Products
Lithium iron phosphate modular battery is a LiFePO4 modular battery assembly using LFP cell connected in series, parallel or series-parallel, and only a pair of positive and negative output terminals, which also includes the battery shell, battery management system and battery protection device and other components.
24V LiFePO4 50000mAh modular battery (Nominal Voltage=25.6V) is a LFP modular battery developed by Grepow, features in high rate, small size and lightweight, high durability, low maintenance cost, efficient battery management, support for flexible customization, and many advanced core technology patents, etc. so that it's as a power supply popular among various fields.
48V LiFePO4 25000mAh modular battery (Nominal Voltage=51.2V) is a LFP modular battery developed by Grepow, features in high rate, small size and lightweight, high durability, low maintenance cost, efficient battery management, support for flexible customization, and many advanced core technology patents, etc. so that it's a power supply popular among various fields.
Compared with other Lithium-Ion batteries, the LiFePO4 battery owns the safest chemicals, can provide the stable performance; The LiFePO4 battery can provide a longer cycle life which is more than 2000 cycles, significant reduction in weight and extreme (10x or more) increase in cycle life. Also can work well in the high-temperature environment, it can endure within -40℃ to 60℃, also win a place in the high power UPS application, power sport starting battery as well as performance racing vehicle battery application, etc.
Lithium iron phosphate ( LiFePO4 ), also known as LFP batteries, is a rechargeable polymer battery. Grepow's High Capacity LFP batteries are of low IR, higher energy density, high power performance, longer battery life for using self-researched battery raw material formula, widely used in portable power stations, vehicle booster, battery backup, etc.
Grepow's low-temperature LiFePO4 (LFP / lithium iron phosphate) battery takes new technology with excellent low-temperature performance at -45℃. The discharging current of 0.2C at -20℃ is over 85% of initial capacity; at -30℃, it is over 70%; at -40℃, it is around 55%.