Battery Management Optimization Considers The State Of Charge Using The Coulomb Counting Method

Journal Geuthee of Engineering and Energy (JOGE) Pub Date : 2023-05-04 DOI:10.52626/joge.v2i1.14

S. Triwijaya, A. Pradipta

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Abstract

The Battery Management System (BMS) is important because more and more electronic devices and vehicles use batteries as a power source. Without BMS, battery charging can become unstable, resulting in overcharging and reducing battery life. Therefore, BMS is becoming increasingly important as part of the development of safer and more efficient technologies, resulting in more reliable and safer electronic devices and vehicles. The Coulomb Counting method is used to determine the state of charge of the battery at the beginning and end of charging. The coulomb counting method is very accurate for determining the state of charge because it calculates the incoming and outgoing electric charge from the read current value. The voltage from source to load uses a buck converter to step down the voltage from 27.3V source to 25.5V load voltage. The Coulomb Counting (CC) method is used to estimate the SOC of the battery being monitored. The CC method is accurate for estimating the SOC value during charging and discharging but cannot determine the initial SOC value. The results of the current test have an accuracy of 96.03% and the voltage test has an accuracy of 99.22%.

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利用库仑计数法考虑充电状态的电池管理优化

电池管理系统(BMS)非常重要，因为越来越多的电子设备和车辆使用电池作为电源。没有BMS，电池充电会变得不稳定，导致过度充电，降低电池寿命。因此，作为开发更安全、更高效技术的一部分，BMS正变得越来越重要，从而产生更可靠、更安全的电子设备和车辆。采用库仑计数法确定充电开始和结束时电池的充电状态。库仑计数法根据读出的电流值来计算输入和输出的电荷，因此对于确定电荷的状态是非常准确的。从源到负载的电压使用降压转换器将源电压从27.3V降压到负载电压25.5V。采用库仑计数法(Coulomb Counting, CC)估算被监测电池的荷电状态。CC法可以准确估计充放电过程中的荷电状态值，但不能确定初始荷电状态值。电流试验结果的准确度为96.03%，电压试验结果的准确度为99.22%。

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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Journal Geuthee of Engineering and Energy (JOGE)

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