In the power systems of modern industrial, commercial buildings, and public facilities, power quality directly affects equipment lifespan, operating efficiency, and energy costs.
Active power filters (APFs), as a type of power electronic device that dynamically suppresses harmonics and compensates for reactive power, exhibit unique advantages in managing interharmonics.
Low-voltage static var generators (SVGs), by eliminating capacitor banks and adopting fully controlled power electronics technology, not only completely avoid the fatal flaw of traditional LC resonance compensation methods, but also, with millisecond-leve
The high-voltage smart capacitor bank has emerged to address this need. It deeply integrates high-reliability capacitor units, intelligent measurement and control modules, and fast switching switches.
The low-voltage static var generator (SVG), with its millisecond-level response, continuous adjustability, and bidirectional compensation capabilities, has become the core equipment for the next generation of dynamic reactive power compensation.
As the core device for dynamic harmonic mitigation, the key capability of the low-voltage active power filter (APF) lies in its ability to quickly and accurately control the AC current in a complex and variable harmonic environment, generating a compensat
