The DATOUBOSS 12V 100Ah LiFePO4 Battery redefines energy storage with its 1280Wh capacity, upgraded 100A BMS, and 8,000-15,000 deep cycles. Its ability to support series/parallel configurations enhances scalability for diverse applications, from solar systems to marine use. The lithium iron phosphate chemistry ensures unmatched safety and longevity compared to traditional lead-acid batteries.
Choosing the Right Charger for a 200Ah LiFePO4 Battery
How Does the 100A BMS Enhance Performance and Safety?
The 100A Battery Management System (BMS) optimizes cell balancing, temperature control, and overcharge protection. It enables 100A continuous discharge (200A peak), making it compatible with high-power devices like inverters. The BMS prevents thermal runaway and extends cycle life by maintaining optimal voltage levels across all cells.
This advanced BMS employs three-tier protection against over-voltage, under-voltage, and short circuits. Its balancing accuracy reaches ±25mV, ensuring uniform cell aging. The system’s adaptive charging algorithm automatically adjusts current flow based on temperature readings from four internal sensors. For marine applications, the BMS provides saltwater corrosion resistance through its conformal-coated circuit board.
What Applications Benefit Most From This Battery?
Solar energy storage, RV power systems, marine electronics, and off-grid setups gain significant advantages. Its vibration resistance suits mobile applications, while the maintenance-free design appeals to renewable energy projects requiring reliable deep-cycle performance.
What Is a DC to DC Lithium Battery Charger and How Does It Work
In solar installations, the battery’s 98% round-trip efficiency captures more energy than lead-acid alternatives. RV users appreciate the 100% depth of discharge capability for extended boondocking. Marine applications benefit from IP65-rated terminals that prevent saltwater intrusion. For emergency backup systems, the battery maintains 95% charge retention after 90 days of storage.
| Feature | LiFePO4 | Lead-Acid |
|---|---|---|
| Cycle Life | 8,000+ | 300-1,200 |
| Weight | 24.3 lbs | 60-70 lbs |
| Charge Efficiency | 98% | 85% |
How Does Cycle Life Compare to Lead-Acid Alternatives?
With 8,000-15,000 cycles at 80% DoD, it outperforms AGM/Gel batteries (300-1,200 cycles) by 6-50x. Even after 2,000 cycles, capacity remains above 80%, versus lead-acid’s typical 50% drop within 500 cycles.
“This battery’s 100A BMS sets a new benchmark for mid-tier LiFePO4 systems. The cell-grade balancing and adaptive charge algorithms address common pain points in renewable energy storage. For DIY solar projects, it’s a cost-effective alternative to premium brands without sacrificing critical safety features.” — Energy Storage Solutions Analyst
FAQs
- Does It Require a Special Charger?
- Use LiFePO4-compatible chargers with 14.2-14.6V absorption voltage. Standard lead-acid chargers may undercharge the battery, reducing capacity over time.
- Can It Operate in Freezing Temperatures?
- The BMS blocks charging below -20°C but allows discharging down to -30°C. For cold climates, insulation blankets are recommended during charging cycles.
- How Heavy Is the Battery?
- At 24.3 lbs (11 kg), it’s 60% lighter than equivalent lead-acid models. The compact design (12.9×6.8×8.5″) fits standard battery boxes.