With This Battery You Can Power Up…

🏠 Home Backup

Upgrade your home energy storage with 10kWh capacity, support up to 16 batteries in parallel — ideal for household backup.

🚐 RV & Cabins

Reliable off-grid power for RVs, tiny houses, and remote cabins. Keep your essential appliances running smoothly anywhere.

⛵ Marine & 5th Wheel

Safe, long-lasting LiFePO4 power for marine applications and fifth-wheel trailers, ensuring stable energy on the move.

Safe  Reliable

Utilizes LiFePO4 chemistry, known for its superior thermal and chemical stability

Built with A+ grade cells, 6000+ cycles @ 80% DOD，offering low risk of overheating or fire

Features multiple protection mechanisms: over-voltage, over-current, short circuit, temperature, and more

Smart Management System

Equipped with advanced BMS (Battery Management System)

Real-time monitoring of voltage, current, temperature, and state of charge

Supports RS485/RS232/CAN communication, seamlessly integrates with major inverter brands

Automatically balances cells to maximize battery lifespan and efficiency

Flexible & Scalable

Wall-mounted & modular design saves space and supports parallel expansion

Wide compatibility with off-grid and hybrid solar systems

Perfect for residential backup, small commercial setups, telecom, and off-grid cabins

Silent, maintenance-free operation — ideal for indoor installation

FAQ

1. What is the safe charge and discharge voltage range?
Nominal voltage is 51.2 V, made from 16 cells (3.2 V nominal each).
Full charge (max) is 58.4 V → ~3.65 V per cell.
Discharge cutoff (min) is 40 V → ~2.5 V per cell 

2. What are the standard and maximum currents?
Standard charge/discharge: 50 A (≈ 0.25 C).
Max continuous charge/discharge: 100 A (≈ 0.5 C), only at temperatures ≥ 10 °C(51.2V-300Ah is 200A)
BMS will shut off charging/discharging beyond the limits.

3. Can I fast-charge this battery?
Fast charging within the design specs (up to 0.5 C) is acceptable. Going above can stress the battery, reduce cycle life, or trigger BMS protection 

4. What temperature conditions must I follow?
Charging: 0 °C to 45 °C; Discharging: –20 °C to 55 °C; Storage: –10 °C to 45 °C (short‑term: –20 °C to 65 °C).
Do not charge below 0 °C (risk of lithium plating). Warm the cells to about 5 °C first if below freezing 

5. What is the expected lifespan of this battery?
Rated at ≥ 6000 cycles at 80% depth of discharge and 25 °C. Typical lithium‑iron‑phosphate cells last 2,500–9,000+ cycles depending on use 

6. How do I monitor SOC and cell balance?
BMS performs passive balancing automatically when a cell hits ~3.40 V.
SOC LED indicators show ranges: 0–25%, 25–50%, 50–75%, ≥ 75%.
LCD shows voltage, current, temperature, and balance status.

7. Can I wire multiple batteries for higher voltage or capacity?
Series wiring is not recommended unless done by the manufacturer.
To expand capacity or voltage, it’s safer to use fully compatible modules managed by same-series BMS (max 16 units parallel).
Improper series/parallel wiring may cause imbalance, risk, or invalidated warranty 

8. Can I use a lead‑acid charger to recharge?
No. Lead‑acid chargers operate at lower voltages (≈ 2.3–2.45 V per cell), which results in undercharging and no proper balance—this shortens life and affects capacity. Use a charger designed for LiFePO₄ chemistry (≈ 3.6–3.65 V per cell) 
.

9. Is this battery safe? What about fire risk?
LiFePO₄ chemistry offers higher thermal and chemical stability versus other lithium-ion types.
It’s significantly more resistant to thermal runaway; cell thermal runaway occurs at around 220–240 °C, much higher than NMC‐type cells (~160–230 °C) 
Still, avoid physical damage, overcharging, and exposure to extreme temperatures.
Don’t leave it charging unattended, and use only manufacturer-approved chargers and equipment.

Pro Tip: To maximize battery life:
Keep discharge depth ≤ 80% (avoid full cycles regularly).
Operate and store at moderate temperatures (~25 °C ideal).
Avoid charging below freezing, and don’t overcharge beyond cutoff voltages.