5-30KWH Stacked Lithium Batteries
High Capacity & Stackable Design:
Energy Output: Operates at 51.2V nominal voltage with a 200AH capacity, delivering 10.24kWh of energy-enough to power a medium-sized home's essentials (HVAC, refrigeration, lighting) for 12–24 hours, or support commercial equipment (servers, small machinery) during extended outages.
Modular Stacking: Designed to stack vertically or horizontally, with interlocking brackets and standardized connections. Each unit measures ~45cm × 30cm × 20cm and weighs ~50kg, allowing 2–6 units to be stacked (up to 61.44kWh) without requiring additional floor space-ideal for utility rooms, basements, or commercial storage areas.
LiFePO4 Durability & Performance:
Long Lifespan: 3000–6000 deep cycles (at 80% depth of discharge) with ≥80% capacity retention after 10+ years-outlasting lead-acid batteries by 5–10x and reducing replacement frequency, even in high-usage scenarios.
Strong Power Delivery: Supports continuous discharge currents of 200A (10.24kW) and peak surges up to 400A (20.48kW) for 10–15 seconds, easily handling high-demand devices like air conditioners, pumps, or 51.2V inverters converting to AC power.
Advanced Safety & Smart Management:
Integrated BMS: A centralized Battery Management System (BMS) monitors each stacked unit's voltage, current, and temperature, balancing cells across the stack to prevent uneven wear. It protects against overcharging, over-discharging, short circuits, and thermal runaway-critical for multi-unit setups.
Fire-Resistant Construction: LiFePO4 chemistry is non-flammable, and the stackable casing uses flame-retardant materials (UL94 V-0 rated) to minimize fire risks. Ventilation channels between stacked units dissipate heat, maintaining optimal operating temperatures (-20°C to 60°C).
- What are the advantages of lithium iron phosphate batteries?
They have good thermal stability, high safety, and long cycle life.
- What is the chemical structure of lithium iron phosphate batteries?
It consists of lithium iron phosphate as the cathode material.
- How does the performance of lithium iron phosphate batteries in high - power applications?
They can handle high - power demands well due to their stable structure.
- Are lithium iron phosphate batteries more stable in terms of thermal management?
Yes, they have better thermal stability compared to some other lithium battery chemistries.
- What is the charging and discharging efficiency of lithium iron phosphate batteries?
They have relatively high efficiency in both charging and discharging processes.
- How do lithium iron phosphate batteries compare in terms of lifespan to other lithium batteries?
They often have a longer lifespan under normal usage conditions.
