Energy storage variable flow boost integrated cabin

Product overview

The energy storage converter and boost integrated module includes converter system, substation system, photovoltaic system and charging system. Energy conversion between energy storage batteries, photovoltaic and power grid. In the low period of electricity consumption, wind power and photovoltaic power can be stored in the battery unit, and in the peak period or in the case of power loss, it can be used as power supply to effectively solve the volatility and time period of new energy generation such as wind and light, improve the utilization efficiency of renewable energy, and peak load and valley filling of the power grid system. At the same time, the integrated compartment integrates the function of vehicle charging pile, which can provide a stable, efficient and reliable charging power supply for new energy vehicles.

Product characteristics

The energy storage converter flow boost integrated module is mainly composed of high and low voltage unit, local monitoring unit, energy storage two-way converter unit, access control unit, heat dissipation unit, fire fighting unit and lighting unit. The product integrates DC inverter and AC voltage boost function, integrated energy storage system, industrial design concept, and adopts the standard 10 feet / 20 feet prefabricated (capable structure, beautiful appearance, convenient installation and simple debugging. The unique design is suitable for high altitude, cold, seaside, desert and other complex harsh environments. The product adopts cell level intelligent temperature control, effectively improving the system efficiency and battery cycle life. Through modular design, it can automatically and balance management, which is conducive to system expansion and control system. The product is equipped with multiple status monitoring, and the hierarchical linkage design can fully guarantee the safety of the battery system. PACK class fire design can give timely warning and accurately locate faults in the primary stage of thermal runaway.