12.8V 100Ah LiFePO4 Battery LFP12100
Features:
- High Capacity: The 12.8V 100Ah LiFePO4 battery offers ample storage capacity.
- Long Cycle Life: With over 2000 cycles, it provides long-lasting performance.
- Fast Charging: The battery charges quickly, saving time and increasing convenience.
- Versatile Applications: It can be used in solar energy storage, electric vehicles, RVs, and more.
Parameters
| Model | LFP12100 |
| Rated Capacity | 100Ah |
| Rated Voltage | 12.8V |
| Energy | 1280Wh |
| Standard Charge Current | 20A |
| Max. Charge Current | 50A |
| Charge Cut Off Voltage | 14.6V |
| Standard Discharge Current | 20A |
| Max. Continuous Discharge Current | 100A |
| Discharge Cut Off Voltage | 10V |
| Max. Pulse Discharge Current | 200A |
| Charge Temperature | 0 to 45ºC |
| Discharge Temperature | -20 to 60ºC |
| Storage Temperature | 0 to 40ºC |
| Dimension (L*W*H) | 330*173*216mm |
| Weight | 11.5kg |
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FAQ
The full charge voltage of a 100Ah LiFePO4 battery is typically around 14.4 to 14.6 volts. It’s important to note that the exact voltage may vary slightly depending on the specific manufacturer and battery model. It’s recommended to refer to the manufacturer’s specifications or documentation for the precise charging voltage for your specific battery.
The runtime of a 100Ah LiFePO4 battery powering a fridge depends on several factors, such as the power consumption of the fridge, the efficiency of the inverter (if used), and the condition of the battery.
To estimate the runtime, you need to know the power consumption of your fridge in watts. Let’s assume it consumes 100 watts.
First, convert the watts to amps by dividing the power consumption (100 watts) by the battery voltage (12.8 volts):
100 watts / 12.8 volts = 7.81 amps (rounded to two decimal places).
Next, calculate the runtime by dividing the battery capacity (100Ah) by the current draw:
100Ah / 7.81 amps = 12.8 hours (rounded to one decimal place).
Therefore, a 100Ah LiFePO4 battery can potentially power a fridge consuming 100 watts for approximately 12.8 hours. Keep in mind that this is an estimate, and actual runtime may vary based on battery efficiency and other factors.
The number of solar panels required to charge a 100Ah LiFePO4 battery depends on factors such as the solar panel’s power rating, sunlight conditions, and charging efficiency.
As a rough estimate, you may need several panels with a combined power output of around 300-400 watts to charge a 100Ah battery efficiently. It’s recommended to consult a solar expert for a more accurate assessment based on your specific requirements and location.
The runtime of a 100Ah battery powering a TV will depend on several factors, including the power consumption of the TV and the efficiency of the battery system. To estimate the runtime, you can divide the battery’s capacity (100Ah) by the power consumption of the TV in amperes.
For example, if the TV consumes 5 amps of current:
Runtime (in hours) = Battery capacity (in Ah) / TV power consumption (in A)
Runtime = 100Ah / 5A = 20 hours
Please note that this is a simplified calculation and doesn’t account for factors like battery efficiency, battery discharge rates, and voltage fluctuations. It’s always recommended to consult the manufacturer’s specifications and consider real-world usage conditions for a more accurate estimation.
