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24V 100AH LIFEPO4 BATTERY
The 24V100Ah base station battery uses lithium iron phosphate material, safe and reliable; The battery cell is fully automated production, the process is stable in heat, the charge and discharge consistency is good, and the life consistency is excellent; it can meet the needs of multiple machines in parallel.
- Type: LiFePO4 Battery
- Size: 308L * 483W * 222H(mm)
- Weight: about 25Kg
- Rated Voltage: 25.6V
- Capacity: 100Ah
- Warranty:2 Year
- Certification: CE, UN38.3
- Application: base station batteries, energy storage, etc
Basic Info.
THE SPECIFICITY OF 24V 100AH LIFEPO4 BATTERY
Module type | 24V100A-8S2P |
Battery cells required | Square aluminum case GSP34135192-3.2V 100Ah |
The Main Parameters | Charging voltage: 29.2V±0.2V |
Rated capacity: 100Ah | |
Maximum charging current: 100A | |
Maximum discharge current: 100A | |
Operating temperature: charging 0-45℃, discharge -20-60℃ | |
Weight: about 25Kg | |
Size: 308L * 483W * 222H(mm) | |
Cycle life: 2000 cycles,100% | |
Or 3500 Cycle, 80% | |
Features: LCD display, standard 4PIN stud, RS485, | |
Bluetooth (optional), WIFI (optional) |
Product Description
THE FEATURE OF 24V 100AH LIFEPO4 BATTERY
1. STORAGE CAPACITY
100 ampere hours (Ah). Starlight LFP batteries provide strong power for all 100 amp hours, while SLA batteries use just past half or less. LiFePO4 batteries have a flat voltage curve, which means they have a steady power output as the battery discharges. The power output will not dramatically drop like similar sized SLA batteries. You get all the capacity like juice down to the last drop.
2. LIFECYCLES (BATTERY LIFESPAN)
Up to 100% capacity for 2,000 cycles in standard conditions. The typical SLA has 3-500 cycles. Starlight LFP batteries last so long that the price per use is about 1/5 of traditional batteries.
3. Lithium Batteries have a wide temperature range of operation (-4 to +160 F / -20 to +70 C). Lithium Batteries can be stored and discharged at the upper and lower temperature limits, however, charging currents should be reduced near these limits and Lithium Iron Phosphate Batteries must not be charged at temperatures below freezing.