OPTIMIZATION OF ENERGY TRANSFER IN MULTI-SOURCE EV BATTERIES THROUGH FLEXIBLE CONVERTER TECHNOLOGY

Abstract

This research is focused on the utilization of flexible converter technology to improve energy transfer in EV battery systems that utilize multiple sources. In order to enhance the longevity and performance of systems that incorporate a variety of energy sources, such as batteries, supercapacitors, and renewable inputs, it is imperative that power management be both effective and efficient. Flexible converters are essential for reducing energy losses and enhancing overall efficiency because they can effectively and adaptively regulate power flow in response to changes in load and operating conditions. In order to ensure that energy is distributed among sources as efficiently as possible, the investigation implements sophisticated control strategies, including real-time monitoring and intelligent switching mechanisms. The proposed method expedites the development of environmentally friendly, high-performance electric vehicle (EV) power systems, while concurrently enhancing system reliability and reducing the strain on individual energy storage components.