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Student Project | Electrical Control System | India | Volume 13 Issue 6, June 2024 | Rating: 5.2 / 10
Versatile Dual Input - Dual Output Converter for Electrical Vehicles
Joys Kasi | Dr. Manish Kumar Srivastava
Abstract: The advancement of electric vehicle (EV) technology necessitates the development of efficient and versatile power conversion systems. This project presents the design and implementation of a multifunctional non - isolated dual input - dual output (DIDO) converter specifically for EV applications. The converter aims to seamlessly integrate multiple power sources, such as batteries and super capacitors, and provide multiple outputs to cater to the diverse power requirements of various EV subsystems. The proposed converter enhances overall energy utilization, improves power management, and reduces system complexity, contributing to extended driving ranges and better vehicle performance. Through advanced power electronics techniques, robust control strategies, and comprehensive thermal management, the project aims to achieve high efficiency, reliability, and adaptability. Extensive prototyping and testing will validate the converter's performance in real - world scenarios, positioning it as a critical component in the next generation of electric vehicles, thereby supporting the transition to sustainable and efficient automotive technologies. In conclusion, the development of a multifunctional non - isolated dual input - dual output converter represents a significant advancement in EV power management. By efficiently integrating multiple power sources and providing versatile output capabilities, this project aims to significantly enhance the performance, reliability, and efficiency of electric vehicles. The innovative design and thorough testing of this converter have the potential to make it a critical component in the next generation of EVs, driving the transition towards more sustainable and efficient automotive technologies. This project not only contributes to the advancement of EV technology but also supports broader efforts to promote sustainable transportation solutions.
Keywords: Hybrid electric vehicles, Boost Converter, Buck Converter, dc?dc power converters, digital control
Edition: Volume 13 Issue 6, June 2024,
Pages: 1541 - 1552