Standing/Wheeled Large Power LiFePO4 Battery
Experience unparalleled energy storage with our advanced Standing and Wheeled LiFePO4 Battery solutions. Engineered for maximum efficiency and durability, these high-capacity power systems are perfect for both residential and commercial applications.
Smart App with Bluetooth function, Scalable up to 300kwh in parallel, Compatible with most leding inverters, IP20/IP65 water proof
Big Touch Screen with multi language option, 15pcs parallel supported
New Design with long lighting strip, Enhanced usability with visual and interactive user experience.
Capacity available with 14kwh 15kwh 16kwh 20kwh, meet 95% energy demand for daily power usage
Battery Specifications
Our high-performance battery solutions are designed to meet various energy storage needs with optimal efficiency and reliability.
| Specifications | BPS-14kWh | BPS-15kWh | BPS-16kWh | BPS-20kWh |
|---|---|---|---|---|
| Battery Energy | 14kWh | 15kWh | 16kWh | 20kWh |
| Nominal Voltage | 51.2V | 51.2V | 51.2V | 51.2V |
| Rated Capacity | 280Ah | 300Ah | 314Ah | 400Ah |
| End-of-Charge Voltage | 58.0V | 58.0V | 58.0V | 58.0V |
| End-of-Discharge Voltage | 42.0V | 42.0V | 42.0V | 42.0V |
| Max. Charge Current | 100/200A | 100/200A | 100/200A | 100/200A |
| Max. Discharge Current | 200A | 200A | 200A | 200A |
| Communication | RS485/CAN | RS485/CAN | RS485/CAN | RS485/CAN |
| Size (mm) | 420×240×830mm | 470×250×690mm | 420×240×830mm | 510×293×970mm |
| Weight (kg) | 113kg (approx) | 115kg (approx) | 113kg (approx) | 147kg (approx) |
Key features of standing/wheeled LiFePO4 Battery
LiFePO4 batteries offer superior performance with longer lifespan, enhanced safety, and consistent power output, making them ideal for both stationary and mobile energy storage solutions.
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High Energy Capacity
Provides ample energy storage for prolonged usage, suitable for residential or commercial backup systems.
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Mobility Options
Wheeled design offers easy transportation and repositioning, enhancing flexibility in deployment.
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Integrated BMS
Ensures safety by managing charge/discharge cycles, preventing overcharging, and monitoring battery health.
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Scalability
Allows parallel connection to increase total capacity, catering to expanding energy storage needs.
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Fast Charging
Supports rapid charging capabilities, minimizing downtime and maximizing availability.
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Durable Construction
Robust casing protects against environmental elements, ensuring longevity and reliability.
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User-Friendly Interface
Equipped with displays for real-time monitoring of battery status and charge levels.
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Efficient Thermal Management
Built-in systems to manage heat dissipation, maintaining optimal performance.
How long a 16kWh LiFePO4 Battery last in our daily life?
Understanding your home's energy consumption is crucial when considering a battery backup system. A 16kWh LiFePO4 battery provides reliable power storage that can support your essential appliances during outages or help reduce grid dependency.
Example: Typical Household Daily Power Consumption
| Appliance | Power Rating | Daily Usage | Energy Used (kWh/day) |
|---|---|---|---|
| LED lighting (whole house) | 200 W | 5 hours | 1.0 |
| Refrigerator | 150 W | 24 hours | 1.2 |
| Television | 120 W | 4 hours | 0.5 |
| Wi-Fi router | 15 W | 24 hours | 0.36 |
| Washing machine | 500 W | 1 hour | 0.5 |
| Microwave | 1,000 W | 20 minutes | 0.33 |
| Phone & laptop charging | — | — | 0.5 |
| Total Daily Consumption | ≈ 4.5–5.0 kWh | ||
In this case, a 16 kWh battery can supply electricity for about 3 days.
Higher-Usage Household (With Air Conditioner)
| Appliance | Energy Used (kWh/day) |
|---|---|
| Air conditioner (1.5 HP, 6 hours) | 6.0 |
| Other household appliances | 5.0 |
| Total Daily Consumption | ≈ 11 kWh/day |
A 16 kWh lithium battery can still cover one full day of electricity usage.
A 16Kwh with 314ah cell become more economic, safer and life longer?
Discover how the latest generation of LFP batteries delivers superior performance and longevity
Many current 16 kWh LFP systems incorporate 314Ah cells, which fit into a nearly identical physical size as the previous generation 200Ah cells used in 10 kWh setups, though they are slightly thicker.
Here's the difference:
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They offer approximately 60% more energy availability
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Yet only cost around 20% more
Significantly, these differences become apparent under operational stress. As home inverters have advanced quietly to manage 8–10 kW, consider the performance comparison:
For 10 kWh systems using 200Ah cells:
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Charging rate ≈ 0.75C
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Discharging rate ≈ ~1C
For 16 kWh systems using 314Ah cells:
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Charging rate ≈ 0.47C
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Discharging rate ≈ 0.63C
The inverter remains unchanged, but the battery experiences substantially different stress levels.
Why the reduced stress is more crucial than mere capacity:
A lower C-rate translates to:
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Reduced heat generation
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Decreased mechanical wear
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Significantly extended battery lifespan
Empirical LFP data indicates:
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At a 0.3C rate, LFP cells can surpass 12,000 cycles while retaining over 80% of their capacity
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Conversely, at a 1C rate, the cycle life typically decreases to around 3,000 cycles
Factory Production Showcase
Explore BEVAULT's advanced manufacturing facilities spanning over 10,000 square meters. Our state-of-the-art factory features fully automated and semi-automated production lines delivering high-quality energy storage solutions to 50+ countries worldwide.
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At BEVAULT, We turn complex Into Simple! Follow the following 3 steps to start today!
Tell Us What You Need
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Get Solution & Quote
We will work on the best solution according to your requirements and drawing, the specific quote will be provided within 24 hours.
Approve for Mass Production
We will start mass production after getting your approval and deposit, and we will handle the shipment.