Universal Charging Station for EV and BMS

2023 7th International Conference on Trends in Electronics and Informatics (ICOEI) Pub Date : 2023-04-11 DOI:10.1109/ICOEI56765.2023.10125949

N. Bhuvaneswary, M. Karthik, Nilayam Kumar, P. Kumar, P. Harsha

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Abstract

Developing sustainable alternatives that won't hurt the environment has become more important as a result of our need to protect the world we leave behind. One such option that functions without emitting any emissions is the use of electric automobiles. Rechargeable batteries used in electric vehicles are constructed of numerous sequential and parallel arrangements of cell modules. Several hundred volts are generated by these battery packs' electricity. They are essential since they are a requirement for many internal automotive functions, a part of the car that needs regular oversight and management. This calls for a battery management system, which is made up of many parts that make sure the battery operates effectively with no danger of failure. In this study, IoT is used to showcase quick charging for electric vehicles as well as battery management systems. The EV metering architecture, which contains real-time data to provide current information about the operations and behaviors at the energy distribution network, is also made available to EV consumers at each charging site.

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电动汽车和BMS通用充电站

由于我们需要保护我们留下的世界，开发不会损害环境的可持续替代品变得更加重要。其中一个不排放任何废气的选择是使用电动汽车。用于电动汽车的可充电电池是由许多连续和平行排列的电池模块构成的。这些电池组的电能产生几百伏的电压。它们是必不可少的，因为它们是许多内部汽车功能的要求，是需要定期监督和管理的汽车的一部分。这需要一个电池管理系统，它由许多部分组成，确保电池有效运行，没有故障的危险。在这项研究中，物联网被用来展示电动汽车的快速充电以及电池管理系统。电动汽车计量体系结构包含实时数据，提供有关能源分配网络运行和行为的当前信息，也提供给每个充电点的电动汽车消费者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2023 7th International Conference on Trends in Electronics and Informatics (ICOEI)

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