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25.6V ISPS series Lifepo4 battery

25.6V 100Ah 200Ah ISPS series Lifepo4 battery

ISPS series

【100% Protection】Ingotta LiFePO4 battery set you free from battery security issue. It equipped with battery management system (BMS), which protects the battery pack from over charging & discharging, over current, short circuit, and over temp. It is perfect in many off-grid applications, like solar or energy storage system, backup power, RV, security or surveillance systems and more capability of Ampere Time lithium iron phosphate battery is under exploration.

  1. Built-in Bluetooth module
  2. 6000 deep cycles
  3. Built-in BMS
  4. Maximum discharge 50A
  5. Widely used in household and commercial energy storage fields
  6. 5 years warranty

Detail

ModelISPS100-24ISPS200-24
Rated Capacity100Ah200Ah
Minimal Rated Capacity100Ah200Ah
Nominal Voltage25.6V
Life ExceptionHigher than 80% of the Initial Capacity of the Cells
Discharge cut-off voltage20V
Charging cut-off voltage29.2V
Cell and assembly method8S1P8S2P
Housing materialplastic housing
Standard charge0.2C constant current(CC) charge to 29.2V,then constant voltage (CV)29.2V charge till charge current decline to ≤0.05C
Standard dischargeConstant current 0.5C Cut-off voltage 20.0V
Maximum Charge Current50A
Max Continuous Discharge Current50A
Peak current100Ah
Operation Temperature RangeCharge: 0~55℃ |Discharge: -20~60℃(cell surface temperature≤80℃)
Storage Temperature RangeLess than 1 year : 0~25℃ | Less than 3 months:-10~35℃
Weight23Kg36.6KG
Max. Dimension240x170x490MM220x230x490MM
CommunicationBluetooth

What can the ISPS series products do for you

Energy storage system

Providing Emergency Backup Power: The peak-shaving and valley-filling mechanism can discharge stored energy during off-peak hours, offering emergency backup power to address unexpected events and safeguard the secure and stable operation of the power grid.

Enhancing the Utilization of Fluctuating Renewable Energies: Energy storage systems can harness renewable energies such as wind and solar to charge batteries during periods of low grid demand. Conversely, during peak demand, the stored chemical energy in the batteries is converted back into electrical energy for discharge. This process significantly improves the utilization rate of intermittent renewable energy sources, ensuring a more efficient integration with the power grid.

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