Low-Voltage Static Reactive Power Compensation System

Description

The  Low-Voltage Static Reactive Power Compensation System is designed to provide reactive power support for inductive loads in low-voltage power distribution networks. By compensating the reactive current in the system, it significantly improves the power factor, enhances power quality, reduces transmission losses, and suppresses voltage fluctuation.

This system increases transformer and feeder utilization efficiency, protects electrical equipment by reducing operational stress, and extends service life. By stabilizing the power factor, it effectively reduces reactive power penalties imposed by utilities, helping users achieve both energy-saving benefits and lower operational costs.

It fully supports national initiatives for energy conservation and sustainable development while ensuring stable, efficient, and reliable power delivery.

Model Code Description

Example: HYTBBJL-0.4-□/□W-P7

Product Features

• Uses power factor (reactive current) control, supporting both manual and automatic modes
• Multiple switching modes available: loop switching, group switching, sequential switching, etc.
• Real-time monitoring of three-phase voltage, current, power factor, and compensation status
• Fast switching response with adjustable capacitor switching delay (0–120s); special fast mode available ≤1s
• Complete protection functions including over-voltage, under-voltage, over-current, short circuit, capacitor fault, switching error protection
• Effectively suppresses voltage fluctuation and reduces harmonic current (typ. 20%–30%)
• High cost-performance ratio with stable operation, particularly applicable to most power distribution systems requiring fixed/static compensation

Application Fields

• The HYTBBJ static reactive power compensation system is designed for safety and reliability, suitable for:
• Steel smelting | Heating furnaces | High-frequency furnaces | Cement industry | Food processing | Ceramics | Motors | Welding | Electroplating | Elevators | Electric rail systems | Residential communities | Commercial buildings | Public facilities
• It is ideal for inductive loads with relatively stable reactive power demand.