Charging module - the "heart" of charging piles: technology iteration is accelerating, and four core components drive industry upgrades

With the global number of new energy vehicles exceeding 40 million, charging infrastructure is ushering in a technological revolution with "charging module as the heart of charging piles" as the core. As the "heart" of DC charging equipment, the performance of the charging module directly determines the efficiency and safety of the charging pile. According to the latest report from BloombergNEF, the charging module market growth rate is expected to reach 32% in 2024, among which the four core components - AC-DC charging module, DC-DC charging module, liquid-cooled power module and bidirectional power module - have become the core driving force for industry upgrades.
AC-DC charging module: flexible and adaptable power conversion core
A variety of power options are available, using silicon carbide technology, peak efficiency up to 97.5%, silent operation, glue-filled protection, and high reliability to adapt to multiple scenarios.
DC-DC charging module: the "power engine" of high-voltage fast charging
The high-voltage fast-charging module based on silicon carbide achieves stable output through innovative current balancing technology, empowers high-power fast-charging piles, and provides efficient energy replenishment solutions for logistics vehicles, heavy trucks and other operating vehicles.
Liquid-cooled power module: Breaking the bottleneck of high-power heat dissipation
The super-charged liquid cooling solution adopts efficient heat dissipation technology, and the silent design is suitable for space-sensitive scenarios, breaking through the heat density limit, and maintaining stable operation in extremely high temperature environments.
Bidirectional power module: "smart bridge" for vehicle-grid interconnection
In charging stations equipped with energy storage systems, this module can help operators obtain profits through peak-valley electricity price differences, while providing frequency regulation services for the power grid, and may become the core component of future smart microgrids.