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
Static var generators (SVGs), as core equipment in modern power quality management, are widely used in industrial, commercial, and public power distribution systems due to their millisecond-level response, continuous adjustability, and bidirectional react
It integrates components such as filter capacitors, reactors, switching devices, and intelligent controllers, and enables rapid installation and maintenance through standardized interfaces.
In the low-voltage power distribution systems of modern industrial and commercial buildings, the presence of reactive power not only reduces grid efficiency but also causes voltage fluctuations, equipment overheating, and even energy waste.
In modern power systems, with the widespread use of nonlinear electrical devices such as inverters, switching power supplies, LED lighting, and UPS (uninterruptible power supplies), power quality issues within the power grid are becoming increasingly prom
