| Title |
SOC Estimation Based on Enhanced Coulomb Counting Considering Hysteresis Characteristics of LFP Batteries |
| Authors |
박형욱(Hyeong-Wook Park) ; 이재형(Jae-Hyung Lee) ; 윤재중(Jae-Jung Yun) |
| DOI |
https://doi.org/10.5370/KIEE.2024.73.12.2272 |
| Keywords |
Battery management system; Coulomb counting; Lithium iron phosphate; Open circuit voltage; State of charge |
| Abstract |
A state of charge (SOC) estimation method based on coulomb counting requires an accurate initial SOC value to reset the accumulated errors during the integration process. However, accurate initial SOC estimation is challenging for lithium iron phosphate (LFP) batteries due to their flat SOC-OCV curve and hysteresis characteristics. To address these problems, this paper proposes an enhanced coulomb counting based SOC estimation algorithm that incorporates hysteresis characteristics. The hysteresis characteristics of the LFP battery are analyzed through major loop and minor loop experiments. In order to determine the accurate initial SOC value that matches the measured open circuit voltage (OCV) in the hysteresis characteristics of the battery, the proposed method creates a new SOC-OCV curve consisting of the average curves of the major loop and charge/discharge curves of minor loops. The operating point (SOC, OCV) of the battery is determined by linear interpolation after selecting a curve according to the previous SOC and the state of the battery. A test bench is constructed to verify the SOC estimation performance of the proposed method. As a result of the experiment, the proposed method has a smaller SOC estimation error by reflecting the hysteresis characteristics of SOC-OCV more accurately compared to the existing improved coulomb counting method. The mean squared error (MAE) and root mean squared error (RMSE) of the SOC estimation of the proposed method are both less than 0.5. |