The dynamic integrated compensation device integrates APF/SVG modules and HYBAGK anti-harmonic technology, providing multifunctional solutions such as harmonic suppression, reactive power compensation and three-phase unbalance correction. It has a user-friendly interface, real-time monitoring and modular scalability to ensure reliable operation in industrial and large-capacity distribution systems.

The dynamic integrated compensation device combines advanced APF/SVG modules and HYBAGK anti-harmonic technology to meet the complex power quality challenges in modern industrial and commercial environments. Designed for distribution rooms and heavy-load environments, it excels in large-capacity Reactive Power Compensation and can effectively suppress harmonic distortion that interferes with grid stability. The scope of application covers manufacturing plants, data centers, and renewable energy facilities, where fluctuating loads require precise voltage regulation and energy efficiency optimization. By dynamically adjusting to grid conditions, energy losses can be minimized, equipment life can be extended, and compliance with strict power quality standards can be ensured.

Modular architecture is at the core of the design concept, enabling seamless integration into existing infrastructure without significant downtime. Each APF/SVG unit can operate independently and work together, allowing for phased deployment or expansion as operational needs change. Flexibility reduces installation complexity and maintenance costs when transforming aging power systems. The plug-and-play design simplifies upgrades, and rugged components can withstand harsh industrial environments to ensure uninterrupted performance.

Advanced operator interface enables fine control of reactive compensation parameters and system diagnostics. Real-time data visualization tools track harmonic spectrum, load imbalance and compensation efficiency, and automatic alarms flag abnormal conditions such as voltage sag or harmonic overflow. Event logs and fault records simplify troubleshooting and enable rapid root cause analysis. Customizable settings are suitable for a variety of grid configurations from low-voltage workshops to high-voltage substations, ensuring a tailored solution for each application scenario.

HYBAGK anti-harmonic modules use adaptive filtering algorithms to offset high-frequency distortion generated by nonlinear loads such as inverters and arc furnaces. Unlike passive filters, this active compensation technology can dynamically eliminate harmonics up to the 50th order, and can keep total harmonic distortion (THD) below 5% during load surges, protecting sensitive equipment from overheating and resonance risks, improving transformer utilization, and is suitable for Reactive Power Compensation.