Three Phase 100-1800 Kvar Iron Core Dry Type High Voltage Series Harmonic Filter Reactor Capacitors Reactor Transformer
High-Voltage Series Filter Reactor 6-35KV | Iron Core Dry-Type Harmonic Suppression & Capacitor Protection
Three-phase 6-35KV high-voltage filter reactor with 6%/12% reactance, H-class insulation, and 1.8In linearity. Ideal for harmonic control, inrush current limitation, and industrial power systems.
Product Overview
The Tysen-KLD Series high-voltage iron core dry-type reactor is designed for 6–35KV power systems to suppress harmonics, limit capacitor inrush currents, and stabilize grid voltage. Featuring 1.8In linearity, H-class epoxy-impregnated insulation, and low-loss silicon steel cores, this reactor ensures reliable performance in demanding environments while complying with IEC76 and VDE0523 standards.
Core Features
- ✅ High Linearity: Operates without saturation up to 1.8In, ensuring stable inductance under overload.
- ✅ Low Noise & Vibration: Silicon rubber shock-absorbing pads reduce noise to <65dB.
- ✅ Robust Construction: Vacuum-impregnated H-grade epoxy coils withstand thermal shocks and partial discharges.
- ✅ Flexible Configuration: 6–35KV voltage range, 6% or 12% reactance (customizable).
Technical Specifications
| Parameter | Specification |
|---|---|
| Rated Voltage | 6KV, 10KV, 35KV |
| Capacity | 100–1800 kvar (Scalable) |
| Reactance Rate | 6%, 12% (Custom Rates Available) |
| Linearity | 1.8In (No Magnetic Saturation) |
| Insulation Class | H-Class (Epoxy Vacuum Impregnation) |
| Cooling Method | Air Cooling (IP00 Indoor Rating) |
| Overcurrent Capacity | 1.8In Continuous Operation |
| Design Parameters | Uh1=106%, Uh3=0.5%, Uh5/7=5% |
| Ambient Temperature | -40°C ~ +45°C (T40/B Rated) |
Applications
- Industrial Power Grids: Mitigate 5th/7th harmonics in steel mills and petrochemical plants.
- Renewable Energy Farms: Stabilize voltage fluctuations in solar/wind farms.
- Capacitor Banks: Limit inrush currents and prevent resonance in LC circuits.
- Urban Substations: Compact design for space-constrained installations.
Why Choose This Reactor?
- Advanced Core Design: Cold-rolled silicon steel sheets with air gaps for minimal eddy current loss.
- Durability: Water-resistant epoxy coils operate reliably in humid or dusty environments.
- Low Maintenance: Dry-type construction eliminates fluid leaks and cooling system upkeep.
- Global Compliance: Meets IEC, VDE, and ANSI standards for industrial safety.
Structural Advantages
- Core Material: High-precision low-loss silicon steel, stamped for uniformity and low noise.
- Vibration Reduction: Epoxy pads and silicone rubber dampers minimize operational vibrations.
- Thermal Stability: Withstands 120°C+ temperatures without insulation degradation.
