Cloud-based Monitoring of the Health of Battery using IoT

2022 5th International Conference on Contemporary Computing and Informatics (IC3I) Pub Date : 2022-12-14 DOI:10.1109/IC3I56241.2022.10072860

G. Krishna, Rajesh Singh, A. Gehlot

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引用次数: 2

Abstract

The battery is the most crucial part of a car. Therefore, for best operation, each battery must be restored to its full potential. Lead Acid batteries are typically used in automobile batteries, and they need to undergo meticulous inspection to perform well under all circumstances. Consequently, a more organized battery control system is required to permit continuous monitoring of the battery's functioning. When it comes to batteries, the SoH (State of Health), SoC (State of Charging), and SoD (State of Discharging) are the most important features. Such parameters can be calculated using a number of cogent ways. However, as the battery's components, surroundings, and load will all have an impact on the parameters, such methods cannot produce precise results. A battery that has been overcharged releases gases like oxygen and hydrogen. In addition to attempting to detect the escape of various gases from the battery under overload situations, the Battery Management System (BMS) uses sensors and an STM controller to display the voltage, current, and temperature of the battery. Through the use of IOT and cloud technologies, this study focused on the detection of hydrogen gas released by batteries.

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基于云的物联网电池健康监测

电池是汽车最关键的部件。因此，为了最佳运行，每个电池必须恢复到其全部潜力。铅酸电池通常用于汽车电池，需要经过细致的检查才能在各种情况下表现良好。因此，需要一个更有组织的电池控制系统来允许对电池的功能进行连续监测。说到电池，SoH(健康状态)、SoC(充电状态)和SoD(放电状态)是最重要的特征。这些参数可以用许多有说服力的方法来计算。但是，由于电池的组件、环境和负载都会对参数产生影响，因此这种方法无法得到精确的结果。过度充电的电池会释放出氧气和氢气等气体。电池管理系统(BMS)除了试图检测过载情况下电池中各种气体的逸出外，还使用传感器和STM控制器来显示电池的电压、电流和温度。本研究通过使用物联网和云技术，重点研究电池释放的氢气的检测。

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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2022 5th International Conference on Contemporary Computing and Informatics (IC3I)

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