Low Voltage Shunt Reactor
2. Reactive Power Compensation (Absorption)
3. Improved Power Quality and Reduction of Harmonic Resonance
4. Reduction of Switching Overvoltages and Inrush Currents
5. Enhanced Energy Efficiency and Loss Reduction
6. Increased System Capacity and Loadability
7. Protection of Sensitive Equipment
Low Voltage Shunt Reactor
The products, also called decompensation reactors, are generally used in parallel connections where the inductive load is needed. It can reduce the line voltage and avoid the system overloaded by the capacitive power and thus increase efficiency of the system.
Key Functions:
Materials Excellence:
Based on your specific needs, our low-voltage shunt reactors are primarily designed with high-purity copper or high-grade aluminum windings, balancing performance and cost-effectiveness.
Superior Voltage Stability:
We guarantee that the grid voltage remains within the required (+10% to -6%) tolerance range under light load conditions.
Noiseless and Durable:
Utilizing advanced H-class vacuum-impregnated varnish, we reduce operating noise and vibration while protecting internal components.
Space-Saving Design:
Raytech low-voltage shunt reactors feature a compact dry-type core structure, facilitating integration into your existing low-voltage switchgear and compensation cabinets.
Compliant with International Standards:
Products are manufactured and tested according to IEC 60076-6, EN 61558-2-20, and UL 1446 international standards.
Advantages:
Enhances grid efficiency by reducing reactive power flow.
Minimizes equipment stress and prolongs asset lifespan.
Cost-effective solution for localized voltage control.
Applications of Low Voltage Shunt Reactors
1. Industrial Applications
Motor Drives & VFDs: Reduce harmonic distortion and protect sensitive equipment.
UPS & Data Centers: Enhances power quality and prevents voltage fluctuations.
2. Power Distribution Systems
Reactive Power Compensation: Improves power factor by absorbing excess reactive power in low-voltage grids.
Voltage Regulation: Helps stabilize voltage levels in distribution networks.
3. Renewable Energy Systems
Solar/Wind Farms: Compensate for reactive power in inverter-based systems.
Energy Storage Systems (ESS): Maintains grid stability in low voltage connections.
4. Commercial & Infrastructure
Shopping Malls, Hospitals, and Airports: Ensures a stable power supply and reduces energy losses.
Railway & Metro Systems: Supports traction power supply with reactive power management.
Low Voltage Shunt Reactors Technical Specifications
|
Parameter |
Specification |
Unit |
Remarks |
|
Rated Voltage |
400, 480, 600, 690, etc. |
V (Volts) |
Depends on the system voltage level |
|
Frequency |
50 / 60 |
Hz |
Standard power frequency |
|
Rated Reactive Power |
10 – 500 |
kVAr |
Customizable based on need |
|
Insulation Class |
Class A (105°C), Class B (130°C), Class F (155°C) |
- |
Dry-type common; oil-immersed optional |
|
Cooling Method |
AN (Air Natural) / AF (Air Forced) |
- |
Dry-type typically AN |
|
Tolerance (Reactive Power) |
±5% to ±10% |
- |
Per IEC 60076-6 |
|
Temperature Rise |
≤80°C (winding, by resistance) |
°C |
For dry-type reactors |
|
Sound Level |
≤50 – 65 |
dB |
Depends on the design and cooling |
|
Connection Type |
Star (Y) or Delta (Δ) |
- |
Configurable based on the system |
|
Protection Class |
IP00 to IP54 |
- |
Indoor/outdoor applications |
|
Short-Circuit Withstand |
Typically, 2–3 sec rated current |
- |
Based on system requirements |
|
Harmonic Distortion |
THD <2% (for filter reactors) |
% |
If used for harmonic mitigation |
|
Standards Compliance |
IEC 60076-6, IEEE C57.21, EN 61558 |
- |
Industry standards |
Why Choose LTEC's Low Voltage Shunt Reactors?
LTEC – Powering Your Systems with Innovation!
High Efficiency & Energy Savings
Low Core Loss Design – Optimized magnetic circuits (e.g., high-grade silicon steel) minimize eddy current & hysteresis losses.
Reduces Reactive Power Burden – Improves power factor (up to 0.95+) and cuts energy waste in LV networks
Superior Power Quality & Protection
Harmonic Suppression – Limits THD (Total Harmonic Distortion) to protect sensitive electronics.
Voltage Stabilization – Prevents overvoltage in capacitor banks and long cable networks.
Robust & Long-Lasting Construction
Thermal Resilience – High-temperature insulation (Class F/H) for stable operation under heavy loads.
Vibration & Noise Reduction – Advanced coil impregnation and mechanical damping for quiet, low-maintenance use.
Safety & Compliance
Overcurrent & Short-Circuit Protection – Withstands 200% overload for 10+ seconds (IEC 60076).
Global Certifications – Complies with IEC, IEEE, UL, and other industry standards.
Customizable Solutions
Overcurrent & Short-Circuit Protection – Withstands 200% overload for 10+ seconds (IEC 60076).
Global Certifications – Complies with IEC, IEEE, UL, and other industry standards.
Global Reliability
Trusted by utilities, OEMs, and industries in 60+ countries.
Technical support and extended warranty options.
Hot Tags: low voltage shunt reactor, China low voltage shunt reactor manufacturers, suppliers, factory, Active Harmonic Filter, Air Core Reactors, Low Voltage Capacitors, power quality components, Static Var Generator, Thyristor Switch
You Might Also Like
Send Inquiry