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Sunway 48V 52Ah 2.5Kwh 10Kwh 20Kwh High Voltage European Warehouse Racked Lithium Battery

Sunway 48V 52Ah 2.5Kwh 10Kwh 20Kwh High Voltage European Warehouse Racked Lithium Battery

New Arrival 51.2V 2.5kWh 5kWh 10kWh 20kWh Sunway Stack Lithium Battery Energy Storage Battery

Model Number:SW48B-HV-2500
Capacity:2.5-20KWH
Battery Rated Voltage:48-384V
Dimensions(mm):580*220*202.5
Weight(kg):23.5

Features of high voltage racked lithium battery

1.High voltage
2.High energy
3.Long cycle life
4.Good safety performance
5.Easy to move;
6.Remote control;
7.Modular design, capacity/power can be freely selected;

Model
SW48B-HV-2500
Units
1Unit
2Unit
4Unit
8Unit
Battery Type
LiFePO4
Typical Capacity (Ah)
52Ah
Typical Voltage (V)
48V
96V
192V
384V
Connection
1P15S
1P30S
1P60S
1P120S
Voltage Working Range (V)
43.95~53.25V
87.9~106.5V
175.8~213V
351.6~426V
Nominal Energy(kWh)
2.5kWh
5kWh
10kWh
20kWh
 
 
Working Temperature(°℃)
 
 
Charge:0℃~+55°C,
 
Discharge:-20℃~+60℃
Storage Temperature(℃)
-20℃~+35℃
Max. Charge Current(A)
35A
Max. Discharge Current(A)
35A
Cycle Life
>=6000
SOC Accuracy
<8%
Weight(kg)
23.5kg
47kg
94kg
188kg
Dimensions(D*W*H)
580*220*202.5mm
580*220*510mm
580*220*850mm
580*220*1530mm
Certifications
CE,EMC,UN38.3
IP Grade
IP65

Home Power Storage Brick Battery uses the latest HVLL( High Voltage Less Loss) technology to efficiently utilize the
electricity stored in lithium batteries by reducing normal consumption in power transmission. The higher voltage, the lower
current and the less losses of the internal resistance, so the battery generates less heat at high power than at low power.

Lithium-ion battery is a kind of secondary battery that uses lithium-containing compound as positive electrode. The interior of a lithium-ion battery is mainly composed of a positive electrode, a negative electrode, an electrolyte and a separator.
Lithium-ion batteries work primarily by the movement of lithium ions between the positive and negative electrodes. During the charging and discharging process, Li+ intercalates and deintercalates back and forth between the two electrodes: during charging,Li+ is deintercalated from the positive electrode, intercalated into the negative electrode through the electrolyte, and the negative electrode is in a lithium-rich state; during discharge, the opposite is true.

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