IEEE International Conference on Smart Technologies for Power, Energy and Control (25th to 26th September 2020) Electrical Engineering Department Visvesvaraya National Institute of Technology, Nagpur, India
The First IEEE International Conference on Smart Technologies for Power, Energy and Control (STPEC) 2020 will be held in the Department of Electrical Engineering, Visvesvaraya National Institute of Technology, Nagpur, M.S., India during 25th to 26th September 2020. This conference is Financially Sponsored by IEEE Industry Applications Society (IAS) and Technically Sponsored by IEEE Power Electronics Society (PELS). It is jointly organized by IEEE Bombay Section Joint Chapter of PELS/IES and Visvesvaraya National Institute of Technology, Nagpur, M.S., India. The aim of the conference is to provide a platform for electrical engineers and researchers to present their research work and to share experiences and ideas in the area of power, energy, control and related engineering applications. The conference program will be having plenary sessions and technical paper presentations. Distinguished speakers will be invited to deliver keynote speeches on emerging technologies in power, energy and control engineering. Attendees will have the opportunity to interact with the experts from these related fields. Focus areas of the conference are Power Electronic Converters and their control, Smart Grid Technology, Renewable Energy Resources, Distributed Generation and Grid Interconnection, Electric Vehicles, Energy Storage & Battery Charging techniques, FACTS devices, Power Quality, Wide band gap devices, Control systems and its application to power and energy, signal processing applications in power and energy, semiconductor devices and circuits etc.
Conference Tracks: Power Systems and Smart Grids Electrical Machines and Industrial Drives Power Electronic Converters Renewable Energy and Energy Storage Systems Transportation Electrification and Automotive Technologies Control Systems and Applications Machine Learning & Signal Processing for Power & Energy Applications Semiconductor Devices and Circuits
Chief Patron
Shri Vishram Ji Jamdar, Chairman BoG VNIT Nagpur
Patron
Prof. Pramod M. Padole, Director VNIT Nagpur
Honorary Chairs Prof. K. Gopakumar, Prof. Bhim Singh, Prof. Bijnan Bandyopadhyay, IISc Bangalore IIT Delhi IIT Bombay
General Chairs Prof Jason Lai, Prof. Akshay Rathore, Virginia Polytechnic Institute and State University, Concordia University, Canada Virginia, USA
Prof. H. M. Suryawanshi, Prof. M. V. Aware, VNIT Nagpur VNIT Nagpur
General Co-Chairs Prof. Suryanarayana Doolla, Mr. Arvind Kumar, IIT Bombay Center Head, TCS Nagpur
Prof. V. B. Borghate, Prof. (Mrs.) M. A. Chaudhari, VNIT Nagpur VNIT Nagpur
Organizing Secretary Dr. Pradyumn Chaturvedi, Dr. Arghya Mitra, VNIT Nagpur VNIT Nagpur
Organizing Committee
Technical Program Chair Industry Interaction and Sponsorship Chairs Prof. Anshuman Shukla, Prof. M. V. Aware, IIT Bombay VNIT Nagpur Dr. Mattia Ricco, Prof. V. S. Kale, University of Bologna, Italy VNIT Nagpur Dr. P. Sanjeevikumar, Prof. S. S. Bhat, Aalborg University, Denmark VNIT Nagpur Dr. Huai Wang, Prof. M. S. Ballal, Aalborg University, Denmark VNIT Nagpur Prof. Marco Lissere, Dr. Ritesh Keshri, Keil University, Germany VNIT Nagpur Dr. Rongwu Zhu, Publicity & Website Chairs Keil University, Germany Dr. Sanjeet Dwivedi, Prof. V. S. Kale, Danfoss Power Electronics, Denmark VNIT Nagpur Prof. M. K. Khedkar, Prof. S. S. Bhat, VNIT Nagpur VNIT Nagpur Prof. M. V. Aware, Prof. V. B. Borghate, VNIT Nagpur VNIT Nagpur Prof. B. S. Umre, Prof. M. R. Ramteke, VNIT Nagpur VNIT Nagpur Dr. Ritesh Keshri, Prof. P. S. Kulkarni, VNIT Nagpur VNIT Nagpur Dr. Ritesh Keshri, Finance Chair VNIT Nagpur Prof. (Mrs.) M. A. Chaudhari, Hospitality & Travel Chairs VNIT Nagpur Dr. M. M. Lokhande, Prof. S. S. Bhat, VNIT Nagpur VNIT Nagpur Dr. Bhooshan Rajapathak, Prof. B. S. Umre, VNIT Nagpur VNIT Nagpur Prof. D. H. Lataye, Publication Chair VNIT Nagpur Dr. Ashwin Dhabale, Prof. V. S. Kale, VNIT Nagpur VNIT Nagpur Dr. Bhooshan Rajapathak, Dr (Mrs) Nita R. Patne, VNIT Nagpur VNIT Nagpur Mr. Siba Kumar Patro, Dr. (Mrs) Rajashree Satputaley, VNIT Nagpur VNIT Nagpur Dr Arghya Mitra,
VNIT Nagpur
Technical Programme Committee Dr. P. Sanjeevikumar, Aalborg University, Denmark Dr. Huai Wang, Aalborg University, Denmark Prof Jason Lai, Virginia Polytechnic Institute and State University, Virginia, USA Dr. Mattia Ricco, University of Bologna, Italy Prof. Marco Lissere, Keil University, Germany Dr. Rongwu Zhu, Keil University, Germany Dr. Max Maoro Santos, Federal Technological University of Parana, Brazil Prof. M. V. Aware, VNIT Nagpur Dr. Sanjeet Dwivedi, Danfoss Power Electronics, Denmark Prof M K Mishra, IITM Dr. (Mrs.) N. R. Patne, VNIT Nagpur Dr. Ritesh Keshri, VNIT Nagpur Dr Ashwin Dhabale, VNIT Nagpur Prof. H. M. Suryawanshi, VNIT Nagpur Prof. V. B. Borghate, VNIT Nagpur Prof. Anshuman Shukla, IIT Bombay Prof. Suryanarayana Doolla, IIT Bombay Dr Tanmay Bhattacharya IIT Kharagpur Dr. Susovan Samant, NIT Rourkela Dr. Lalit Kumar, NIT Raipur Dr Subhojit Ghosh, NIT Raipur Dr. Arun Verma, NIT Jaipur Prof. M. K. Deshmukh, BITS Goa Dr. Venugopal Rao, NIT Goa Dr. Shreeraj, NIT Goa Dr Akbar Ahmed, KKWIER, Nashik Dr Tanmoy Pal, IIEST Shibpur Dr. Sayantan Chakraborty, Jadavpur University Dr. Paresh Kumar Nayek, IIT (ISM) Dhanbad Dr Raveendhra Dogga, Zunik Energizes Oct Ltd Roorkee Dr Rahul Varma, IC Electricals Pvt Ltd Haridwar Prof V T Somashekhar, NIT Warangal Dr K K Gupta, Thapar University Patiala Dr A Kirubakaran, NIT Warangal Dr Nitin Gupta, NIT Jaipur Prof Manjari Pandit, MITS Gwalior Prof Rajesh Kumar, NIT Jaipur Dr Sudharshan Karthik, IIST Thiruvanantapuram Dr Pankaj Swarnkar, NIT Bhopal Prof R N Patel, NIT Raipur Prof M. M. Renge, RCOEM Nagpur Dr Snehal Gawande, YCCE Nagpur
Technical Advisory Committee Prof. G. Buja, University of Padova, Italy Prof. Alberto Borghetti, University of Bologna, Italy Prof. Chandan Chakraborty, IIT, Kharagpur Prof. Sivaji Chakraborty, Jadavpur University Prof. Frede Blaabjerg, Aalborg University, Denmark Huai Wang, Aalborg University, Denmark Sanjeet Dwivedi, Danfoss Power Electronics, Denmark S K Panda, NUS Singapore Sun Jian, Rensellaer Polytechnic Institute, NY Akshay Rathore, Concordia University, Canada Sheldon Williamson, UIT Oshawa Himanshu R Pota, UNSW Australia Vinod Khadkikar, MIT, UAE Ashwin Khambadkone, NUS Singapore Drazen Dujic, EPFL Lausanne, Switzerland Prof Bhim Singh, IITD Prof K. Gopakumar, IISc Bangalore Prof G Bhuwaneshwari, IITD Prof B G Fernandese, IITB Prof. Abhijit Abhyankar Prof Vijnan Bandyopadhyay, IITB Prof Suryanarayana Doolla, IITB Prof Pramod Agarwal, IITR Prof Shailendra Jain, SLIET Prof Anshuman Shukla, IITB Prof R K Nema, NIT Bhopal Prof Shailendra Sharma, SGSITS Indore Prof Rakesh Saxena, SGSITS Indore Prof A K Wadhwani, MITS Gwalior Prof Laxmi Shrivastava, MITS Gwalior Prof Manjari Pandit, MITS Gwalior Mr Arvind Kumar, TCS Nagpur
Prof. Frede Blaabjerg Aalborg University Aalborg, Denmark
Frede Blaabjerg (S’86–M’88–SM’97–F’03) was with ABB-Scandia, Randers, Denmark, from 1987 to 1988. From 1988 to 1992, he got the PhD degree in Electrical Engineering at Aalborg University in 1995. He became an Assistant Professor in 1992, an Associate Professor in 1996, and a Full Professor of power electronics and drives in 1998. From 2017 he became a Villum Investigator. He is honoris causa at University Politehnica Timisoara (UPT), Romania and Tallinn Technical University (TTU) in Estonia. His current research interests include power electronics and its applications such as in wind turbines, PV systems, reliability, harmonics and adjustable speed drives. He has published more than 600 journal papers in the fields of power electronics and its applications. He is the co-author of four monographs and editor of ten books in power electronics and its applications. He has received 32 IEEE Prize Paper Awards, the IEEE PELS Distinguished Service Award in 2009, the EPE- PEMC Council Award in 2010, the IEEE William E. Newell Power Electronics Award 2014, the Villum Kann Rasmussen Research Award 2014, the Global Energy Prize in 2019 and the 2020 IEEE Edison Medal. He was the Editor-in-Chief of the IEEE Transactions on Power Electronics from 2006 to 2012. He has been Distinguished Lecturer for the IEEE Power Electronics Society from 2005 to 2007 and for the IEEE Industry Applications Society from 2010 to 2011 as well as 2017 to 2018. In 2019-2020 he serves a President of IEEE Power Electronics Society. He is Vice-President of the Danish Academy of Technical Sciences too. He is nominated in 2014-2019 by Thomson Reuters to be between the most 250 cited researchers in Engineering in the world. Prof. Frede is also the recipient of prestigious 2020 IEEE Edison Medal.
Title of Keynote: Design for reliability in power electronic systems Abstract: In recent years, the automotive and aerospace industries have brought stringent reliability constraints on power electronic converters because of safety requirements. Today customers of many power electronic products expect up to 20 years of lifetime and they also want to have a “failure free period” and all with focus on the financials. The renewable energy sectors are also following the same trend, and more and more efforts are being devoted to improving power electronic converters to account for reliability with cost-effective and sustainable solutions. This presentation will introduce the recent progress in the reliability aspect study of power electronic converters for power electronic applications with special focus on renewables. It will cover the following contents: the motivations for highly reliable electric energy conversion in renewable energy systems; the reliability requirements of typical renewable energy systems and its implication on the power electronic converters; failure mechanisms and lifetime models of key power electronic components (e.g., power semiconductor switches, capacitors, and fans); long-term mission profiles in Photovoltaic (PV) and wind power applications and the component level stress analysis; reliability analysis methods, tools, and improvement strategies of power electronic converters for renewable energy systems. A few case studies on PV and wind power based renewable energy systems will also be discussed.
Prof. Jih-Sheng (Jason) Lai James S. Tucker Professor Virginia Polytechnic and State University, USA
Jih-Sheng (Jason) Lai received M.S. and Ph.D. degrees in electrical engineering from the University of Tennessee, Knoxville, in 1985 and 1989, respectively. In 1989, he joined the Electric Power Research Institute (EPRI), where he managed EPRI-sponsored power electronics research projects. From 1993, he worked with the Oak Ridge National Laboratory as the Power Electronics Lead Scientist, where he initiated a high power electronics program and developed several novel high power converters including multilevel converters and auxiliary resonant snubber based soft- switching inverters. He joined Virginia Tech in 1996. Currently he is James. S. Tucker Endowed Chair Professor and the Director of Future Energy Electronics Center (FEEC). He is also a Visiting Professor of Nanyang Technological University, Singapore and a Mount-Jade Scholar Visiting Professor of National Chiao-Tung University, Taiwan. Dr. Lai has published more than 480 refereed technical papers, one book chapter and 2 books. He holds 27 U.S. patents in the area of high power electronics and their applications. He received several distinctive awards including Technical Achievement Award in Lockheed Martin Award Night and 13 Best Paper Awards from IEEE conferences and journals. His teams won the First Prize Award in Texas Instruments Analog Design Competition in 2011, Grand Prize Award from International Future Energy Challenge in 2013, the Top Three Award from Google Little Box Challenge in 2016, and American Made Solar Prize Competition Finalist in 2020. Dr. Lai is an IEEE Life Fellow and the recipient of 2016 IEEE Industry Applications Society Gerald Kliman Innovation Award. He is the Founding Chairs of Asian Conference on Energy, Power and Transportation Electrification (ACEPT-2016) and IEEE Future Energy Challenge (IFEC-2001), General Chairs of IEEE Workshop on Computers in Power Electronics (COMPEL 2000) and IEEE Applied Power Electronics Conference (APEC 2005). Currently he serves as the Publications Chair for IEEE Transportation Electrification Community and the Editor for IEEE Journal of Emerging and Selected Topics in Power Electronics.
Title of Keynote: Wide Bandgap Devices - Key Features and Impacts to Power Electronics Design Abstract: Within only a few years on the market, silicon carbide (SiC) and gallium nitride (GaN) devices are already widely adopted in commercial products and are having shortage of supplies because even with their high price/VA-rating, the performance boosted by these WBG devices makes their integrated system much more cost effective as compared to the system using the well-optimized Si devices. On the horizon are gallium oxide (Ga2O3) devices, which promises a higher bandgap and breakdown voltage level that will further revolutionize the high power area. This presentation will first compare WBG device Figure of Merit (FOM) to see the trend of their application areas and then focus on existing the power electronics design considerations with the WBG devices. The use of WBG devices, especially GaN devices is now challenged by the circuit components such as gate drivers and parasitic components. The main challenges with parasitic components are due to fast di/dt and dv/dt and magnetics. For a conventional voltage source converter, the parasitic inductance in the phase leg can introduce a large voltage spike that false-triggers the opposite side or other phase leg switches. This phenomenon is well known even with the traditional silicon devices, but it is much more severe with GaN devices because of their low threshold voltage. As these devices are pushed to mega-hertz switching for size reduction, more challenges will arrive. Even the PCB parasitics are impacting the circuit behaviors. The PCB capacitance adding on to the junction capacitance can result in long charging and discharging time for ZVS and also result in resonant frequency shift. The PCB traces can dramatically increase the resonant inductance, which not only results in resonant frequency shift, but also creates different resonant characteristic between individual phase-legs. Another impact that is not obvious is the WBG related body diode voltage drop, which is typically 2 times with SiC and as high as 5 times with GaN. Traditional inverter designs with Si IGBT normally add a dead time of more than 2 µs in between upper and lower devices, and modify the PWM with dead-time compensation. During the dead time, the current must flow through anti-paralleled diodes, which will result in a large conduction loss and related heat with the use WBG devices. Synchronous rectification becomes essential now with dead time in 10’s ns range, or two orders of magnitude reduction as compared to Si IGBT case. Such a big difference practically makes the traditional dead-time compensation techniques obsolete. Overall for our new generation power electronics engineers to deal with the use of WBG devices, there is a need to learn a whole new set of knowledge base, skills, and design considerations.
Prof. Subhashish Bhattacharya Duke Energy Distinguished Professor North Carolina State University, USA
Subhashish Bhattacharya received his PhD from the University of Wisconsin-Madison in 2003. He worked in the FACTS (Flexible AC Transmission Systems) and Power Quality group at Westinghouse R&D Center in Pittsburgh, which later became part of Siemens Power Transmission & Distribution, from 1998 to 2005. He joined the Department of Electrical and Computer Engineering at North Carolina State University (NCSU) in August 2005, where he is the Duke Energy Distinguished Professor and a founding faculty member of NSF ERC FREEDM Systems Center, Advanced Transportation Energy Center [ATEC] and the US DOE initiative on WBG based Manufacturing Innovation Institute – PowerAmerica - at NCSU. A part of his PhD research on active power filters was commercialized by York Corporation Inc. [now part of Johnson Controls] for air- conditioner chiller products. His research interests are Solid-State Transformers, Integration of renewable energy resources, MV power converters enabled by HV SiC devices, FACTS, Utility applications of power electronics and power quality issues; DC Microgrids, high-frequency magnetics, active filters, and application of new power semiconductor devices such as SiC and GaN devices for power converter topologies. His research is funded by several industries, NSF, DOE, ARPA-E, US Navy, ONR. He has over 500 publications, 2 book chapters and 5 patents with several pending patent applications. Title of Keynote: HV SiC Power Devices Enabled High Power, Medium Voltage Power Converters and Applications - MV Solid-State Transformers and High Speed Drives
Abstract: This presentation will outline the applications of High power and Medium Voltage power converters in all industry sectors - HVDC, FACTS and power quality, MV motor drives (including high-speed machines with high fundamental frequency), MV DC grids, MV grid connected converters for renewables such as solar, wind, etc., MV converters for mining applications, MV converters for traction applications, MV converters for industrial applications such as steel mills, cement, and others; with present OEM solutions. The improvements required in efficiency, power density, specific power and volumetric density metrics are forcing the industry to re-evaluate present state of the art Silicon power devices based solutions in terms of the potential offered by recently developed HV SiC power devices for HV and high power (MW class) power converters. The opportunities for HV SiC devices for MV and high power converters and utility applications and the challenges to apply these HV SiC devices successfully will be presented in-depth with SiC device voltage ranges from 1200V to 1700V MOSFETs, and HV 10 kV - 15 kV MOSFETs, JBS diodes, and 15 kV SiC IGBTs. The potential and challenges of the HV 10-15 kV devices to enable MV power conversion systems, including MV motor drives, FACTS and MVDC grids will be explored with demonstrated application examples of SST (Solid State Transformer), MV SiC power converters for grid tied solar applications, MV motor drives, shipboard power supply applications and MV DC grids.
Prof. Alberto Borghetti University of Bologna, Italy
Alberto Borghetti was born in Cesena Italy on May 29, 1967. He has received a laurea degree cum laude in Electrical Engineering in 1992 at the University of Bologna, Italy. Since then he has been working at the Electric Power Systems Laboratory of the same University, currently as Professor of Electrical Power Systems. He has been serving as a member of the PhD Committee in Electrical Engineering of the University of Bologna since 2008. He has been a member of the board or external reviewer for the final evaluation of doctoral theses at various universities in Italy and abroad. He has been the scientific coordinator of two research projects between CESI and the Department of Electrical Engineering of the University of Bologna about issues related to distributed generation. He was local responsible for a national project PRIN 2005 on power systems vulnerability of and a project PRIN 2007 on heat and power co-generation units. He has been local responsible for the project SMARTGEN co-financed by the Ministry of Economic Development in the framework of the program “Research for the electricity sector” and the three-year European ENIAC JU project E2SG "Energy to smart grid" (2012-2015) coordinated by Infineon Technologies AG. He participates in the Centre for Industrial Research funded by the Administration of the Emilia Romagna Region under the European Regional Development Fund and in the Advanced research centre on electronic systems ARCES of the University of Bologna. He is author or co-author of more than 150 publications in various journals, monographs, proceedings of national and international conferences. He is co-author of 6 brochures of CIGRÉ (International Council on Large Electric Systems), He is co-author of IEEE Standard 1410 - "IEEE Guide for improving the lightning performance of electric power overhead distribution lines". He is an IEEE Fellow (class 2015) for contributions to modeling of power distribution systems under transient conditions. He has received the ICLP Scientific Committee Award 2016. He has received the 2018 CIGRE Technical Council Award for Study Committee C4. From 2010 to 2016 he served as an Editor of IEEE Transactions on Smart Grid. Since 2018 he serves as an Editor of IEEE Transactions on Power Systems. Since 2008 he is a member of the "Editorial Advisory Panel" of the international journal "Electric Power Systems Research", published by Elsevier. Since 2018 he serves as an Associate Editor of "Journal of Modern Power Systems and Clean Energy (MPCE)", SGEPRI Press and Springer. Since 2019, he serves as an Editor-in-Chief for Electrical Engineering – Archiv fur Elektrotechnik. With Shigeru Yokoyama he has been Guest Editor of the Special Issue "Lightning protection of power systems," Electric Power Systems Research, Vol 85, 2012. He regularly serves as reviewer for several journals including Electric Power Systems Research, IEEE Trans. on Power Systems, IEEE Trans. on Power Delivery, IEEE Trans. on Electromagnetic Compatibility, IEEE Trans. on Smart Grid, International Journal of Electrical Power & Energy Systems, IEEE Trans. on Sustainable Energy, IEEE Trans. on Industrial Informatics, IET Generation Transmission & Distribution. Since 2017 he is member of the advisory group AG C4.1 “Strategic directions” of Study Committee C4 “Technical performance”. He has served as Special Reporter for the Session 2018 for Study Committee C4. He has participated in the Management Committee of the European COST Action P18 "The physics of lightning flash and its effects" (2005 - 2009).
Title of Keynote: Resource Scheduling of a Local Energy Community
Abstract: The talk focuses on the operation of a local energy community. The community is a set of prosumers each of them may be equipped by local generation, energy storage systems and loads. The scheduling procedure must distinguish between the power exchanged with the external grid and the power exchanges between the prosumers in order to prioritize the use of local resources and self-consumption. The procedure should also provide the price of the internal transactions. The performances of the approach are shown for various operating conditions of a distribution network in which the direct transactions between prosumers are allowed.
Mr. Sushil Kumar Soonee Advisor, POSOCO India
Sushil Kumar Soonee is an Electrical Engineering Honours graduate from IIT Kharagpur class of 1977. He also did research in Power System Operation in IIT Kharagpur (1983–84). After brief stint in Private Sector, he joined Central Electricity Authority (CEA) through Combined Engineering Services Examination. His deep interest in Power System Operation brought him to POWERGRID when the five Regional Load Despatch Centres were transferred from CEA to POWERGRID. He has more than three decades of experience covering technical, commercial, managerial, pool governance, regulatory affairs, interconnections, market development, open access, power exchange, power system technology, EMS/SCADA, settlement, Renewable Energy Certificate, Transmission Pricing etc. He has first-hand experience of grid management as RLDC head in three out of five regions in the country viz. Eastern, Southern and Northern. He is actively involved in the GO-15 (formerly known as VLPGO i.e. Very Large Power Grid Operators in the world). He is very active in fostering the growth of Power System Operation faculty and building sustainable Institutional mechanism to support the rapidly developing Indian Power sector. He is steering the Power System Operation of the pan-India grid as the Chief Executive Officer of POSOCO which is a wholly owned subsidiary of Power Grid Corporation of India Limited. He has worked extensively for integration of state grids to form regional grid in Eastern and North-eastern region and later contributed in the formation of the synchronous N-E- W grid. He has been closely associated with drafting of the Indian Electricity Grid Code (IEGC), implementation of Availability Based Tariff (ABT) mechanism and introduction of Open Access in India. He is a Fellow of Institute of Engineers, (India), a Senior Member of IEEE and Member of CIGRE with a keen interest in C2, C5 and D2 committees of CIGRE. He is also an active member of IEEE PES (i.e. IEEE Power and Energy Society) and TSO comparison. He has authored several technical articles that have been presented in various forums. His current area of interest besides power system operation is electricity market design and human capacity building. He received several distinguished Honors and Awards that includes, Distinguished Alumnus Award in the 60th Convocation of IIT KHARAGPUR, Industry Excellence Award NPSC 2014, 2011 PES Chapter Outstanding Engineer by the PES-IAS Delhi chapter for outstanding leadership and contribution in Power Grid Operation, Control & Regulatory Mechanism etc. He has authored many peer reviewed international and national journals and conference papers.
Title of Keynote: Power System development and operation in India
Abstract: Power system in India has evolved from fragmented small systems to one of the largest synchronous grids and emerging power markets in the world. The talk would trace this exciting journey and share insights and suggestions for the future.
Dr. Mangesh B. Borage Raja Ramanna Centre for Advanced Technology, Indore, India
Mangesh Borage received B. E. degree (1993) from Shivaji University, Kolhapur, India, M. Tech. degree (1996) from Banaras Hindu University, Varanasi, India and Ph. D. (2012) from Homi Bhabha National Institute, Mumbai in electrical engineering. He joined Bhabha Atomic Research Centre (BARC), Mumbai in 1994. Since 1995, he is with Raja Ramanna Centre for Advanced Technology (RRCAT), Indore. He has developed a large number of power converters for electromagnets in Indus accelerators, Infra-Red Free Electron Laser at RRCAT and Facility for Antiproton and Ion Research (FAIR), Germany – a mega science project being realized in international collaboration, and, many other specialized applications such as laser diode drivers, induction heating, super capacitor chargers, high- power inverters etc. His research interests include soft-switching and resonant converters, power factor correction, high-frequency magnetic components and high-frequency power converters, in general. Dr. Borage is recipient of University Merit Certificate from Shivaji University in 1993, Dr. Homi Bhabha Award at BARC in 1995 as well as DAE Excellence in Science, Engineering and Technology Awards, namely, Scientific and Technical Excellence Award in 2012 and Group Achievement Awards in 2008, 2016 and 2018.
Title of Keynote: Power Converters for Particle Accelerators: Challenges and Opportunities
Abstract: Particle accelerators, used for variety of scientific, industrial, medical and societal applications, are complex machines involving several inter-related multidisciplinary sub-systems. Power converters form an important integral part of an accelerator, characterized by variety of types, unconventional functional requirements and stringent performance specifications that are largely different than the conventional applications. These challenges, coupled with their uniqueness, act as the major drivers for continued research opportunities as well as large-scale engineering in this area. The talk will touch upon these aspects of power converter topologies for particle accelerators, in general, with specific reference to some of the developments for power converters for Indus-1 and Indus-2, India’s only Synchrotron Radiation Sources that are operated in round-the-clock mode as national facilities at Raja Ramanna Centre for Advanced Technology, Indore.
Date / Time 8:15 9:00 10:00 10:45 12:30 13:15 14:00 15:45 16:30 18:15 B 25th September Inauguration KN-1 TS_PE1; TS_ED1 KN-2 TS_PS1; TS_CS KN-3 TS_PS2; TS_PE2; TS_TA r e a TS_PS5; TS_RS2; 26th September TS_PS3; TS_PE3 KN-4 TS_PS4; TS_RS1 KN-5 TS_PE4; TS_ED2 KN-6 Valedictory k TS_SD + TS_ML
Parallel Technical Sessions will run as per the code mentioned
Technical Session (TS) Keynote Name of Technical Session Resource Person with Sub-session Session Power Electronics TS_PE1, TS_PE2, TS_PE Converters TS_PE3, TS_PE4 KN-1 Jih-Sheng (Jason) Lai, Virginia Polytechnic and State University, USA Power System and Smart TS_PS1, TS_PS2, TS_PS KN-2 Mangesh Borage, Raja Ramanna Centre for Advanced Technology, Indore, India Grid TS_PS3, TS_PS4, TS_PS5 Control Systems and KN-3 Sushil K Soonee, Advisor, POSOCO, India TS_CS - Applications Electrical Machines and KN-4 Subhashish Bhattacharya, North Carolina State University, USA TS_ED TS_ED1, TS_ED2 Industrial Drives KN-5 Alberto Borghetti, University of Bologna, Italy Renewabale Energy Sources TS_RS TS_RS1, TS_RS2 and Storage System KN-6 Frede Blaabjerg, Aalborg University, Aalborg, Denmark Transportation Electrification and TS_TA - Automotive Technologies Semiconductor Devices and Keynote Session Coordinators TS_SD - Circuits Machine Learning & Signal KN-1: Dr. K. Raju KN-1: Dr. K. Ramsha KN-3: Dr. S.S. Bhat Processing for Power & TS_ML - KN-4: Dr. J.P. Singh KN-5: Dr. A. Mitra KN-6: Prof. (Mrs.) M.A. Chaudhari Energy Applications
TS_PE1 Session Chairs Paper details Paper ID: 14 Title: Integrated Magnetics based Dual Output AC/DC Flyback Converter Topology with Active Front-End Power Factor Correction for Low Power Medical Applications Paper ID: 62 Title: A New Converter for Reduction of Common Mode Noise in EPS of a Nano satellite Paper ID: 66 Title: Solar Powered Brushless DC Motor enhanced by Maximum Power Point Tracking Algorithm and Artificial Neural Network Dr. B. Venugopal Reddy, Paper ID: 67 NIT Goa Title: Thirteen Level Multilevel Inverter Structure having Single DC Source and Prof. H.M. Suryawanshi, Reduced Device Count VNIT Nagpur Paper ID: 84 Dr. M.R. Ramteke, Title: Matlab Simulation Study and Comparison of Different Multiple Carrier PWM VNIT Nagpur Schemes For Multi Level CHB Inverter Paper ID: 198 Title: Development of Cascaded Multilevel Inverter Topology Paper ID: 95 Title: Fractional order PI controlled Flyback converter with MPPT tracked PV system Paper ID: 98 Title: Interleaved High Step-up DC-DC Converter for Photovoltaic Applications Paper ID: 101 Title: Control Strategy for Photovoltaic-Battery Based Standalone System
TS_PE2 Session Chairs Paper details Paper ID: 103 Title: A Simplified Modulated Model Predictive Control for Modular Multilevel Converter Paper ID: 107 Title: Closed loop control of A Quasi Z-Source Four-Leg Inverter Paper ID: 109 Title: Improved Capacitor Voltage Balancing Strategy for Transistor Clamped H-bridge Multi-level Inverter Paper ID: 121 Dr. Mattia Ricco, Title: Comparative Analysis of PI Control with Anti-Windup Schemes for Front-end University of Bologna, Rectifier Italy Paper ID: 134 Prof. M.V. Aware, Title: A multi-input hybrid converter for small off-grid solar photo-voltaic system VNIT Nagpur Paper ID: 141 Dr. (Mrs.) R.J. Satputale, Title: Performance Analysis of Modified Hybrid 2-qZS dc/DC Boost Converter for PV VNIT Nagpur System Paper ID: 142 Title: A Review on the Generalized Formulations for Selective Harmonic Elimination (SHE-PWM) strategy Paper ID: 149 Title: Investigation of Passive Rectifier Circuits for Modular Solid State Transformer Applications Paper ID: 163 Title: Grid voltage detection method based on a novel adaptive notch filter for control of transformerless dynamic voltage restorer
TS_PE3 Session Chairs Paper details Paper ID: 170 Title: DC-Link Voltage Balancing with Fuzzy Logic Controller for Shunt Active Power Filter of More Electrical Aircraft Paper ID: 190 Title: Integrated Magnetics based Dual Output AC/DC Pushpull Converter Topology with Active Front-End Power Factor Correction for Low Power Medical Applications Paper ID: 197 Title: Design and Development of Multilevel Inverter Topology Paper ID: 85 Title: Performance Analysis of A New Carrier Rotation Method for Cascaded H-bridge Dr. Subhendu Dutta, Multilevel Inverter IIT BHU Paper ID: 207 Prof. (Mrs.) M.A. Title: An Isolated Dual-Input Dual-Output DC-DC Converter with Bi-directional Chaudhari, Feature for Low Voltage DC Grids VNIT Nagpur Paper ID: 209 Dr. Jay Praksh Singh, Title: High Frequency Transformer Design and Winding Loss Analysis of Critical VNIT Nagpur Conduction Mode Flyback Paper ID: 225 Title: Power Factor Corrected Bridgeless Converter for Sensorless PMBLDC Motor of Ceiling Fan Paper ID: 226 Title: Analysis of Capacitor Voltage Balancing Method of Modular Multilevel Converter (MMC) for the Application of SPWM, NLC & SHE-PWM Modulation Techniques Paper ID: 261 Title: A Nine-Level Inverter for Open Ended Winding Induction Motor Drive with Fault-Tolerance
TS_PE4 Session Chairs Paper details Paper ID: 264 Title: CHBMLI Based PVDG System With Improved Power Quality Features And Battery Backup Paper ID: 266 Title: Numerical Series Based Switching Angle Calculation for Multilevel Inverters Paper ID: 269 Title: A Reliable Multilevel Inverter Topology Paper ID: 271 Title: Performance Analysis of a New Single Phase Single Source 7-Level Inverter Topology Using Different SPWM Techniques Paper ID: 278 Dr Lalit Kumar, Title: Automated Algorithm to Determine Design Curves in Parameter Space for NIT Raipur Interconnected Converters Prof. V.B. Borghate, Paper ID: 280 VNIT Nagpur Title: Unipolar Modulated Voltage Sensor-less One-Cycle Controlled Inverter for Grid Connected PV System Paper ID: 307 Title: IoT based Multipurpose Uniform Water Showering Mechanism for Urban Agriculture Paper ID: 310 Title: Bidirectional Soft Switched LCLC based Solid State Transformer for Smart Grid Infrastructure Paper ID: 314 Title: Efficient Secondary Power Conversion Techniques in Multi-output DC-DC Converters TS_PS1 Session Chairs Paper details Paper ID: 9 Title: Minimization of Optimal Reactive Power Dispatch Problem using BAT Algorithm Paper ID: 47 Title: Comparative Group THD Analysis of Power Quality Disturbances using FFT and STFT Paper ID: 68 Title: Characteristics Behavior of Shunt DC Electric Spring for Mitigating DC Microgrid Issues Paper ID: 71 Title: Design and Implementation of Autonomous Low Voltage DC Microgrid with Dr. Vivek Shrivastava, Hierarchical Control NIT Delhi Paper ID: 78 Dr. S.S. Bhat, Title: Energy Usage of the Sugar Industry in West Maharashtra VNIT Nagpur Paper ID: 81 Title: Distribution Network Reconfiguration and Distributed Generation Injection Using Improved Elephant Herding Optimization Paper ID: 82 Title: Tackling Issues Related to PMU Deployment in the Grid using a Novel Algorithm Paper ID: 96 Title: Performance Investigation and Reactance Statistics with Monte Carlo Simulation of Saturated Core Fault Current Limiter Paper ID: 106 Title: Directional Overcurrent Relays Coordination Scheme for Protection of Microgrid
TS_PS2 Session Chairs Paper details Paper ID: 110 Title: Steady State Power Flow Analysis of Battery Integrated Unified Power Quality Conditioner Paper ID: 114 Title: Robust Discrete Mode Stabilizers for Heffron-Phillips SMIB Model Paper ID: 313 Title: A SVM based Fault Detection and Section Identification scheme for a Hybrid AC/HVDC Transmission Line with Wind Farm Integration Prof. Manjari Pandit, Paper ID: 129 MITS Gwalior Title: Effect of Lockdown on KVAh Billing System A Case Study Dr. P.S. Kulkarni, Paper ID: 136 VNIT Nagpur Title: Seamless Transition of Grid connected and Islanded modes in AC Microgrid Paper ID: 137 Title: A Review of Nanogrid Technologies for Forming Reliable Residential Grid Paper ID: 138 Title: Probabilistic Modeling of Li-Ion Battery Remaining Useful Life Paper ID: 140 Title: Virtual Synchronous Machine Based PV-STATCOM Controller Paper ID: 298 Title: Development of an Intelligent POD Controller to Mitigate Power Oscillations
TS_PS3 Session Chairs Paper details Paper ID: 156 Title: Study of Bidirectional DC-DC Converter: Control Schemes and Switching Techniques Paper ID: 172 Title: Development of an Index for Preventive Control Ranking and Selection for Voltage Stability Analysis Paper ID: 175 Title: Optimal Micro PMU Placement in Practical Distribution Network: A Graph Theoretic Approach Paper ID: 181 Title: A Mathematical Modelling of Grounding System Buried in Multilayer Soil Dr. Binoy Karmakar, Structure University of Calcutta Paper ID: 186 Prof. S.R. Tambey, Title: Adaptive Notch Filter Control Algorithm for 5-Level Distribution Static VNIT Nagpur Compensator Paper ID: 200 Title: Spectral analysis for condition assessment of Transformer oil under different aging conditions Paper ID: 203 Title: Reactive Power Enhancement of a PLL less PV inverter for AC Micro-grids Paper ID: 206 Title: Design of False Data Injection Attack for Automatic Generation Control Paper ID: 223 Title: Substation Energy Analysis by Combined Approach of CVR in a Distribution Network with Smart PV System
TS_PS4 Session Chairs Paper details Paper ID: 227 Title: Generator LOE Protection by Using Offset Mho Relay in the Presence of STATCOM Paper ID: 229 Title: A Forward-Backward Sweep and ALO Based Approach for DG Allocation in Radial Distribution System Paper ID: 238 Title: Effect of Infeed Current and Fault Resistance on Distance Protection for Teed- Feed line Paper ID: 254 Title: Space-Phasor Based Investigation of Dynamic Voltage Stability under the Prof. M. K. Deshmukh, Proliferation of Renewable Sources to Long Transmission Lines BITS Pilani, Goa Paper ID: 265 Dr. V.S. Kale, Title: Hybrid EO-SCA Based Economic Load Dispatch VNIT Nagpur Paper ID: 273 Title: Kalman filter based dynamic state estimation of Power system with UPFC Paper ID: 274 Title: A K-Nearest Neighbour based protection scheme for UPFC compensated Double circuit transmission Line with Wind farms Paper ID: 276 Title: Input Features Selection using RReliefF Algorithm for Electricity Demand Forecasting Paper ID: 282 Title: Investigation of Performance of Electric Load Demand Forecasting with New Architecture Realized in Long Short-Term Memory Deep Learning Network
TS_PS5 Session Chairs Paper details Paper ID: 285 Title: Comparative analysis of Economic Load Dispatch with constriction factor based Particle Swarm Optimization Paper ID: 292 Title: Optimal Design of Microgrid with Demand Side Management in Presence of Electric Vehicle Paper ID: 294 Title: Fault Location for Large Transmission Networks using Synchronized Voltage Measurements Paper ID: 296 Title: Development of PV tied UPQC using PSO based PI tuning Controller based on Dr. Biman Saharoy, SOI-QSG PLL NIT Durgapur Paper ID: 297 Prof. M.K. Khedkar, Title: Power System Stability Optimization using Differential Evolution Tuned SSSC VNIT Nagpur Paper ID: 153 Title: Load Frequency Control of a Wind Energy Integrated Multiarea Power System With CSA Tuned PIDD Controller Paper ID: 299 Title: PMU-based Real-time Load Balancing Strategy for Lights-out Case in India – A Case Study Paper ID: 309 Title: Transmission Line Maintenance Management Using Early Fault Detection Technique Paper ID: 115 Title: Wide Area Damping Controller Techniques of Improving Stability of an integrating Grid
TS_CS Session Chairs Paper details Paper ID: 108 Title: Computing the Control Input for State Transfer Problem in Efficient Way for Classroom Teaching Paper ID: 139 Title: Design of Non-linear Control of Quadrotor Unmanned Aerial Vehicle (UAV) Paper ID: 155 Title: Study of Bidirectional DC-DC Converter: Control Schemes and Switching Techniques Dr. Pankaj Swarnkar, Paper ID: 180 NIT Bhopal Title: Design of Diving System Controller for an Autonomous Underwater Vehicle Dr. B.A. Rajpathak, Paper ID: 184 VNIT Nagpur Title: Characterization of 1D Linear Piecewise-Smooth Discontinuous Map Dr. A. Dhabale, Paper ID: 182 VNIT Nagpur Title: Controller Design for Decoupled Model of an Autonomous Underwater Vehicle Paper ID: 199 Title: Nonlinear Control of the Reaction Wheel Pendulum Using Passivity-based control And Backstepping Control Paper ID: 277 Title: Analysis of PSO-PID controller for CSTR temperature control Paper ID: 300 Title: Active Compensation of Disturbances Using Dual Motors in Telescope Motion Control
TS_ED1 Session Chairs Paper details Paper ID: 10 Title: Online Detection And Correction of Inter Turn Faults in Transformers Paper ID: 36 Title: Dynamic Modelling, Simulation & Analysis of High Power Induction Motor Paper ID: 52 Title: Modelling Three Phase Variable Frequency Drive Using a Frequency Coupling Matrix Paper ID: 152 Title: Mathematical Modeling and Simulation of an Induction Motor with Stator Inter- Dr. Rakesh Maurya, Turn Faults NIT Surat Paper ID: 173 Prof. B.S. Umre, Title: Development of an Index for Preventive Control Ranking and Selection for VNIT Nagpur Voltage Stability Analysis Paper ID: 183 Title: Speed Sensorless Finite Set Model Predictive Speed Control of Induction Motor Paper ID: 201 Title: Multi-Objective Design Optimization of a Three Phase Squirrel Cage Induction Motor for Electric Propulsion System using Genetic Algorithm Paper ID: 216 Title: Stator Inter-Turn Fault Diagnosis in Permanent Magnet Synchronous Motor Paper ID: 222 Title: Self-Tuning Vector Controlled PMSM Drive Using Particle Swarm Optimization
TS_ED2 Session Chairs Paper details Paper ID: 228 Title: Control Of Permanent-Magnet Synchronous Motors using fuzzy logic considering Parameter Variation and Diagnostic Capability For Hostile Environment Applications Paper ID: 253 Dr. Mahendra B. Ghat, Title: New Optimized Fractional Slot Concentrated Winding Design for MMF Siemens Mumbai Harmonic Reduction Prof. M.S. Ballal, Paper ID: 286 VNIT Nagpur Title: Diagnostic Approach and Condition Monitoring Methods to Boost up the Reliability of Transformer Paper ID: 291 Title: Modeling of Dual Excited Synchronous Generator with slip frequency excitation
TS_RS1 Session Chairs Paper details Paper ID: 51 Title: Control Technique with Integrated Low Voltage Ride Through Capability and Anti-Islanding in Grid Connected Inverter Paper ID: 88 Title: Design of Solar PV Based EV Charging Station with Optimized Battery Energy Storage System Dr. Subhojit Ghosh, Paper ID: 94 NIT Raipur Title: A Supervisory Control Scheme for Efficient Power Management and Seamless Dr. (Mrs.) N.R. Patne, Transition in AC Microgrid VNIT Nagpur Paper ID: 100 Title: Real-Time Battery Monitoring System for Solar Infrastructure Paper ID: 123 Title: Overview of Generation of Electricity using Tidal Energy Paper ID: 148 Title: Techno-economic Analysis of 1 MWp Floating Solar PV Plant Paper ID: 157 Title: Performance Comparison of Standalone AC Microgrid with Inner Loop Proportional Integral and Proportional Resonant Current Controllers Paper ID: 178 Title: Mitigation of Flicker on Variable Speed Wind Turbines with Permanent Magnet Synchronous Generator Paper ID: 221 Title: Design and Implementation of a Solar Inverter without Batteries for IoT Nodes and Household Application
TS_RS2 Session Chairs Paper details Paper ID: 80 Title: Resiliency Analysis of Grid connected Solar PV System with Battery Support Paper ID: 239 Title: A Novel Curve Scanning Based Maximum Power Point Tracking Algorithm Under Partial Shading Conditions Paper ID: 240 Title: Comparison of Incremental Current Based MPPT Algorithms for Wind Fed DC Microgrid Paper ID: 242 Title: Design of PV Emulator Fed MPPT Controlled DC-DC Boost Converter for Battery Charging Paper ID: 249 Dr. Susovan Samanta, Title: Development of Standalone Photo-voltaic System using Two Phase Induction NIT Rourkella Motor Dr. Ritesh Keshri, Paper ID: 251 VNIT Nagpur Title: Performance of BDFIG During Balanced and Unbalanced Grid Conditions Paper ID: 267 Title: Impact of Electric Vehicle Charging Station on System Stability with Integration of Wind Farm Paper ID: 270 Title: Efficiency improvement of a dual boost converter with zero voltage switching technique for battery charging application of a Solar Home Lighting System Paper ID: 290 Title: Optimization of Levelized Cost of Hybrid Wind-Solar-Diesel-Battery System Using Political Optimizer Paper ID: 308 Title: Ameliorating frequency regulation in micro-grid employing Demand Response framework
TS_TA Session Chairs Paper details Paper ID: 17 Title: Design Considerations for a On-Board Charger Based on PSFB converter with ZVS Paper ID: 105 Title: Design of Autonomous Electric Vehicle Detecting the Roadside Buildings Dr. Anmol Saxena, Paper ID: 122 NIT Delhi Title: Modelling and Simulation of Electric and Hybrid Electric Vehicles Dr. M.M. Lokhande, Paper ID: 124 VNIT Nagpur Title: Fuzzy Logic Triggered Charging Infrastructures for Electric Vehicles Paper ID: 150 Title: Simulation Research of Low-Voltage Modules of Rectifier in 3kV Railway Substation Paper ID: 215 Title: Energy Recovery Through Regenerative Braking of Position Sensorless PMBLDC Motor for LEV Paper ID: 262 Title: Significance of Driving Cycle on Performance Parameters and Range in Small Electric Vehicle Paper ID: 268 Title: A design solution to reduce electrical/electronic complexity with secured CAN architecture for an automotive power system Paper ID: 283 Title: Energy Management of Dual Energy Storage System with Average Current Mode Control for EV Applications Paper ID: 304 Title: Mathematical Approach to Generate Efficiency Maps for Induction Motor and Optimization for EV Paper ID: 312 Title: Improving Vehicular Traffic Efficiency by Infrared Sensors
TS_SD + TS_ML Session Chairs Paper details Paper ID: 57 Title: High Gain Amplification Using Oscillating Quiescent Point Paper ID: 86 Title: Performance evaluation of Cascode GaN HEMT Paper ID: 135 Title: Comparative analysis for semiconductor device selection in Vienna Rectifier for fast EV charging application Dr. Ashis Kumar Dhara, Paper ID: 60 NIT Durgapur Title: Sensor Minimization for Energy Management in Smart Buildings Dr. P. Sharma, Paper ID: 61 VNIT Nagpur Title: Hybrid ANN based Incremental Conductance MPPT-Current Control Algorithm Dr. Nikhildeep Gupta, for Constant Power Generation of PV fed DC Microgrid VNIT Nagpur Paper ID: 147 Title: Wind Power Uncertainties Forecasting based on Long Short Term Memory Model for Short-Term Power Market Paper ID: 162 Title: Optimized Operation of Available Energy Resources Based on Energy Consumption Time Paper ID: 230 Title: Classification of faults in a TCSC compensated transmission line using data mining algorithm