48v 200ah 10KWH Grade A Lithium Phosphate Solar Batteries Pack With BMS

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Technical Specifications & Installation Manual Datasheet

48v 200ah 10KWH Grade A Lithium Phosphate Solar Batteries Pack With BMS


LPBA series batteries are made of Grade-A cells, lithium iron phosphate materials, built-in BMS, up to 12 units in parallel, with multiple certificates (UN38.3, CE, MSDS, etc.)
Capacity
10KWH
Cycle life
>6000 @ 25℃
Charge voltage
57.6V
Ingress Protection
IP21
Net weight
70.5KG

Product Advantages:

1. Iron Phosphate-lithium power battery

2. Long warranty period: 10 years

3. Higher energy density,smaller volumn for household.

4. Support Connected in parallel mode for expansion.

5. Photovoltaic system:this battery pack is designed for household photovoltaic systems.

6.Built-in BMS(Battery Management System).

7.Floor or power wall mount for simple installation.

8.Support up to 12 LPBA batteries in parallel.

 

Model
LPBA48200
LPBA48170
Capacity
10KWH
8700WH
Voltage
48V
48V
Rated voltage
51.2V
51.2V
Charge voltage
57.6V
57.6V
Discharge Voltage range
48-57.6V
48-57.6V
Max charge & discharge current
100A@30S
120A@30S
Rated charge & discharge current
50A
80A
Modules connection
1-12 in parallel
Ingress Protection
IP21
Cycle life
>6000 @ 25℃
Working Temperature range
-10℃-50℃
Net weight
70.5KG
70.5KG
Dimension
755*600*160MM
755*600*160MM

 

Product Details

  • The battery design ideas in different application scenarios are different. Common application scenarios include self-generated and self-consumption (high electricity bills or no state subsidies), peak-to-valley electricity prices, and backup power (unstable power grids or important loads).
  • Self-generated and self-consumption: Choose to select the battery capacity based on the average daily electricity consumption (kWh) of the household (the default photovoltaic system has sufficient electricity).
  • Peak-valley electricity price: Calculate the maximum demand value of battery capacity according to the total electricity consumption during the peak period. Then according to the capacity of the photovoltaic system and the benefit of the investment, an optimal battery power is found within this range.
  • Backup power supply: The total power consumption when off-grid and the estimated off-grid time are the most critical parameters. The required battery capacity is finally determined according to the maximum load power and the power consumption during the longest continuous power outage.

 

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