This is another one of our customer case studies, where we observe a complete solar energy system. The core of this system’s storage is comprised of our LFP.6144.W solar panel battery module. This single unit, as depicted, has an energy capacity of 6.144kWh, with a usable capacity of 5.83kWh for this specific installation. The battery employs Lithium Iron Phosphate (LiFePO4) chemistry, notable for being cobalt-free, and operates at a nominal 51.2Vdc.
The LFP.6144.W module is designed for robust performance. It accommodates a maximum charge and discharge current of 120 Amps, indicating its capability for efficient energy transfer. Furthermore, its cycle life is rated at over 6000 times, underscoring its durability and longevity. This battery model is also scalable, allowing for a maximum of 16 units to be connected in parallel, which would enable a total capacity of up to 98.24kWh for larger energy demands. The physical dimensions of the unit are 600x440x210mm, with a weight of 65kg, making it a manageable component for installation.
A SolisE inverter is prominently integrated into this setup. Its primary function is to convert the stored DC electricity from our LFP.6144.W battery into AC electricity, making it suitable for household or facility consumption. The harmonious combination of our LFP.6144.W solar panel battery and the SolisE inverter establishes the functional solar power system, efficiently managing the generation, storage, and distribution of renewable energy.
