Core Structural Design

The HCR reactor features an iron shell construction with a stationary iron core, ensuring minimal magnetic losses and mechanical stability under high-voltage stress. This robust design prevents core saturation during transient overloads, making it ideal for harsh industrial environments.

Electrical Specifications

Advanced Features

Integrated Current Transformer

Equipped with a built-in compensation current transformer for real-time monitoring and control. This enables precise reactive power compensation without external sensing devices.

Performance Metrics

• Linearity: <+1% deviation across full operational range

• Acoustic Noise: <70dB (measured at 4m distance)

• Phase Configuration: Single-phase design

Industrial Applications

Power Factor Correction

Compensates inductive loads in 3kV distribution networks, improving system efficiency by up to 15%.

Harmonic Filtering

Suppresses 5th and 7th order harmonics in variable frequency drives (VFDs) and industrial motor systems.

Renewable Energy Integration

Stabilizes grid connections for solar/wind farms operating within 30-300Hz frequency ranges.

Installation & Maintenance Guidelines

1. Mount vertically in well-ventilated enclosures (ambient temp ≤40°C)

2. Verify torque specifications on core clamping bolts quarterly

3. Perform IR testing annually (min 5kV DC isolation resistance)

4. Monitor CT output signals via Modbus RTU protocol

"HCR series reactors reduce transmission losses by 12-18% in 3kV substations when deployed in capacitor banks." -IEEE Power Engineering Journal

Compliance & Standards

• IEC 60289: Reactor performance testing

• EN 60076-6: Reactor thermal limits

• ANSI C57.12.01: Safety requirements