![State of charge (SoC) estimation on LiFePO4 battery module using Coulomb counting methods with modified Peukert | Semantic Scholar State of charge (SoC) estimation on LiFePO4 battery module using Coulomb counting methods with modified Peukert | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/3b5a77b871088058c89963aac2e995df757c015d/3-Figure3-1.png)
State of charge (SoC) estimation on LiFePO4 battery module using Coulomb counting methods with modified Peukert | Semantic Scholar
![A good example of why voltage based SOC is useless for LiFePo4. Both screenshots taken at the same time on the same system. First is Victron Smart Shunt. Second is inverter voltage A good example of why voltage based SOC is useless for LiFePo4. Both screenshots taken at the same time on the same system. First is Victron Smart Shunt. Second is inverter voltage](https://external-preview.redd.it/ZOSGQqoIrf6Y3GhhJ3p1r4tOJvCS6PTVUBQ8nUQKcyk.jpg?auto=webp&s=c3371159301e3c1db4f1ac885ac88cc256c4074c)
A good example of why voltage based SOC is useless for LiFePo4. Both screenshots taken at the same time on the same system. First is Victron Smart Shunt. Second is inverter voltage
![Electronics | Free Full-Text | A New SOC Estimation for LFP Batteries: Application in a 10 Ah Cell (HW 38120 L/S) as a Hysteresis Case Study Electronics | Free Full-Text | A New SOC Estimation for LFP Batteries: Application in a 10 Ah Cell (HW 38120 L/S) as a Hysteresis Case Study](https://www.mdpi.com/electronics/electronics-10-00705/article_deploy/html/images/electronics-10-00705-g001-550.jpg)
Electronics | Free Full-Text | A New SOC Estimation for LFP Batteries: Application in a 10 Ah Cell (HW 38120 L/S) as a Hysteresis Case Study
![Solar Batteries: How do you calculate SOC (Voltage in Percent) - Configuration - Home Assistant Community Solar Batteries: How do you calculate SOC (Voltage in Percent) - Configuration - Home Assistant Community](https://community-assets.home-assistant.io/original/4X/e/d/9/ed94cea6c31c80745b93181a057b01ba6e693586.png)