The ever-growing demand of electrical energy, depleting fossil fuels and global climate change are the major motivations to use the energy more efficiently than before in tandem with the search for alternative and sustainable energy sources. The electric motor drives are the major consumers of energy and thus their efficiency improvement results in signicant reduction of energy consumption, especially in high-power applications. On the other side, in order to foster sustainable, low-emission development, many countries like India, China are establishing ambitious large-capacity solar photovoltaic power plant for their electricity supply. Modular power electronics converters are prefereable in these high power applications to enhance the overall reliability of the system. My research interest includes but are not limited to: (a) Modular Multilevel Converters, (b) Cascaded H-Bridge Converter, (c) Medium Voltage Drives, (d) Grid Integration of Large Capacity Solar Photovoltaic Plant, (e) Transformerless High Power Converters.
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Coupled Inductor Based Regenerative Cascaded Multicell Converter for Drives With Multilevel Voltage Operation at Both Input and Output Sides Sau S., Nikam S. P., Fernandes B. G. By IEEE Transactions on Industrial Electronics 67 147-158 (2019)
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Modular Multilevel Converter Based Variable Speed Drive With Reduced Capacitor Ripple Voltage Sau S., Fernandes B. G. By IEEE Transactions on Industrial Electronics 66 3412-3421 (2018)
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Modular Transformer-Based Regenerative-Cascaded Multicell Converter for Drives With Multilevel Voltage Operation at Both Input and Output Sides Sau S., Karmakar S. , Fernandes B. G. By IEEE Transactions on Industrial Electronics 65 5313-5323 (2017)
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Theoretical Analysis and Comparison of Capacitor Requirement in Modular Converters for Grid Integration of High Power Solar PV Sau S., Nair A. C., Fernandes B. G. By 11th Annual Energy Conversion Congress and Exposition, ECCE 2019 5514-5521 (2019)
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Modular multilevel converter based variable speed drives with constant capacitor ripple voltage for wide speed range Sau S., Fernandes B. G. By IECON 2017- 43rd Annual Conference of the IEEE Industrial Electronics Society 2073-2078 (2017)
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Reduction of capacitor ripple voltage and current in Modular Multilevel Converter based variable speed drives Sau S., Karmakar S. , Fernandes B. G. By IEEE 3rd International Future Energy Electronics Conference and ECCE Asia (IFEEC 2017 - ECCE Asia) 1451-1456 (2017)
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Analysis and reduction of capacitor ripple current in modular multilevel converter for variable speed drives Sau S., Fernandes B. G. By 18th European Conference on Power Electronics and Applications (EPE'16 ECCE Europe) 1-10 (2016)
Principal Investigator
- Coupled Inductor Based Modular Multilevel Central Inverter for Large Scale Solar PV Plant with Storage System
- Regenerative Cascaded Multicell Converter based High-Power Drives
Co-Principal Investigator
- Development and Implementation of Battery Energy Storage System for Power Quality Centre CDAC
- Development and Implementation of Battery Energy Storage System for Power Quality Centre Ministry of Electronics and Information Technology
Ph. D. Students
Ananya Nayak
Area of Research: Multilevel Converter
Guraka Vishnu Vardhan Reddy
Area of Research: Medium Voltage Converter
Ramavath Saida Nayak
Area of Research: Grid connected converter
Satyam Jha
Area of Research: Power Electronics Converter
