To all our partners and enthusiasts: you asked for superior performance and longevity, and we, the BAK Technologies, heard you!
And proudly introduce the BAKTH-48173125, a strong 3.2 V 100 Ah 320 Wh LiFePO4 battery cell. Some specs: battery’s dimensions are: 47.8 mm * 174.2 mm * 132.3 mm. The weight is guaranteed to be under 2.30 kg. We know you need to integrate it, and we made it easy. Our battery combines power with practicality. The BAKTH-48173125 boasts over 3000 charge cycles. This longevity supports your energy needs year after year, minimizing replacement frequency. Charge efficiently from 32°F to 140°F (0℃ to 60℃). Discharge reliably from -4°F to 140°F (-20℃ to 60℃). Optimal performance peaks between 68°F to 86°F (20℃ to 30℃). It’s tailored for extreme conditions. With a max charge voltage of 3.65V and a cut-off at 2.50V, efficiency is maximized. Impedance is remarkably low at ≤0.40mΩ, reducing energy loss. A low self-discharge rate of ≤3.5% per month means it holds charge longer, ideal for both active use and storage. Perfect for renewable energy setups, critical industrial machinery, and emergency power systems.
Esse LiFePO4 battery 3.2V ensures consistent, dependable energy where and when it’s most needed. Choosing our BAKTH-48173125 LiFePO4 lithium battery means opting for reliability and innovation. Trust us to energize your applications with a battery crafted for challenges, ensuring efficiency and endurance. Energize your projects with BAK Technologies. Experience reliable, adaptable, and enduring power with the BAKTH-48173125.
Let’s power the future together, efficiently and sustainably.
* Corrente de carga padrão: 0,5C;
* Corrente máxima de carga (contínua): 1,0C;
* Corrente de descarga padrão: 0,5C;
* Corrente máxima de descarga (contínua): 1,0C;
* Tensão máxima de carga: 3,65 V;
* Tensão de corte: 2,50V;
* Charging temperature(Cell surface temperature): 0℃~60℃;
* Discharging temperature(Cell surface temperature): -20℃~60℃;
* Temperatura ideal de carga e descarga: 20°C~30°C;
* Impedance (1KHz): ≤0.40mΩ;
* Self-discharge: ≤3.5%/month;