On the Error of Li-ion Battery Parameter Estimation Subject to System Uncertainties

Fogelquist, Jackson; Lai, Qi; Lin, Xinfan

doi:10.1149/1945-7111/acbc9c

Cited by 6 publications

(1 citation statement)

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“…Battery capacity cannot be measured directly, so it also requires suitable parameters to be accurate and reliable. Apart from knowing the remaining battery capacity, SOC can be used to prevent the battery from overcharging or over-discharging to extend its service life [25], [1], [26]. Many SOH or SOC estimation methods have been developed.…”

Section: Introductionmentioning

confidence: 99%

Evaluating the Battery Management System's Performance Under Levels of State of Health (SOH) Parameters

Amifia,

Kamali

2023

Journal of Robotics and Control

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Batteries in electric vehicles are the primary focus battery health care. The Battery Management System (BMS) maintains optimal battery conditions by evaluating the system's Htate of health (SOH). SOH identification can recommend the right time to replace the battery to keep the electric vehicle system working optimally. With suitable title and accuracy, the battery will avoid failure and have a long service life. This research aims to produce estimates and identify SOH parameters so that the performance of the battery management system increases. The central parameter values obtained are R0, Rp, and Cp based on Thevenin battery modeling. Then, to get good initialization and accurate results, the parameter identification is completed using an adaptive algorithm, namely Coulomb Counting and Open Circuit Voltage (OCV). The two algorithms compare the identification results of error, MAE, RSME, and final SOH. The focus of this research is to obtain data on estimation error values along with information regarding reliable BMS performance. The performance of the current estimation algorithm is known by calculating the error, which is presented in the form of root mean square error (RMSE) and mean absolute error (MAE). The SOH estimation results using Coulomb Counting have a better error than OCV, namely 1.770%, with a final SOH value of 17.33%. The Thevenin battery model can model the battery accurately with an error of 0.0451%.

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Section: Introductionmentioning

confidence: 99%