Solution Overview
RePower's battery series connection formation & grading system is an energy-saving and efficient production line solution. The self-developed switching unit can be arbitrarily connected in series and the single channel is independent with higher sampling accuracy and quicker response time.
High frequency and high voltage power module
Independently developed high frequency and high voltage power module, using high frequency silicon carbide technology, small size, high power density; Applicable to different layout requirements of the production line, the power part can save more than 50% space.
Switchboard
The switchboard supports any number of series, the maximum number of series can be supported up to 120 series. Single channel independent control of switching board, fast acquisition/judgment, fast disassembly and replacement.
Core Technology

RePower is the first company in industry to adopt the high-frequency Sic tech, which can make the equipment size smaller and the power density higher. It is convenient to install and maintain the equipment, and also help battery factories to reduce the costs and improve the products quality.
Solution Advantages

High voltage series system

The equipment adopts high voltage series system, up to 1500V busbar technology. High voltage modules such as 200V, 400V and 600V have been launched

High cell consistency

The current of the series circuit is highly consistent, effectively improving the consistency of the cell;


Small space volume

High frequency silicon carbide technology, small size, high power density, power part can save 50% space;



High equipment efficiency

High voltage module, charge and discharge efficiency increased by more than 30%, save a lot of electricity costs.

Low wire cost

The high-voltage series scheme can greatly simplify the cable, reduce the cost and loss of wire, and reduce the debugging workload by more than 50%.

Heat energy recycling

The thermal energy cycle technology is adopted to realize the stable operation of the power supply under high temperature environment, and realize the heat recovery and utilization of the power supply synchronously.

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