By utilizing the low-voltage ride-through capability of photovoltaic inverters, voltage support can be provided during grid faults to prevent system collapse.

In modern industrial and public utility power systems, AC low-voltage cabinets are not only the core hub of power distribution but also crucial equipment for ensuring power supply security and improving operational efficiency.

As the core hub connecting photovoltaic power plants and the power grid, photovoltaic box-type substations are evolving from traditional "distribution nodes" to "intelligent interfaces."

As one of the core components of the medium- and high-voltage distribution systems in prefabricated substations, the indoor AC high-voltage sulfur hexafluoride ring main unit switchgear.

With its safety, reliability, environmental adaptability, low maintenance costs, and high level of intelligence, fully enclosed gas-insulated ring main unit switchgear has become a core component for upgrading urban distribution networks.

In high-load, continuously operating industrial scenarios, low-voltage withdrawable switchgear cabinets are not only the "hub" of power distribution but also the "guardian" of production continuity and safety.