产品应用 绿色交通 能源存储
CN
CN

POWER TOWARDS A SUSTAINABLE FUTURE

The products of energy storage have been widely used in numerous areas including smooth output of renewable energy, grid frequency modulation, communication base station, commercial and industrial building and household energy storage. It can also meet the requirements for adjusting new energy smoothing, compensating for line loss power and tracking the planned peak shaving and valley filling in order to achieve maximum utilization of new energy.

Product System

Cell

Module

Electric Box

Battery Cabinet

Load Adjustment and Smooth New Energy

By introducing the matching lithium battery energy storage system, output fluctuations of wind or PV power generation can be smoothed.It overcomes the irregular output problems and improves the utilization rate of PV and wind power generation systems.


Power Compensation and Line Loss Compensation

In the valley period, the battery energy storage system performs energy storage as the load; in the peak period, it performs energy release as the power supply, solving problems including low utilization of the electric equipment in the valley period and lack of load of electric equipment in the peak period. Besides, in case of local failure of the transmission network, the energy storage can be utilized to supply power continuously to ensure normal transmission of power.

Save Cost Through Peak Shaving and Valley Filling

Industrial and commercial energy storage: As the energy storage device, the lithium battery unit achieves AC/DC power conversion and power flow control through the Power Control System (PCS). The AC sides of multiple PCS conflux into the bus bar parallel with each other at a low voltage, and merge into the power grid through the transformer at the power distribution room.

Emergency Power Supply Is Well Prepared

Communication base station: The battery pack will stay in the floating charge state when the alternating current (AC) is used normally. When there is a power failure of AC, the battery pack will discharge until there is electricity again or the power of the battery pack has been used up. The battery pack will charge and reserve the electricity after the power supply restores.

Generation Transmission & Distribution; Utilization
Capacity Chemistry Nominal Voltage(V) Operating Voltage
Range(V)
Operating Temperature
Range
Maximum Continuous Charge Rate Maximum Continuous Discharge Rate
240Ah LFP 3.2V 2.5V~3.65V -30°C~55°C 1C 1.5C
120Ah LFP 3.2V 2.5V~3.65V -30℃~55℃ 1C 1C
92Ah LFP 3.2V 2.5V~3.65V -30℃~55℃ 2C 2C
Capacity Chemistry Nominal Voltage(V) Operating Voltage
Range(V)
Operating Temperature
Range
Maximum Continuous Charge Rate Maximum Continuous Discharge Rate
240Ah LFP 3.2V 2.5V~3.65V -30°C~55°C 1C 1.5C
120Ah LFP 3.2V 2.5V~3.65V -30℃~55℃ 1C 1C
92Ah LFP 3.2V 2.5V~3.65V -30℃~55℃ 2C 2C
Capacity Chemistry Nominal Voltage(V) Operating Voltage
Range(V)
Operating Temperature
Range
Maximum Continuous Charge Rate Maximum Continuous Discharge Rate
240Ah LFP 3.2V 2.5V~3.65V -30°C~55°C 1C 1.5C
120Ah LFP 3.2V 2.5V~3.65V -30℃~55℃ 1C 1C
92Ah LFP 3.2V 2.5V~3.65V -30℃~55℃ 2C 2C