š Education
Dr. Saahithi S earned her Ph.D. in Low Power Electronics Converter and Inverter from REVA University, Bengaluru (2018-2023). Her doctoral research focused on designing and analyzing Switched Capacitor Topology for various applications, contributing significantly to the field of energy-efficient power electronics. She received her Masterās in Power Electronics and Drives from M.S. Ramaiah Engineering College (2012-2014), graduating with a Gold Medal. Her masterās thesis was centered around FPGA-based SPWM techniques for three-level inverters. She completed her Bachelorās degree in Electrical and Electronics Engineering from Auroraās Engineering College (2002-2006), where she graduated with First Class honors. Throughout her educational journey, Dr. Saahithi has demonstrated a strong academic background and a commitment to advancing technologies in power electronics, focusing on low power converters, renewable energy, and embedded systems, with a particular interest in improving the efficiency and reliability of electronic systems.
š¼ Experience
Dr. Saahithi S has over a decade of academic and research experience. Since 2014, she has been serving as an Assistant Professor at REVA University, Bengaluru, where she teaches various subjects related to electrical engineering and low power electronics. She has contributed to courses such as Basic Electrical Engineering, AC/DC Drives, Embedded Systems, IoT, and Artificial Neural Networks. Before joining REVA University, Dr. Saahithi was an Assistant Professor at Sri Indu College of Engineering and Technology, Hyderabad, and Osmania University, Hyderabad, where she taught Electrical Engineering subjects to undergraduate students. Additionally, she has worked as a Project Assistant at the Indian Institute of Science in both the Material Research Center and the Center of Excellence in Nanoelectronics, focusing on photolithography, thermal evaporation, and VLSI fabrication processes. Dr. Saahithiās teaching experience is complemented by her active participation in research, conferences, and workshops in the areas of power electronics and renewable energy.
š Awards & Honors
Dr. Saahithi S has been recognized for her outstanding academic achievements and contributions to the field ofĀ low power electronics. She was awarded a Gold Medal for her Master’s degree in Power Electronics and Drives from M.S. Ramaiah Engineering College, Bengaluru, where she stood out as a rank holder. Throughout her academic career, Dr. Saahithi has received multiple accolades for her research excellence. Her work has led to significant contributions in both academic and industrial applications, and she has authored numerous journal and conference publications. In 2023, she was granted a patent for her work on a dual topology configuration of switched-capacitor converters. Her research has had a profound impact on the development of low-power systems, and she has been recognized for her role in various technical conferences and workshops. Additionally, she has served as a session chair and conference secretary for IEEE-sponsored events, further cementing her reputation in the academic community.
š Research Focus
Dr. Saahithi Sās primary research focus lies in low power electronics and the design of efficient power converters and inverters, particularly utilizing switched capacitor topologies for both integrated and non-integrated applications. Her research interests extend to on-chip/off-chip converter design, wireless networks, and VLSI, with a specific emphasis on improving energy efficiency in power electronics systems. She has contributed to various projects related to the development of DC-DC converters for electric vehicles, regenerative braking systems, and energy management in smart grids. Dr. Saahithiās work also explores embedded systems, IoT applications, and renewable energy solutions, particularly in the context of optimizing power conversion processes. Through her research, she aims to reduce power loss, increase efficiency, and contribute to the sustainable development of electronics. Her diverse expertise and contributions make her a valuable figure in the ongoing research in energy-efficient power electronics and intelligent control systems for renewable energy applications.