One of the main functions of HY series capacitors is to provide reactive power compensation. By improving power factor, it ensures electrical systems run more efficiently, reducing energy losses and lowering utility costs. This is particularly important in industrial environments, where large machinery and equipment can impose significant reactive power demands. The HY Series capacitors alleviate these demands, allowing for smoother operation and increased productivity.

In addition to reactive power compensation, HY series capacitors also have the ability to suppress harmonic distortion. Harmonics can cause a variety of problems, including equipment overheating, increased losses in transformers and motors, and even premature failure of electrical components. By leveraging advanced technology, HY Series capacitors actively filter out harmful harmonics, thereby improving the overall quality of the power supply. This not only protects sensitive equipment but also increases the reliability of the entire electrical system.

The HY series offers a variety of compensation methods to meet different operational needs. With three-phase compensation (models HYBAGK and HYBAGK-A) and split-phase compensation (model HYBAFK) options, users can choose the configuration that best suits their specific application. This flexibility ensures that the HY Series capacitors can be seamlessly integrated into a variety of power systems, making them an ideal solution for a variety of industries including manufacturing, commercial buildings and renewable energy facilities.

HY series capacitors offer reactance ratios of 7% or 14%, allowing performance to be customized to the unique requirements of the grid. This adaptability not only increases the capacitor’s effectiveness against harmonics, but also ensures optimal reactive power compensation. By investing in the HY series of intelligent combined anti-harmonic low-voltage power capacitors, companies can significantly improve energy efficiency, equipment life and overall operating performance.