 14:30-14:50 TS8.28.4 An Efficiency Improved Active Power Decoupling Circuit with Minimized Implementation Cost Yi Tang, Frede Blaabjerg; Aalborg University, Denmark 14:50-15:10 TS8.28.5 One-Cycle Control of a Delta-Connected Cascade H Bridge Rectifier Shaodi Ouyang, Jinjun Liu, Xinyu Wang, Fei Meng; Xi’an Jiaotong University, China 15:10-15:30 TS8.28.6 Active DC-Link Circuit for Single-Phase Diode Rectifier System with Small Capacitance Hojoon Shin, Jung-Ik Ha; Seoul National University, Rep. of Korea 100 IEEE PEAC’ 2014 13:30-14:50 TS8-29: LED Lighting MEETING ROOM 4 SESSION CHAIRS: Dianguo Xu, Harbin Institute of Technology, China Weiping Zhang, North China University of Technology, China 13:30-13:50 TS8.29.1 A Single-Stage Electrolytic CapacitorLess AC/DC LED Driver Yiwen Zhang, Ke Jin; Nanjing University of Aeronautics and Astronautics, China 13:50-14:10 TS8.29.2 Multiple LED Strings with Capacitor Current Balancing and Auto-restart Function Weiqiang Zhang, Lizhi Xu, Weiyi Feng; Delta Electronics (Shanghai) Co., Ltd, China 14:10-14:30 TS8.29.3 A Novel HPS and LED Compatible Driver with Flexible Resonant Tank Jin Hu, Zhengyu Lu, Huipin Lin, Fengwu Zhou; Zhejiang University, China 14:30-14:50 TS8.29.4 High Efficiency Quasi-Two-Stage Converter with Current Balancing for MultiChannel LED Drive Based on AC Bus Rongrong Zhao1, Zunbiao Zheng2, Junming Zhang1; 1Zhejiang University, China; 2Hangzhou Silan Microelectronics Co.,Ltd., China IEEE PEAC’ 2014 101 SATURDAY 13:50-14:10 TS8.28.2 Study on the Four Quadrants Operation of ITER Poloidal Field Converter System H.W. Yuan, L.S. Huang, P. Fu, G. Gao, Z.Q. Song; Chinese Academy of Science, China SATURDAY 13:30-13:50 TS8.30.1 Design of High Efficiency Power Amplifier for Parametric Array Transducer using Variable Power Supply In-Dong Kim1, Jin-Young Kim1, Seung-Soo Choi1, Wonkyu Moon2; 1Pukyong Nat. University, Rep. of Korea; 2POSTECH, Rep. of Korea 13:50-14:10 TS8.30.2 A Low Harmonic Double Star Rectifier with Current Injection at DC Side Jingfang Wang, Shiyan Yang, Wei Yang, Yuan Li; Harbin Institute of Technology, China 14:10-14:30 TS8.30.3 Research on Two-channel Interleaved Two-stage Paralleled Buck DC-DC Converter for Plasma Cutting Power Supply Xi-jun Yang1, Hao Qu1, Chen Yao1, Ning-yun Zhang1, Hou-jun Tang1, Quan Chen2, Frede Blaabjerg3; 1Shanghai Jiao Tong University, China; 2Anhui University, China; 3Aalborg University, Denmark 14:30-14:50 TS8.30.4 Design Considerations of Maximum Energy Harvesting and Voltage Control from High Voltage Power Cables Rui Wang, Zhibo Wang, Jin Du, Jiande Wu, Xiangning He; Zhejiang University, China 102 IEEE PEAC’ 2014 14:50-15:10 TS8.30.5 Research of Soft Switching Arc Welding Inverter Power Supply with Highfrequency and High-power Junpeng Ji1, Xueli Hu1, Zhiguang Hua1, Lei Guo2, Guang Zeng1; 1Xi’an University of Technology, China; 2Economic and Technology Research Institute of Shaanxi Power Company of State Grid, China 13:30-15:30 TS8-31: Soft-switching DC/DC Converter MEETING ROOM 6 SESSION CHAIRS: Eiji Hiraki, Okayama University, Japan Ke Jin, Nanjing University of Aeronautics and Astronautics, China 13:30-13:50 TS8.31.1 Research of a Full Digital-Controlled 240W AC/DC Converter Shan Yu1, Yundan Pan1, Zhiwang Xu2, Jiqing Dong1; 1Fuzhou University, China; 2 Fujian Raynen Technology Co., Ltd., China 13:50-14:10 TS8.31.2 A New Interleaved Flyback Converter Based on Hysteretic Control Jinbiao Liu, Jinbin Zhao, Keqing Qu, Fen Li, Wei Cao; Shanghai University of Electric Power, China 14:10-14:30 TS8.31.3 A Isolated Soft-Switching DC-DC Converter with High-Step-Down Conversion Cailing Huo, Jinbin Zhao, Keqing Qu, Fen Li; Shanghai University of Electric Power, China IEEE PEAC’ 2014 103 SATURDAY 13:30-15:10 TS8-30: Special Power Supply-1 MEETING ROOM 5 SESSION CHAIRS: Xuejun Pei, Huazhong University of Science and Technology, China Daqing Gao, Institute of Modern Physics, China SATURDAY 14:50-15:10 TS8.31.5 An Active Snubber Cell for N-Phase Interleaved DC-DC Converters River Tin-Ho Li1, Carl N. M. Ho2; 1ABB (China) Ltd., China; 2ABB Switzerland Limited, Switzerland 15:10-15:30 TS8.31.6 Analysis and Design Consideration of a Current-Fed ZVZCS Phase-Shifted FullBridge Converter Zhong Chen, Mengnan Li, Yang Wang; Nanjing University of Aeronautics & Astronautics, China 15:50-17:50 TS8-32: Advanced Control Method MEETING ROOM 2 SESSION CHAIRS: Hiroaki Yamada, Yamaguchi University, Japan Wei Xu, Huazhong University of Science and Technology, China 15:50-16:10 TS8.32.1 Intelligent Control of Diesel Generators Using Gain-Scheduling Based on Online External-Load Estimation Christian Mai1, Kasper Jepsen1, Zhenyu Yang1, Leif Hansen2, Kjeld K. Madsen2; 1Aalborg University, Denmark; 2DEIF A/S, Denmark 104 IEEE PEAC’ 2014 16:10-16:30 TS8.32.2 A New Hysteresis Control Buck Converter with Enhanced Feedback Ripple Zhengguang Liu, Jinbin Zhao, Keqing Qu, Fen Li, Wei Cao; Shanghai University of Electric Power, China 16:30-16:50 TS8.32.3 PID Sliding Mode Control for Voltage Regulator of Doubly Salient Electromagnetic Generator Weili Dai, Jun Ding, Hao Tian; Hohai University, China 16:50-17:10 TS8.32.4 The Application of PWM Sliding Mode Control in Novel Frequency Conversion Circuit Yi-Shu Zhu, Xu-Dong Ye; Zhejiang University, China 17:10-17:30 TS8.32.5 The Component Importance Evaluation of Power Converter Based on Complex Network Guiping Du, Lidan He, Junxiang Fang; South China University of Technology, China 17:30-17:50 TS8.32.6 Study on a Fuzzy Controller for the Balance of Capacitor Voltages of Three-Level Boost Dc-Dc Converter Qiqi Zhao, Yu Fang, Mingming Ma, Jun Wang, Yong Xie; Yangzhou University, China IEEE PEAC’ 2014 105 SATURDAY 14:30-14:50 TS8.31.4 A Novel Soft-Switching DC-DC Converter with High-Step-Down Conversion Cailing Huo, Jinbin Zhao, Keqing Qu, Fen Li; Shanghai University of Electric Power, China 15:50-17:50 TS8-34: Dual Active Bridge Converter MEETING ROOM 4 SESSION CHAIRS: Hao Ma, Zhejiang University, China Yugang Yang, Liaoning Technical University, China 15:50-16:10 TS8.33.1 Modeling and Close-loop Control Strategies of Switched Z-source Isolated Bidirectional DC-DC Converter Xiuyi Li, Miao Zhu, Xu Cai; Shanghai Jiao Tong University, China 15:50-16:10 TS8.34.1 A Novel Control Method Focusing on Reactive Power for A Dual Active Bridge Converter Jun-ichi Itoh, Hayato Higa, Tsuyoshi Nagano; Nagaoka University of Technology, Japan 16:10-16:30 TS8.33.2 A Bi-Directional Cell Voltage Equalization System with Implantable Modules Patrin K. Illenberger, Briony P. Forsberg, Tristan J. Balme, Duleepa J. Thrimawithana, Udaya K. Madawala; The University of Auckland, New Zealand 16:30-16:50 TS8.33.3 The Universal Design Criterion of Coupled Inductor in Multiphase Interleaving and Magnetically Integrated Bidirectional DC/DC Converter Yugang Yang, Jie Ma, Yunqiao Ma, Yufei Zou; Liaoning Technical University, China 16:50-17:10 TS8.33.4 A New Coupled Inductors Used in Interleaving Bidirectional DC/DC Converter Yugang Yang, Jie Ma, Jingyuan Ye, Zhanling Han; Liaoning Technical University, China 106 IEEE PEAC’ 2014 16:10-16:30 TS8.34.2 Analysis and Comparison Based on Component Stress Factor of Dual Active Bridge and Isolated Full Bridge Boost Converters for Bidirectional Fuel Cells Systems Riccardo Pittini, Maria C. Mira, Zhe Zhang, Arnold Knott, Michael A.E. Andersen; Technical University of Denmark, Denmark 16:30-16:50 TS8.34.3 A Novel Switching Strategy for Isolated Dual-Active-bridge Converter Kun Yan, Hui Wang, Guangzhu Wang; Shandong University, China 16:50-17:10 TS8.34.4 Bidirectional Isolated Non-Resonant DAB DC-DC Converter for Ultra-Wide Input Voltage Range Applications P. A. M. Bezerra, F. Krismer, R. M. Burkart, J. W. Kolar; ETH Zurich, Switzerland IEEE PEAC’ 2014 107 SATURDAY SATURDAY 15:50-17:10 TS8-33: Bidirectional Converter MEETING ROOM 3 SESSION CHAIRS: Zhe Zhang, Technical University of Denmark, Denmark Xu Yang, Xi'an Jiaotong University, China SATURDAY 17:30-17:50 TS8.34.6 Optimal Design of Circuit Parameters of DAB Converter Based on Transformerless Cascaded Bidirectional Converters Guang-lin Sha, Cong Wang, Jun Wang, Hong Cheng; China University of Mining & Technology(Beijing), China 15:50-17:30 TS8-35: Special Power Supply-2 MEETING ROOM 5 SESSION CHAIRS: Xuejun Pei, Huazhong University of Science and Technology, China Daqing Gao, Institute of Modern Physics, China 16:30-16:50 TS8.35.3 Quick EMI Solution based on the EM field distribution Minchao Huang; Mickey Solution on Power Electronics, China 16:50-17:10 TS8.35.4 Quantitative Investigation of Energy Conversion in Monolithic Cantilever-Based Piezoelectric Energy Harvester Shuren Wang1, Wei Jiang1, Seiji Hashimoto2; 1Yangzhou University, China; 2Gunma University, Japan 17:10-17:30 TS8.35.5 A single-magnetic cell-to-cell battery equalization converter Yang Chen, Xiaofang Liu, Yangyi Cui, Shiyan Yang, Jiming Zou, Wei Yang; Harbin Institute of Technology, China 15:50-16:10 TS8.35.1 Experimental Verification of Low-Voltage Power Supply with 10, 000-A Pulse Output for Spark Plasma Sintering Koji Orikawa, Jun-ichi Itoh; Nagaoka University of Technology, Japan 16:10-16:30 TS8.35.2 Design Comparison of Autonomous High Voltage Driving System for DEAP Actuator Lina Huang, Riccardo Pittini, Zhe Zhang, Michael A. E. Andersen; Technical University of Denmark, Denmark 108 IEEE PEAC’ 2014 IEEE PEAC’ 2014 109 SATURDAY 17:10-17:30 TS8.34.5 Multi-level Cascaded Medium Frequency Isolated Power Conversion System Based on Dual Active Bridge Ning Gao, Qiang Chen, Rui Li, Xu Cai; Shanghai Jiao Tong University, China Thursday November 6th, 2014 16:30-18:00 POSTER AREA SESSION CHAIRS: Hao Ma, Zhejiang University, China Qianhong Chen, Nanjing University of Aeronautics and Astronautics, China Xiong Du, Chongqing University, China TOPIC: Control, Modeling, Simulation, System Stability and Reliability P6.01 DIAGLOGE SESSION P6.02 P6.03 110 Power Flow Analysis and Control of Compensated UPS with Grid Voltage Fluctuation Xiaojun Zhao1, Mengxin Huang1, Zhaoyang Yan1, Chunjiang Zhang1, Shiwei Li2; 1Yanshan University, China; 2SICON CHAT UNION Power Equipment Co., Ltd., China Distributed Predictive Control of GridConnected Solar PV Generation Based on Data-Driven Subspace Approach Wenwen Yang1, Fuwen Yang1, Jianmin Chen2; 1East China University of Science and Technology, China; 2China Ship Development and Design Center, China Stabilizing the Nonlinear Dynamic Behavior of LLC Resonance Full-Bridge DC-DC Converter Under Voltage Mode Control Fan Xie, Bo Zhang, Dongyuan Qiu; South China University of Technology, China IEEE PEAC’ 2014 P6.04 Harmonic Stability Assessment for MultiParalleled, Grid-Connected Inverters Changwoo Yoon, Xiongfei Wang, Filipe Miguel Faria Da Silva, Claus Leth Bak, Frede Blaabjerg; Aalborg University, Denmark P6.05 A Resonance Suppression Method for a Multiple Grid-connected-converter System with LCL Filter Shulong Tan1, Geng Yang1, Hua Geng1, Siman Ma2, Weiyang Wu2; 1Tsinghua University, China; 2Yanshan University, China P6.06 A Novel DC Voltage Control Strategy for Multiterminal HVDC System with Offshore Wind Farms Integration Wenting Li1, Gang Shi1, Jing Lv1, Xu Cai1, Naihu Li2; 1Shanghai Jiao Tong University, China; 2ALSTOM GRID Technology Center, China P6.07 Study on control system of the new type power transformer based on the PWM rectifier and current detecting circuittle Zhaofu Hu, Baodong Bai; Shenyang University of Technology, China P6.08 Effects of the traction network voltage fluctuation on the permanent magnet synchronous traction drive system Dong Zhao, Fei Lin, Zhongping Yang; Beijing Jiaotong University, China P6.09 Error Analysis of Digital Control PFC Xiaoqiang Zhang1,2, Weiping Zhang2, Boyu Yan2, Geyang Lei2; 1Beijing Institute of Technology, China; 2North China University of Technology, China IEEE PEAC’ 2014 111 DIAGLOGE SESSION Dialogue session System-level Design and Stability Analysis of DC Microgrid Na Zhi, Hui Zhang, Ning Li, Jiajia Yang; Xi’an University of Technology, China P6.11 The modeling of LiFePO4 batteries Ting-Jung Kuo1, Wei-Li Chiu1, Chien-Kang Huang1, Shin-Yi Lee2, Kung-Yen Lee1; 1National Taiwan University, Taiwan, China; 2 University of Taipei, Taiwan, China DIAGLOGE SESSION P6.12 Microgrid Secondary Frequency Control Method Based on Life Optimization of Energy Storage Units Jinwei Li1,2, Jianhui Su1, Yong Shi1, Meiqin Mao1, Xiangzhen Yang1, Ning Liu1; 1Hefei University of Technology, China; 2Henan University of Science and Technology, China P6.13 A Wavelet Based Method for Modeling and Simulation of a SiC BJT Xiuting Lv, Pingan Tan; Xiangtan University, China P6.14 Synchronizing Chaos in Memristor Based van der Pol Oscillation Circuits Yimin Lu, Ming Chen, Xianfeng Huang; Guangxi University, China P6.15 Effect of Wind Speed Probability Distribution on Lifetime of Power Semiconductors in the Wind Power Converters Gaoxian Li1, Xiong Du1, Pengju Sun1, Luowei Zhou1, Heng-Ming Tai2; 1Chongqing University, China; 2University of Tulsa, USA P6.16 112 P6.17 Simulation Analysis of Active Clamping Circuit with Status Feedback for HVIGBTs Ye Jiang, Ting Lu, Liqiang Yuan, Zhengming Zhao, Fanbo He; Tsinghua University, China TOPIC: Conversion Technologies for Renewable Energy and Energy Saving P6.18 DESIGN A NOVEL NINE LEVEL AC TO DC MULTILEVEL INVERTER BASED ON FPGA CONTROLLAR Yong-Seng Wong1,2, Jiann-fuh Chen1, KuoBin Liu2; 1National Cheng Kung University, Taiwan,China; 2National Synchrotron Radiation Research Center, Taiwan,China P6.19 Analysis and Research on Design Requirements of Power Supply System in DC Building Chen Yang, Ling Mao, Wen-ming Chen, Shao-jun Xie, Ling Qin; Nanjing University of Aeronautics and Astronautics, China P6.20 Control Strategy for Wireless Paralleled Inverters under Nonlinear Load Conditions Biying Ren, Heng Bai, Xiangdong Sun, Qi Zhang, Shaoliang An; Xi’an University of Technology, China P6.21 Analysis of Parallel-Serial Dual Active Bridge Converter Jun Wang, Yu Fang, Qiqi Zhao, Peng Sun, Zhengqun Wang; Yangzhou University, China Analysis and Design of Virtual ESR Circuit with Constant On Time Control Hao Peng1, Chin Chang2; 1Contributing Writer, USA; 2Semtech Corp., USA IEEE PEAC’ 2014 IEEE PEAC’ 2014 113 DIAGLOGE SESSION P6.10 DC Bus Voltage Control of large-capacity SMES Converter Jie Li, Hui Zhang, Jinhong Liu, Bin-han Yang; Xi'an University of Technology, China P6.23 A hybrid derivative feedback control for VSG-based VSC to improve dynamic response characteristic Fang Liu1, Xing Zhang1, Rongliang Shi1, Haizhen Xu1, Lei Tao2; 1Hefei University of Technology, China; 2Sungrow Power Supply Co., Ltd., China P6.24 DIAGLOGE SESSION P6.25 P6.26 P6.27 114 Three Phase High Step-up Single-Stage Flyback Converter with no Electrolytic Capacitor Yifeng Wang, Liang Yang, Chengshan Wang, Zhun Meng; Tianjin University, China Research on the Optimum Design of Building Photovoltaic Based on the Radiation Model Evaluation on Vertical Surface in Beijing Fen Li1, Nianjun Ma1, Jinbin Zhao1, Jinlong Wang1, Zeqiang Bian2; 1Shanghai University of Electric Power, China; 2China Meteorological Observation Centre, China Adaptive Control Strategy to Enhance Penetration of PV Power Generations in Weak Grid Guihua Liu, Xiaojiao Cao, Wei Wang, Tianyuan Ma, Wei Yang, Yang Chen; Harbin Institute of Technology, China Active Power Decoupling Method for Isolated Micro-Inverters Yi Liu, Meng Huang, Jianjun Sun, Xiaoming Zha; Wuhan University, China IEEE PEAC’ 2014 P6.28 Energy Management Based on Multiagent for Independent DC Micro-grid with Wind solar Power Zhiyuan Qi, Zhifeng Li; Inner Mongolia University, China P6.29 Solid State DC Circuit Breaker for Super Uninterruptible Power Supply Haijin Li, Jianan Zhou, Zhaoyu Liu, Dehong Xu; Zhejiang University, China P6.30 Control strategy of Li-Ion Battery Module in Super UPS Jianan Zhou, Haijin Li, Zhaoyu Liu, Changsheng Hu, Dehong Xu; Zhejiang University, China P6.31 Research on the Control Strategy of Switched Reluctance Generator System Guojun Yu1, Yingjie Huo2, Lei Ma1, He Cheng1, Hao Chen1; 1China University of Mining & Technology, China; 2Lanzhou Institute of Physics & Science and Technology, China P6.32 Research of Moving Magnet Linear Generator for Stirling Convertor Yingjie Huo1, An Zhang1, Xuelin Zhang1, Chunjie Yan1, Guojun Yu1, H Chen1, Zhou Yang2; 1Lanzhou Institute of Physics & Science and Technology, China; 2China University of Mining & Technology, China P6.33 Resonance suppression for Large-scale Grid-connected photovoltaic plant Ning Xie, An Luo, Fujun Ma, Yandong Chen, Zhiyong Chen, Zhikang Shuai; Hunan University, China IEEE PEAC’ 2014 115 DIAGLOGE SESSION P6.22 A Novel Hybrid Power Storage Topology and its Power Sharing Strategy Fengqi Chang, Zedong Zheng; Tsinghua University, China TOPIC: Inverter and Control: DC/AC Inverter, Modulation and Control P6.35 P6.36 DIAGLOGE SESSION P6.37 P6.38 116 Optimized Design of Damped Proportional-Resonant Controllers for GridConnected Inverters through Genetic Algorithm Huiyong Hu1, Wei Wei1, Yonggang Peng1, Jinyong Lei2; 1Zhejiang University, China; 2 Electric Power Research Institute of CSG, China Design and Analysis of the LCL Resonant Convertor in Inductive Power Transfer System Jikun Zhou1, Fugang Wu1, Rong Zhang1, Xin Dai2; 1China Academy Engineering of Physics Institute of Systems Engineering, China; 2 Chongqing University, China Research and Application of 1140V 500KVA STATCOM Based on Three-Level Converter Junjie Li1, Jianguo Jiang1, Chunxiao Zhu1, Yunlong Liu2; 1Shanghai Jiao Tong University, China; 2Jiangsu University, China A Novel Multi-Loop Control Strategy for PWM Converter Based on LCL Filter Hao Zhang1, Luyang Wang1, Xingwu Yang1, Yang Bai2; 1Shanghai University of Electric Power, China; 2State Grid Shanghai Municipal Electric Power Company, China IEEE PEAC’ 2014 P6.39 Suppression Scheme for the Commonmode Capacitor Voltage Fluctuations in Modular Multilevel Converters Binbin Li, Dandan Xu, Yi Zhang, Dianguo Xu; Harbin Institute of Technology, China P6.40 LC Filter Design for Wide Band Gap Device Based Adjustable Speed Drives Casper Vadstrup, Xiongfei Wang, Frede Blaabjerg; Aalborg University, Denmark P6.41 Hybrid SVPWM Technique for Reduced Torque Ripple in Permanent Magnet Synchronous Motor Meng Wang, Jiaqiang Yang, Changsheng Zhu; Zhejiang University, China P6.42 High Frequency Harmonic Analysis and Suppression of Converters Paralleled by Multiwinding Transformer Zezhou Yang, Shangsheng Li, Wu Nan, Xiaoming Zha; Wuhan University, China P6.43 Modeling and Stability Analysis of Autonomous Microgrid Composed of Inverters Based on Improved Droop Control Jie Dong, Chun-Jiang Zhang, Xiao-Mai Meng, Zhong-Nan Guo, Zhi-Zhong Kan; Yanshan University, China P6.44 Control Strategy Reducing Input Impedance in Two-Stage Three-Phase 3L-NPC Photovoltaic Inverter Zhiyuan Shen, Ke Jin; Nanjing University of Aeronautics and Astronautics, China IEEE PEAC’ 2014 117 DIAGLOGE SESSION P6.34 P6.46 P6.47 DIAGLOGE SESSION P6.48 Power Loss Comparison with Different PWM Methods for 3L-NPC Inverter and 3L -T Type Inverter Hyunjin Shin1, Kwanghee Lee1, Jaeho Choi1, Seokchan Seo2, Jingook Lee2; 1Chungbuk National University, Rep. of Korea; 2Woojin Industrial Systems Co. Ltd., Rep. of Korea Improved Repetitive Control of Singlephase Three level Inverter Based on PWM Voltage Feedback Bing Ben, Xiu-Bei Zhang, Zhi-Zhong Kan, Rui Zhang, Chun-Jiang Zhang; Yanshan University, China The FOC and DTC Scheme in a High Power Electrically Excited Synchronous Motor Based Flywheel Energy Storage System Yang Liu1, Liming Shi2, Lu Zhao2, Yaohua Li2; 1University of Chinese Academy of Sciences, China; 2Institute of Electrical Engineering, Chinese Academy of Sciences, China Design of Single Phase Photovoltaic Grid -connected Inverter Based on DSP&ARM Feng Zhang, Jing Hui, Lei Wu; Jiangnan University, China TOPIC: Magnetics, Passive Integration, Magnetics for Wireless and EMI P6.49 118 Implementation of a MOSFET-based Active Differential Mode EMI Filter in DC/DC Converter Yuehong Yang1, Xinli Chang2, Wenjie Chen1, Xu Yang1; 1Xi’an Jiaotong University, China; 2Shandong Weihai Power Supply Company, China IEEE PEAC’ 2014 P6.50 Analysis on Near-field Effect Caused by Stray Magnetic Field of Integrated LLC Transformer Haijun Yang, Zengyi Lu; Delta Electronics (Shanghai) Co., Ltd, China P6.51 Planar transformer design in GaN based LLC resonant converter Meiting Cui, Xiaojie You, Yan Li, Mei Liang; Beijing Jiaotong University, China P6.52 Modeling and Simulation of Conducted EMI for Front-end Power Supply Qingbin Chen, Yu Zhang, Subin Lin, Wei Chen; Fuzhou University, China P6.53 Comparison and Optimization of High Frequency Inductors for Critical Model GaN Converter Operating at 1MHz Mingkai Mu, Fred C. Lee; Virginia Tech, USA TOPIC: Power Devices and Applications: Si, SiC and GaN Devices P6.54 Performance Evaluation of SiC MOSFET, Si CoolMOS and IGBT Mei Liang, Trillion Q. Zheng, Yan Li; Beijing Jiaotong University, China P6.55 Design and Heat Transfer Research of GaN-Based Integrated Module Yixuan Guo, Bing Gao, Xiaoling Yu, Kangping Wang, Xu Yang; Xi’an Jiaotong University, China P6.56 Thermal Reliability Analysis of Non-gate Dielectric Film in IEC-GCT Ruliang Zhang, Yong Gao, Cailin Wang, Pengfei Yang; Xi’an University of Technology, China IEEE PEAC’ 2014 119 DIAGLOGE SESSION P6.45 Thermal Impedance Model of High Power IGBT Modules Considering Heat Coupling Effects A. S. Bahman, K. Ma, F. Blaabjerg; Aalborg University, Denmark P6.58 Advantage of super junction MOSFET for power supply application Song Chen1, Danyi Xiang1, Haining Wang1, Keisuke Tabira2, Yasushi Niimura2; 1Fuji Electric (China) Co., Ltd, China; 2Fuji Electric Co., Ltd, Japan P6.59 DIAGLOGE SESSION P6.60 T-Type IGBT Module with New Voltage Class Authentic RB-IGBT for DC-1000V Solar Inverter Application Danyi Xiang1, Mitsuhiro Kakefu2, Sawada Mutsumi2, Masahito Otsuki2; 1Fuji Electric (China) Co.,Ltd, China; 2Fuji Electric Co.,Ltd., Japan Temperature Effect on Performance and Reliability of QR Tapped-Inductor Buck LED Driver Weiming Lin, QingLiang Zheng, YuZhen Xu, Qiang Zhang; Fuzhou University, China P6.63 A High-Efficiency Battery Charger with Cascode Output Design Cheng-Yan Yang1, Chao-Chun Wang1, Huang-Jen Chiu1, Po-Jung Tseng2, Yu-Kang Lo2, Hong-Bo Ma3; 1National Taiwan University of Science and Technology, Taiwan, China; 2Lite-On Technology Corporation, Taiwan, China; 3Southwest Jiaotong University, China P6.64 A Novel Type of Ultracapacitor Electric Scooter with EDLC Super Rapid Charging System for Home Use Yuya Maeyama1, Hideki Omori1, Noriyuki Kimura1, Toshimitsu Morizane1, Mutsuo Nakaoka2; 1Osaka Institute of Technology, Japan; 2Kyungnam University, Rep. of Korea P6.65 Design and Experimental Verification of On-board Charger for Electric Vehicle Rui Xu1, Wei Fang1, Xiao-dong Liu1, Yang Liu1, Yong Hu1, Yan-fei Liu1,2; 1Anhui University of Technology, China; 2Queen’s University, Canada P6.66 Calculation of High Frequency Bearing Currents of PWM Inverter-Fed VF Induction Motor Yu Wang, Zhixue Chen, W.F. Liu, Baodong Bai; Shenyang University of Technology, China P6.67 High Efficiency Wide Range Bidirectional DC/DC Converter for OBCM Application Gang Liu1,2, Dan Li1, Minli Jia2, Jianqiu Zhang1; 1Fudan University, China; 2Delta Power Electronics (Shanghai) Co. Ltd, China TOPIC: Power Electronics Applied to Electric Vehicles and Railway Systems P6.61 P6.62 120 Research on modeling and State of Charge Estimation for Lithium-ion battery Dong Sun, Xikun Chen, Yi Ruan; Shanghai University, China Analysis of the Startup Method for Building Up DC Voltage via Body Diode Rectifying in Dual Active Bridge Converter Zhonghu Zhu, Yongai Zheng, Yu Fang, Pan Xu; Yangzhou University, China IEEE PEAC’ 2014 IEEE PEAC’ 2014 121 DIAGLOGE SESSION P6.57 TOPIC: Switching Power Supply: DC/DC Converter, Power Factor Correction Converter P6.68 Analysis of Medium-Voltage DC and AC Supply for Klystron Accelerators at the European Spallation Source Johannes Voss, Hanno Stagge, Rik W. DeDoncker; RWTH Aachen University, Germany P6.73 Operation Analysis for Buck PFC Converter in Discontinuous Capacitor Voltage Mode Jianbo Yang1, Al-Naemi Faris1, Weiping Zhang2; 1Sheffield Hallam University, UK; 2 North China University of Technology, China P6.69 Cascade STATCOM Step Wave Optimization Based on PSO Bo Yang1, Guang Zeng1, Yanru Zhong1, Zhonglai Su2; 1Xi’an University of Technology, China; 2XJ ELECTRIC CO., LTD, China P6.74 A Universal-Input High-Power-Factor LLC Resonant Driver without Electrolytic Capacitor for PWM Dimming LED Lighting Application Jianbo Yang1, Al-Naemi Faris1, Weiping Zhang2, Yuanchao Liu2, Xiaoping Chen2; 1 Sheffield Hallam University, UK; 2North China University of Technology, China P6.75 Study of The Mechanism of Perioddoubling Bifurcation in DCM Flyback Converter Ling-ling Xie, Ren-xi Gong; Guangxi University, China P6.76 Analysis and Design of high efficiency Quasiresonant Buck converter Jinlong Wang, Fanghua Zhang, Jianghua Xie, Shuai Zhang, Shuo Liu; NanJing University of Aeronautics and Astronautics, China P6.77 State Feedback Exact Linearization Control of Buck-Boost Converter Ding-xin Shuai; Panzhihua University, China DIAGLOGE SESSION P6.70 Simulation on a Micro-grid system Based on Superconducting Magnetic Energy Storage Yang Xie1, Meng Song2, Jing Shi1, Guozhong Jiang1, Peng Geng1, Ming Zhang1; 1Huazhong University of Science and Technology, China; 2Yunnan Electric Power Research Institute, China Southern Power Grid, China P6.71 Research on Active Harmonic Resister Based on Repetitive Control Technique Kai Zhang, Wanjun Lei, Cheng Nie, Yue Wang; Xi’an jiaotong University, China P6.72 Research of Single-carrier Modulation Strategy for Modular Multilevel Converter Fayun Zhou, An Luo, Qiaopo Xiong, Qianming Xu, Ning Xie; Hunan University, China 122 IEEE PEAC’ 2014 IEEE PEAC’ 2014 123 DIAGLOGE SESSION TOPIC: Power Electronics Applied to Transmission and Distribution Systems P6.79 A Digital Multimode Boost Converter with wide range of input voltage for An Energy Recycling Load System Chun Fang Zheng, Xiang Min Xu, Bo Zhang, Dong Yuan Qiu; South China University of Technology, China P6.80 Performance Analysis of Half Bridge Three-level Full Bridge Bi-directional DCDC Converters Feng Zhao, Cong Wang, Ruiqi Dong, Xiaokang Yang; China University of Mining & Technology(Beijing), China P6.81 DIAGLOGE SESSION Suppressed Switching Noise DC-DC Converter Applying Improved Modulation Scheme Atsushi Hirota1, Saad Mekhilef2, Mutsuo Nakaoka2,3; 1Institute of National Colleges of Tech., Japan; 2University of Malaya, Malaysia; 3Kyungnam University, Malaysia P6.82 P6.83 124 Design and Implementation of Interleaved LLC Half-bridge Resonant Converters Cherg-Huei Liang, Tsorng-Juu Liang, KaiHui Chen, Hui-Wen Liang; National Cheng Kung University, Taiwan, China P6.84 Research on Continuous Input Current Push-Pull Converter with Built-In Input Filter Lei Zhou, Yan Li, TQ. Zheng, Mei Liang; Beijing Jiaotong University, China P6.85 A Flyback Converter With Multiple Ports for Power Management in DC Distribution Systems Yajian Tong1, Zhenyu Shan1, Juri Jatskevich1, Chi K. Tse2; 1The University of British Columbia, Canada; 2The Hong Kong Polytechnic University, Hong Kong, China P6.86 An incremental fuzzy control scheme based on ESO for plasma Guitao Chen, Jian Dang, Qiang Sun; Xi’an University of technology, China P6.87 Loss Performance Analysis of an Isolated Power Supply for Ultrafast Tracking Converters Khiem Nguyen-Duy, Arnold Knott, Michael A. E. Andersen; Technical University of Denmark, Denmark P6.88 Bi-directional DC / DC Converter and its practical Application Yang Shen, Zhigang Zhao; Shenyang institute of engineering, China P6.89 The Development of High-current Power Supply system for Electrolytic Copperfoil An Luo, Fujun Ma, Qiaobo Xiong; Hunan University, China The Research of New Cascade Bridgeless Multi-level Rectifier Jian Jiao, Cong Wang; China University of Mining & Technology(Beijing), China High Voltage-Gain Boost DC-DC Converter with Tapped-Inductor T-N Quang1, H-J Chiu1, Y-K Lo1, C-Y Yang1, Hong-Bo Ma2; 1National Taiwan University of Science and Technology, Taiwan, China; 2 Southwest Jiaotong University, China IEEE PEAC’ 2014 IEEE PEAC’ 2014 125 DIAGLOGE SESSION P6.78 Important Rules, Notices & Conference Policies Registration Cancellation & Refund Policy All registrations must include payment. Payment methods include credit card, online payment and bank transfer. Please do not send cash. 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Important Rules, Notices & Conference Policies Important Rules, Notices & Conference Policies Information Provided Other Than Through Registration Conference registrants will have their names and contact information, including name, affiliation, and mailing address provided to the exhibitors and media partners in the PEAC for which they register. Registering for PEAC gives permission for your name and contact 128 IEEE PEAC’ 2014 IEEE PEAC’ 2014 129 Exhibitor Description Booth No.: 104 AS OF 5/10/2014 Delta Electronics, Inc. Exhibitor Delta Electronics, Inc. 104 Dongguan Teamwise electronic Co., Ltd. 114 EACO Capacitor Inc. 118 Fuji Electric (China) Co., Ltd. 106 MacMic Science & Technology Holding Co., Ltd. 115 Magnetics International, Division of Spang CM 103 Ltd. EXHIBITOR DESCRIPTION MITSUBISHI ELECTRIC (SHANGHAI) CO., LTD. & ELECTRONICS 105 NISTRONICS (JIANGXI) CO., LTD. 102 NORWE Inc. 112 Parametric Technology (Shanghai) Software Co., Ltd. 117 SHANGHAI EAGTOP ELECTRONIC TECHOLOGY CO., LTD. 101 Shenzhen Inovance Technology Co., Ltd. 110 Shenzhen POCO Magnetic Co., Ltd. 113 Sungrow Power Supply Co., Ltd. 107 U-con Capacitors Technologies Co., Ltd. 116 Xiamen Kehua Hengsheng Co., Ltd. 108 Yangzhou Kaipu Electronics Co., Ltd. 111 Zhejiang KeDa Magnetoelectricity Co., Ltd. 109 130 IEEE PEAC’ 2014 Address: No. 7 building, 6th courtyard, Beichen East Rd., Chaoyang Dist., Beijing Postcode: 100105 Tel: +86-10-82253225 ext 6050 Fax: +86-10-82251360 E-mail: [email protected] Website: www.delta-china.com.cn Delta Group, founded in 1971, is a global leader in power and thermal management solutions and is a provider with world-class stature in several product segments. Our mission statement, “To provide innovative, clean and energy-efficient solutions for a better tomorrow,” focuses our role in addressing key environmental issues such as global climate change. As an energy-saving solutions provider with core competencies in power electronics and in innovative research and development, Delta's businesses encompass Power Electronics, Energy Management, and Smart Green Life. Delta has sales offices worldwide with manufacturing facilities and R&D centers in China, Taiwan, USA, Europe, Thailand, Japan, Singapore, India, Mexico and Brazil. Throughout its history, Delta Group has received many global awards and recognition for its business milestones, innovative technology and corporate social responsibility. Since 2011, Delta has been selected as a member of the prestigious Dow Jones Sustainability™ World Index (DJSI World) for 4 consecutive years. In 2014, it was also included in the DJSI Emerging Markets Index for the 2nd consecutive year and ranked first in five criteria among DJSI’s World-leading Electronic Equipment, Instrument and Component Companies sector. IEEE PEAC’ 2014 131 EXHIBITOR DESCRIPTION Booth NO. Booth No.: 118 Dongguan Teamwise electronic Co., Ltd. EACO Capacitor Inc. Address: No.1 Ao Bei Road, Cross Xiang Xin West Road, YanTian, FengGang Dongguan Postcode: 523700 Tel: +86-769-87773505 Fax: +86-769-87512476 E-mail: [email protected] Website: www.teamwisepower.com Address: TianfulaiInt’I Industrial City Shunde, Guangdong, China Postcode: 528305 Tel: +86-757-22301650 Fax: +86-757-22301658 E-mail: [email protected] Website: www.eaco.com TEAMWISE is an asian electrical / electronic contract manufacturer providing complete turnkey box build services to OEM companies. With a focus on power conversion products, we manufacture mechanical assemblies, PCB assemblies, magnetic and switching mode power supply product for global customer base. Our customers serve a diverse market base including IT, telecommunications, industrial, medical and computer Storage Systems. EACO specializes in design and manufacture of power electronic capacitors, and is always at the forefront of industrial type metalized film capacitor field. We have powerful design ability, fast delivery time, and competitive price; what’s more, we can offer engineers feasible solution in different ways. We are ISO9001, ISO14001 and ISO13485 certified to supply the customer with perfect products and services to their total satisfaction. Our manufacturing capabilities include SMT and wave soldering under nitrogen, ICT (In-circuit test), AOI (Auto optical inspection), auto insertion, functional testing, safety testing (hi-pot, ground continuity test), ultrasonic welding, conformal coating, burn-in testing and ATE. Production process flow is specialized for high mixing, low Volume production with lean manufacturing philosophy. Our engineering capabilities include but not limited to concurrent engineering, design assistance, sourcing and evaluate alternatives materials. 132 IEEE PEAC’ 2014 EXHIBITOR DESCRIPTION EXHIBITOR DESCRIPTION Booth No.: 114 IEEE PEAC’ 2014 133 Booth No.: 106 Address: F27, International Corporate City, No.3000 Zhongshan North Road, Shanghai Postcode: 200063 Tel: +86-21-54961177 Fax: +86-21-54960189 E-mail: [email protected] Website: www.fujielectric.com.cn EXHIBITOR DESCRIPTION As an electronic device manufacturer, Fuji Electric operate globally in three business fields: semiconductor devices (IGBT, MOSFET, Diode), storage devices (magnetic disk), imaging devices ( photoconductive drums). In our respective business areas, we offer the world’s foremost products and services, aiming to become the company of choice for our customers. 134 IEEE PEAC’ 2014 MacMic Science & Technology Holding Co., Ltd. Address: No.18 Huashan Zhong Rd., Changzhou City, Jiangsu Province, China Postcode: 213022 Tel: +86-519-85166088 Fax: +86-519-85162291 E-mail: [email protected] Website: www.macmicst.com MacMic Science & Technology Holding Co., Ltd. is a national key high-tech company consisting of scientists and engineers with expertise of power electronics and engaged in development and production of power semiconductor products at home and abroad. MacMic focuses on high technology, high efficiency and high reliability. MacMic is awarded as National Hi-tech Industrialization Demonstration Base by NDRC and authorized as a Drafter of National Standard for IGBT and FRD. MacMic designs, manufactures, and marketing of new type of power semiconductor devices and their modules i.e. IGBT, MOSFET, FRED chips and discrete, standard modules and custom specific power modules. Our well-equipped manufacture and testing facilities and our skilled workers enable us to supply high quality and reliability products. Our fast and flexible ability to meet customer’s demands highlights our business uniqueness as a great value to customer’s competitive advantages. MacMic products have been widely used in applications such as SMPS, Uninterrupted Power Supply, Motor Dirver, Welding Machine, Induction Heating, Solar Inverter, Wind-power Inverter, and Electric Vehicle etc. IEEE PEAC’ 2014 135 EXHIBITOR DESCRIPTION Fuji Electric (China) Co., Ltd. Booth No.: 115 Booth No.: 105 Magnetics International, Division of Spang CM Ltd. MITSUBISHI ELECTRIC (SHANGHAI) CO., LTD. Address: 13F, No. 1-3 Chatham Road South, Tsim Sha Tsui, Kowloon, Hong Kong Tel: +852-31029337 Fax: +852-35851482 E-mail: [email protected] Website: www.mag-inc.com.cn Address: 29/F., ShanghaiMaxdo Centre No.8, XingYi Road, ChangNing, Shanghai Postcode: 200336 Tel: +86-21-52082030 Fax: +86-21-52081502 Website: www.mitsubishielectric-mesh.com Magnetics® is a leading world supplier of precision soft magnetic components and materials to the electronics industry. We specialize in research, design, and production of a broad range of high-quality powder cores, ferrite cores, and strip wound cores for applications such as chokes, inductors, power factor correction circuits (PFC), filters, transformers, and power supply components for use in alternative energy, telecommunications, aerospace, automotive, military, computer, medical, and other electronics systems. Mitsubishi Electric & Electronics (Shanghai) Co., Ltd. Is a comprehensive sales company based on electric, electronic and systematic technologies. We aim at advancing Chinese culture and establishing a new era of electric products. With our advanced technology and extraordinary creativity, we endeavor to help with industrial development and make our society more prosperous. Magnetics is entering the next generation of powder alloy materials with the introduction of AmoFlux® amorphous powder cores. This alloy starts with low core loss amorphous ribbon that is pulverized into powder and then pressed into a toroid. By converting the amorphous ribbon into a powder form, the resulting AmoFlux cores have the same excellent properties, including soft saturation, as Magnetics other powder core materials: Kool Mu, MPP, High Flux, and XFlux. What makes this amorphous powder core material unique is the combination of low core loss and high DC bias. AmoFlux is a new distributed gap material ideal for power factor correction (PFC) and various types of output chokes. These attributes make AmoFlux an excellent choice for inductors in computer, server, and industrial power supplies that require maximum efficiency at high DC currents. 136 IEEE PEAC’ 2014 & ELECTRONICS At the beginning of the new millennium, through advanced technology and years of experience, we spare no effort to improve the quality of people’s lives and look forward to a prosperous future. EXHIBITOR DESCRIPTION EXHIBITOR DESCRIPTION Booth No.: 103 IEEE PEAC’ 2014 137 Booth No.: 102 NISTRONICS (JIANGXI) CO., LTD. NORWE Inc. Address: No. 705 Yichun Road Yichun EconomicTechnological Development Area, Jiangxi Province, China Postcode: 336000 Tel: +86-795-3668787 Fax: +86-795-3668383 E-mail: [email protected] Website: www.nistronics.cn Address: P.O. Box 2511 - N. Canton, OH 44720-0511 USA Tel: +1-330-4978113 Fax: +1-330-3050592 E-mail: [email protected] Website: www.norwe.com Nistronics (Jiangxi) Co., Ltd. (hereinafter referred to as the Nistronics, its predecessor of Yichun Nistronics Co., Ltd.) located in Yichun economic development zone, is a sino-foreign joint venture specializing in the production of organic film capacitor. The technical characteristics of Nistronics product is energy-saving, environmental protection, high heat resistance, high insulation, high stability, low loss, miniature size, Products of high temperature resistant is the domestic leading position. High temperature resistant metallized polyester film capacitors and technology development projects won the first prize of science and technology progress prize in Yichun city , third prize of science and technology progress prize in Jiangxi province, the national key new product projects, etc. In 2010 Nistronics obtained a patent technology metallized film capacitor utility model patents; In 2011 got certification of using right of marks with CQC/CE/ VDE/UL/CSA, title of "outstanding non-public enterprises in Jiangxi province"; In 2012 was named the national high technology enterprise. For over 50 years NORWE is an European Manufacturer of Standardand Custom designed thermoplastic Bobbins for Ferrite Cores & Metric Transformer Laminations, Components for SMD and PLANAR Technology, Potting Boxes for Toroidal Cores, Safety-Class bobbins and Accessories. All Products comply with the RoHS Directive 2002/95/EC (Lead-Free). The company is certified according to EN ISO 9001:2008, to DIN EN ISO 14001:2009 and to UL 746D. Nistronics product positioning in the high quality, high requirements of world-class customers, products are widely used in household electric appliance, laptop computers, energy saving, ballast, automotive electronics, instruments ,industry power supply and other fields, For Haier /Sharp /Panasonic /Toshiba / Skyworth /Konka /Sunshine and so on well-known enterprises supporting product. 138 IEEE PEAC’ 2014 EXHIBITOR DESCRIPTION EXHIBITOR DESCRIPTION Booth No.: 112 IEEE PEAC’ 2014 139 Booth No.: 117 Booth No.: 101 Parametric Technology (Shanghai) Software Co., Ltd. SHANGHAI EAGTOP ELECTRONIC TECHOLOGY CO., LTD. Address: 10F, ONELUJIAZUI, No.68 YinchengZhong Road, Pudong, Shanghai Postcode: 200120 Tel: +86-21-61060606 Fax: +86-21-61060400 E-mail: [email protected] Website: www.ptc.com Address: NO.258 Tangming Road, Shihudang Industrial Park Songjiang District Shanghai, China Postcode: 201617 Tel: +86-21-57842298 Fax: +86-21-57847517 E-mail: [email protected] Website: www.eagtop.com PTC (Nasdaq: PTC) enables manufacturers to achieve product and service advantage in the age of the Internet of Things. Our technology enabled solutions transform the way manufacturers create, operate and service their products. EAGTOP is specialized in researching, developing and producing Passive Power Electronics Devices. The main products include Film Capacitor, Laminated BusBar, liquid Cold Plates, Reactor, Resistor, Braking Unit, EMC Filter. Eagtop was authenticated by ISO9001: 2008, ISO/TS16949-2009. Today, PTC works with more than 28,000 businesses around the world to help them design and service products in rapidly-evolving, globally distributed manufacturing industries, including industrial equipment, automotive, high tech and electronics, aerospace and defense, retail, consumer, and medical devices. By partnering with PTC, you can cultivate and exploit your best product ideas from concept and engineering through delivery and service. 140 IEEE PEAC’ 2014 EAGTOP is constantly devoted to creating and developing new products, providing our customers with competitive and reliable solutions to their electronic passive device problems in various fields such as Industrial Drive, New Energy, Railway Transportation as well as Power Quality and so on. With customer-orientation as our core value, we never stop to understand customer’s requirements and try hard to make research together with our customers. Besides, we always attach great importance to the user experience of our products so as to bring the greatest value to our customers. EXHIBITOR DESCRIPTION EXHIBITOR DESCRIPTION PTC solutions for Product Lifecycle Management (PLM), Computer Aided Design (CAD), Application Lifecycle Management (ALM), Supply Chain Management (SCM) and Service Lifecycle Management (SLM) enable process transformation by empowering you to aggregate, analyze, and deploy product information to drive the strategy and dynamic decision-making processes on which your success depends. Our solutions help you optimize the activities within individual functions of your organization, and align them across your entire enterprise: from engineering to supply chain and manufacturing, and sales and service. IEEE PEAC’ 2014 141 Booth No.: 110 Booth No.: 113 Shenzhen Inovance Technology Co., Ltd. Shenzhen POCO Magnetic Co., Ltd. Address: Block E, Hongwei Industry Park, Liuxian Road, Baocheng No.70 Zone, Bao'an District, Shenzhen Postcode: 415000 Tel: +86-755-29799595 Fax: +86-755-29799579 Website: www.inovance.cn Address: 3/F BLK 2, 28, Langshan Road, Northern District of High Tech. Industry Park, SZ, PRC. Postcode: 518052 Tel: +86-755-26654881 Fax: +86-755-29574277 E-mail: [email protected] Website: www.pocomagnetic.com Shenzhen Inovance Technology Co., Ltd. is a public company (Stock code: 300124) which focuses on R & D, manufacture and sales of industrial automation control products, aiming to serve high-end equipment manufacturers. POCO Magnetic establish a complete platform of core service, we offer a customer-centric one-stop service for costumer from manufacture, sales, design solutions, and supply devices for special inductor on the basis of the mastered core technology and appliance of metal magnetic powder core. We entirely solve the problem of costs, efficiency and space optimization for costumers. EXHIBITOR DESCRIPTION In order to coordinate the rapid growth customer demand, Huizhou POCO Magnetic Co., Ltd. POCO’s wholly owned subsidiary, was established in 2010 as a powder core production base. Huizhou POCO owns an independent industrial area which is approximately 80, 000 square meters in the center part of Pearl River delta industrial transfer park. It is one of the first batch high-tech enterprises be introduced by Huidong government. With current building area of 10, 000 square meters, Huizhou POCO is preparing the second stage of expansion plans, in order to providing stronger protection for our customers’ capacity expansion and fast delivery. EXHIBITOR DESCRIPTION Inovance products include low-voltage inverters, integrated and special drivers, servo systems, PLCs and HMIs, etc. With strong R & D capabilities, we have established a leading position among all domestic companies in the industry since our establishment in 2003. We are now providing not only general but also customized products and solutions for our customers. 142 IEEE PEAC’ 2014 IEEE PEAC’ 2014 143 Booth No.: 107 Sungrow Power Supply Co., Ltd. U-con Capacitors Technologies Co., Ltd. Address: No. 1699 Xiyou Rd., New & High Technology Industrial Development Zone, Hefei, P. R. China Postcode: 230088 Tel: +86-551-65327878 Fax: +86-551-65327800 E-mail: [email protected] Website: www.sungrowpower.com Address: Pujing HuaMao Industry No. 462 Xiang Shan Road, 3th Industry Area, LuoTian SongGang Street, BaoAn Area, ShenZhen City Postcode: 518105 Tel: +86-755-88210160 ext 828 13631620713 Fax: +86-755-88210211 E-mail: [email protected] Website: www.szucon.com Sungrow specializes in research, development, marketing and sales of power components for renewable energy, especially solar and wind power. We provide PV inverters, wind power converters,and relevant services. Sungrow is Asia’s largest PV inverter and leading wind converter manufacturer from China. U-CON Capacitors Technologies Co., Ltd is one of the leading Aluminum Electrolytic Capacitors manufacturers and suppliers in China. Since our establishment in 2003, U-CON has never stopped making contribution towards the industrial Automation field. U-CON core products Screw terminal type and Snap-in type Aluminum Electrolytic Capacitors widely used in field of AC drive, UPS and EPS, Solar inverter, Welding machine… Founded in 1997, Sungrow has stuck to “market demand & innovation driving development” strategy and constructed a leading innovation platform among the industry. Also, the company has conducted more than 10 national level R&D projects and drafted many national standards. Our products have been successfully used in many important PV and wind power projects in China. And also our products have been applied to more than 40 countries in Germany, Australia, America and so on. Enterprise Value of U-CON: Mastering core technology, creating worldwide firstclass energy-saving components, making much more contribution to energy-saving! So far, we have won many honorary titles such as National Key New Products, 1st Prize of National Energy Science & Technology Progression and so on, making Sungrow one of the front rank in the global industry. EXHIBITOR DESCRIPTION EXHIBITOR DESCRIPTION Booth No.: 116 In line with the Sungrow’s mission of “Green and Effective”, we will enhance the existing PV and wind power business in future. We would increase our customers’ satisfaction and strive to become one of the world’s first -class and prestigious enterprises. 144 IEEE PEAC’ 2014 IEEE PEAC’ 2014 145 Booth No.: 108 Booth No.: 111 Xiamen Kehua Hengsheng Co., Ltd. Yangzhou Kaipu Electronics Co., Ltd. Address: Malong Rd NO.457, Torch Park Ridge, Torch Hi-Tech District, Xiamen City, Fujian Province. Postcode: 361000 Tel: +86-592-5160516 Fax: +86-592-5162166 Website: www.kehua.com/about.php Address: Gaoyou town industrial zone, Yangzhou, Jiangsu, China Postcode: 225600 Tel: +86-514-84540069 Fax: +86-514-84540883 E-mail: [email protected] Website: www.yzkprdz.com.cn Kehua Group, as a leading UPS supplier, which was founded in 1988, since 1998 our products have been exported to Asia, Europe, America, and Africa etc. Yangzhou Kaipu Electronics Co., Ltd. is a processional high-tech enterprises which is specialized in manufacturing and researchingfilm capacitors. Our company not only has the most advanced manufacture and test equipments but also own the strong technology center and engineering technology research center. Now we can supply more than one million units UPS per year. In addition, our sales turnover ranked the first among all UPS brands in China except for the three world well-known UPS brands. More information: www.kehua.com. The company constructs and operates effectively fully in accordance with the ISO9001: 2008 and TS16949: 2009 standard system. All the reference standards of our products are IEC61071 and IEC 60068. We develop the high reliability power electronic film capacitors innovatively, obtain the prizes in province high and new technology products (3 items), prizes of China power supply society and Yangzhou science and technology progress prize, etc by cooperating with high educational institutions with independent intellectual property rights of national invention patent technology (5 items). Series products have obtained certificates through professional institutions. EXHIBITOR DESCRIPTION Kaipu will take the market demand and customer personalized set as the research direction, with the stable quality, high reliability and first-class service as the backing to become a top suppliers of first-class enterprises. 146 IEEE PEAC’ 2014 IEEE PEAC’ 2014 147 EXHIBITOR DESCRIPTION Kehua set up their new production base of 100, 000 square meters, in which there are more than 30, 000 square meters standard workshop, 6 modern production lines, an advanced UPS EMC testing center and 3 R & D centers. Note: Booth No.: 109 Zhejiang KeDa Magnetoelectricity Co., Ltd. Address: No. 525 Quyuan North Road, Wukang Town, Deqing county, Zhejiang Prov, China Postcode: 313200 Tel: +86-572-8085881 Fax: +86-572-8085880 E-mail: [email protected] Website: www.kdm-mag.com EXHIBITOR DESCRIPTION EXHIBITOR DESCRIPTION KDM was found in Sep. 2000 and located in the north of Hangzhou China and only 150km away from Shanghai. KDM is a professional magnetic powder core products manufacturer in China. The company achieved the ISO9001: 2000 and ISO14001: 2004 management systems and all products meet the RoHS requirement. 148 IEEE PEAC’ 2014 IEEE PEAC’ 2014 149 Student Travel Fund List In order to encourage students majoring in power electronics or related fields to attend IEEE PEAC' 2014, IEEE PEAC' 2014 offers financial support to domestic and overseas students covering their partly travel fees. The fund recipients are as follows. Junke Wu, Chongqing University Lijuan Xiang, Chongqing University Le-Yang Yan, Tsinghua University Shude Yang, Xi’an University of Technology Overseas Students: (500 USD Each) Zezhou Yang, Wuhan University Cheol-Ju Bae, Yeungnam University, Rep. of Korea Shoujian Yang, Tongji University Pedro Martins Bezerra, Swiss Federal Institute of Technology Zurich, Switzerland Riccardo Pittini, Technical University of Denmark, Chen Yang, Harbin Institute of Technology Boping Yang, Zhejiang University Shi Yong, Hefei University of technology Hui Yu, Huazhong University of Science and Technology Denmark Kewei Shi, Kyushu University, Japan Hao Zhai, Xi'an Jiaotong University Johannes Voss, RWTH Aachen University, Germany Feng Zhang, Jiangnan University Jie Zhang, Fuzhou University Domestic students: (1000 RMB Each) Hao Zhang, Shanghai University of Electric Power Feng Zhao, China University of Mining & Technology Liang Biao, Wuhan University of Technology (Beijing) Hui Chen, Zhejiang University Hui Zhou, Wuhan University Yenan Chen, Zhejiang University Jianan Zhou, Zhejiang University Yan Hong, Fudan University Minghua Zhu, Xi'an Jiaotong University Jia Hou, Nanjing University of Aeronautics and Astro- Shenjian Zou, Zhejiang University nautics Gaoxian Li, Chongqing University Yuan Li, Harbin Institute of Technology Haijin Li, Zhejiang University STUDENT TRAVEL FUND LIST Jie Ma, Liaoning Technical University Xiao Qiang, Zhejiang University All students in this list can collect the Travel Fund in cash at the registration reception on 6th-7th Nov. with the items as below, 1. Printed Notification of Student Travel Fund. 2. The original Student Certificate uploaded for applica- Wei Qin, Zhejiang University Rongliang Shi, Hefei University of Technology Shiming Tan, Zhejiang University Liping Wang, Xi'an University of Technology 150 Collect the fund: IEEE PEAC’ 2014 tion. 3. Submit photocopies of your Identification (domestic student) or passport (overseas student). IEEE PEAC’ 2014 151 STUDENT TRAVEL FUND LIST Binbin Li, Harbin Institute of Technology (HIT) NOTE Note: 152 IEEE PEAC’ 2014 1 Appendix-1 IEEE PEAC’2014 Program-at-a-Glance TIME Wednesday Nov.5, 2014 Thursday Nov.6, 2014 Friday Nov.7, 2014 Saturday Nov.8, 2014 Speaker Breakfast Speaker Breakfast 6:30 7:00 7:30 8:00AM Opening Ceremony 8:30AM 9:00AM Plenary Session-1 9:30AM 10:00AM 10:30AM Tutorial 1,2,3,4 11:00AM Technical Session7-1, 2, 3, 4 Industry Session7-1 Technical Session8-17, 18,19,20,21 Coffee Break Coffee Break Technical Session7-5,6 ,7,8 Industry Session7-2 Technical Session8-22, 23,24,25,26 Coffee Break Plenary Session-2 11:30AM Exhibition 12:00PM 12:30PM Lunch Lunch Lunch 1:00PM Lunch Exhibition 1:30PM Plenary Session-3 2:00PM 2:30PM Coffee Break 3:00PM 3:30PM Tutorial 5,6,7,8 Plenary Session-4 4:00PM 4:30PM Dialogue Session 5:00PM Technical Session7-9, 10,11,12 Special Session7-1 Technical Session8-27, 28,29,30,31 Coffee Break Coffee Break Technical Session7-13, 14,15,16 Special Session7-2 Technical Session8-32, 33,34,35 5:30PM 6:00PM 6:30PM 7:00PM 7:30PM Welcome Reception & Exhibition Dinner Banquette Dinner POSTER AREA MEETING ROOM 6 DINNING ARAE A DINNING ARAE B MEETING MEETING MEETING MEETING MEETING ROOM 1 ROOM 2 ROOM 3 ROOM 4 ROOM 5 GRAND BALLROOM Plenary Session 6th Nov. Banquent 7th Nov. 18: 00- 20: 00 Exhibition Booth Appendix-2 Conference Hotle Floor Plan WINTER GARDEN Welcome Reception 5th Nov. 18: 00- 20: 00 Exhibition 5th- 7th Nov. Coffee Break 6th Nov. Entrance A Exhibition Booth Hotel Gate HOTEL LOBBY Exhibition Booth Registration Reception Entrance B
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