SVG Line Reactor
2.altitude:1000m or less.
3. the highest monthly average relative humidity: 95% or less.
4. the highest temperature: +45 °C.
5. the lowest ambient temperature: -10 °C.
6. the maximum daily temperature difference: 25 °C.
7. seismic intensity: 8 degrees.
8. installation requirements: indoor.
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Product Introduction
SVG Line Reactor - High-Performance Reactive Power Solution
Product Introduction
When you're dealing with complex power quality challenges, our SVG Line Reactor delivers unmatched performance and reliability. This specialized inductive component integrates seamlessly into Static Var Generator systems, providing essential impedance buffering between your power grid and inverter modules. Our SVG Line Reactor handles high-frequency IGBT switching up to 20kHz while maintaining exceptional linearity and thermal efficiency. You get superior harmonic suppression, protection against switching transients, and compliance with international power quality standards.
Designed for demanding industrial environments, this reactor ensures your reactive power compensation system operates smoothly. You'll experience reduced maintenance costs and improved system longevity.
Technical Specifications
| Parameter | Specification |
|---|---|
| Voltage Range | 0.4kV, 6kV, 10kV |
| Altitude | ≤1000m |
| Humidity | ≤95% monthly average |
| Operating Temperature | -10°C to +45°C |
| Daily Temperature Difference | ≤25°C |
| Seismic Rating | 8 degrees |
| Installation | Indoor |
| Inductance Linearity | >95% at 150-200% rated current |
| Insulation Class | H (180°C) or C (220°C) |
| Frequency Range | 50/60Hz + harmonics up to 20kHz |
| Standards Compliance | IEC 60076-6, IEEE C57.16, UL 508 |
Main Features and Advantages
Superior Magnetic Performance
You benefit from our multi-gap core design using premium silicon steel laminations. This prevents magnetic saturation and maintains consistent inductance even during peak demand cycles.
Advanced Thermal Management
Our foil winding technology eliminates hot spots and provides excellent heat dissipation. You'll see significantly lower temperature rise compared to conventional reactors.
High-Frequency Optimization
Specially engineered for PWM switching environments, our reactor minimizes eddy current losses and maintains efficiency across the entire frequency spectrum.
Robust Construction
Reinforced clamping mechanisms handle electro-mechanical forces during rapid switching. You get reduced audible noise and enhanced mechanical stability.
Quality Insulation System
Vacuum Pressure Impregnation (VPI) process ensures superior dielectric strength and resistance to voltage spikes.
Practical Applications
Renewable Energy Systems
In solar and wind installations, our reactors enable rapid voltage stabilization with response times under 5ms. You maintain grid stability while filtering high-frequency inverter noise.
Heavy Industrial Operations
Arc furnaces and rolling mills generate severe power quality disturbances. Our SVG Line Reactor withstands impulse currents and thermal cycling, ensuring continuous operation.
Critical Facility Protection
Data centers and semiconductor fabs require ultra-clean power. You get harmonic filtering without introducing switching noise to sensitive equipment.
Manufacturing Facilities
Motor drive applications benefit from reduced harmonics and improved power factor correction, leading to energy savings and reduced utility penalties.
How It Works
Your SVG system generates high-frequency switching signals to provide reactive power compensation. The SVG Line Reactor acts as a crucial interface component:
Harmonic Filtering: Forms part of an LCL filter topology, converting PWM voltage into clean sinusoidal current.
Current Limitation: Controls di/dt during switching events, protecting expensive IGBT modules from damage.
Resonance Prevention: Eliminates dangerous parallel resonance between system capacitance and grid inductance.
Grid Interface: Provides smooth power transfer while maintaining isolation between the SVG electronics and utility grid.
Manufacturing Excellence
At Xi'an Xidian Medium and Low Voltage Electric Co., Ltd., we bring decades of expertise to every reactor we produce. Our facility maintains ISO9001 quality management certification, ensuring consistent product quality.
Advanced Production Capabilities
- State-of-the-art winding equipment for precise inductance control
- Automated VPI systems for superior insulation integrity
- Comprehensive testing facilities including impulse and thermal cycling tests
Quality Assurance
Every unit undergoes rigorous testing including inductance verification, insulation resistance, and thermal performance validation. You receive products that meet or exceed specification requirements.
Technical Innovation
Our engineering team continuously develops improved core materials and winding techniques. You benefit from the latest advances in reactor technology.
Why Choose Us
Proven Track Record
With over 100 product varieties across 34 series, we've successfully supplied power equipment rated from 630A to 4000A. Our products operate reliably at altitudes up to 4000m.
Comprehensive Solutions
Beyond individual components, we provide complete system integration services. You get turnkey solutions tailored to your specific requirements.
Technical Support
Our experienced engineers provide ongoing technical assistance throughout your project lifecycle. You have access to expert knowledge when you need it.
Compliance Assurance
All products meet national and international standards. You can be confident in regulatory compliance and safety performance.
FAQ
Q: What's the difference between a standard VFD reactor and your SVG Line Reactor?
A: Standard VFD reactors handle only fundamental frequencies. Our SVG Line Reactor manages high-frequency carrier waves up to 20kHz with specialized core materials and winding techniques.
Q: How do you handle thermal management in enclosed installations?
A: We use foil winding technology for optimal heat transfer. Forced air cooling channels integrate with your SVG module airflow for enhanced thermal performance.
Q: What happens if the reactor saturates?
A: Saturation causes dangerous current spikes that can destroy IGBT modules. Our design maintains linearity at 150-200% rated current to prevent this issue.
Q: What's the typical impedance percentage?
A: Usually 3-5%, but we calculate specific values based on your LCL filter requirements and harmonic tuning needs.
Q: What maintenance is required?
A: Annual thermographic inspection, visual insulation checks, and terminal torque verification. Our static design minimizes maintenance requirements.
Contact Us
Ready to improve your power quality with our advanced reactor solutions? Our technical team is standing by to discuss your specific requirements and provide customized recommendations.
Get Expert Assistance Today
Email: serina@xaxd-electric.com
Our engineers will work with you to determine the optimal reactor specifications for your application. You'll receive detailed technical documentation and support throughout your project implementation.
Send Inquiry
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