This customer case study provides a clear example of a scaled solar inverter battery system. In the installation photograph, we observe three of our LFP.1433.F battery modules configured in parallel, alongside an SRNE inverter mounted on the wall.
Each LFP.1433.F solar inverter battery unit is based on cobalt-free Lithium Iron Phosphate (LiFePO4) chemistry and offers an energy capacity of 14.33kWh (13.61kWh usable). By connecting three of these units in parallel, this system achieves a total energy capacity of 42.99kWh and a total usable capacity of 40.83kWh. This parallel setup allows for a significant increase in energy storage to meet higher power demands. The nominal voltage of the system remains at 51.2Vdc. Each module is specified for a maximum charge and discharge current of 140 Amps and has a cycle life of over 6000 times, ensuring robust and long-term performance for the entire system.
The SRNE inverter shown in the setup is responsible for managing the energy flow. It converts the DC electricity stored in the LFP.1433.F solar inverter battery bank into usable AC power for the property. This integration of multiple batteries with a capable inverter forms a powerful and resilient solar energy solution.
