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Intelligent Battery Management System (BMS) in the E-Mobility Infrastructure
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Author(s): Priya Charles (Dr. D.Y. Patil Institute of Engineering Management and Research, India), Sharmishtha Satyajit Mitra (Dr. D.Y. Patil Institute of Engineering Management and Research Pune, India), Manali Gidde (Dr. D.Y. Patil Institute of Engineering Management and Research, India)and Dipti Pawar (Dr. D.Y. Patil Institute of Engineering Management and Research, India)
Copyright: 2024
Pages: 21
Source title:
A Sustainable Future with E-Mobility: Concepts, Challenges, and Implementations
Source Author(s)/Editor(s): Lakshmi D. (VIT Bhopal University, India), Neelu Nagpal (Maharaja Agrasen Institute of Technology, India), Neelam Kassarwani (Maharaja Agrasen Institute of Technology, India), Vishnu Varthanan G. (VIT Bhopal University, India)and Pierluigi Siano (University of Salerno, Italy)
DOI: 10.4018/979-8-3693-5247-2.ch015
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Abstract
Today's electric vehicles (EVs) are designed to replace traditional gasoline vehicles' engines, tanks, and fuel pumps with electric motors, batteries, and chargers. In other words, in this case, battery packs were used to power the vehicle instead of fossil fuels. Electric vehicles are required due to global climate change and abnormally high oil prices at the international level. Addressing these issues requires developing or improving new energy sources to replace fossil fuels: green and sustainable energy. That's why it's important to ensure your batteries are as reliable as fossil fuels. Preserving battery life and improving the performance of electric vehicles are therefore heavily influenced by the design of battery management systems. It assists the charge remaining (SOC) and health (SOH) of the cells, the management and supervision of the charge/discharge characteristics, and cell balancing. In this chapter, the authors discuss the battery management for a battery pack made from 18650 Li-ion batteries.
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