Reactor for LV Reactive Compensation Panel
2.The coil insulation performance is good, high mechanical strength, the ability after glass fiber reinforcement is impacted by the large current shock and hot and cold cracks.
3.Moistureproof performance is good.
- Fast Delievery
- Quality Assurance
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Product Introduction
Reactor for LV Reactive Compensation Panel
Product Introduction
When you need reliable power factor correction with harmonic protection, our Reactor for LV Reactive Compensation Panel provides the perfect solution. This advanced inductive magnetic component installs in series with capacitor banks to prevent dangerous resonance conditions. It protects your electrical system from harmonic amplification while maintaining optimal power factor correction. Our reactor transforms standard capacitor panels into sophisticated detuned filter systems. The coil features epoxy resin vacuum casting with high-temperature curing for superior durability.
The coil construction delivers exceptional insulation performance and high mechanical strength. Glass fiber reinforcement enables resistance against large current impacts and thermal cycling. Our moisture-resistant design ensures reliable operation in challenging environments. You get industrial-grade protection that extends equipment lifespan significantly.
Technical Specifications
| Parameter | Specification |
|---|---|
| Voltage Rating | 400V - 690V |
| Frequency | 50/60 Hz |
| Detuning Factor | 5.67%, 7%, 14% |
| Current Rating | 630A - 4000A |
| Insulation Class | Class F (155°C) / Class H (180°C) |
| Linearity | L > 0.95 × Ln at 1.8 × In |
| Core Material | Grain-oriented Silicon Steel |
| Inductance Tolerance | ±3% |
| Noise Level | < 55dB |
| Protection Rating | IP20 / IP54 |
| Standards Compliance | IEC 60076-6, IEEE 519 |
| Temperature Rise | < 135K (Class H) |
| Altitude Rating | Up to 4000m |
Main Features and Advantages
Our design prioritizes performance and reliability. The vacuum pressure impregnation process ensures moisture resistance and mechanical stability. You benefit from reduced harmonic distortion and improved power quality.
The segmented core design minimizes eddy current losses. Multiple air gaps reduce fringing flux effects. This engineering approach delivers consistent inductance under varying load conditions.
High-grade varnish treatment provides excellent insulation properties. The construction withstands thermal cycling and mechanical stress. You get long-term reliability in demanding industrial environments.
Superior materials resist environmental factors. The robust design handles harmonic overloads effectively. Your investment delivers consistent performance year after year.
Practical Applications
Heavy manufacturing facilities rely on our reactors for protection. Welding operations and arc furnaces create severe harmonic distortion. Our Reactor for LV Reactive Compensation Panel prevents capacitor bank failures in these environments.
Data centers require stable power quality for critical operations. UPS systems and server power supplies generate significant harmonics. Our 14% detuning reactors protect against neutral overloading.
Modern commercial buildings combine various harmonic sources. LED lighting and solar inverters create complex harmonic interactions. Our reactors ensure stable grid interface and transformer protection.
Industrial automation systems benefit from harmonic filtering. Variable frequency drives create challenging operating conditions. Our reactors maintain power factor correction effectiveness despite load variations.
How It Works
The reactor introduces controlled inductive reactance into your system. This shifts the resonant frequency away from dangerous harmonic frequencies. The result prevents parallel resonance between capacitors and supply transformers.
Harmonic currents encounter high impedance at the reactor. This blocks harmful frequencies from entering capacitor banks. Your capacitors operate safely within thermal limits.
The series configuration creates a detuned filter effect. Specific harmonics face attenuation while fundamental frequency passes freely. You achieve both power factor correction and harmonic mitigation.
Voltage rise compensation requires higher-rated capacitors. Our engineering team calculates proper voltage ratings for your application. The complete system delivers optimal performance and protection.
Manufacturing Excellence
Xi'an Xikai maintains strict quality control throughout production. Our manufacturing processes meet ISO9001 standards. Every Reactor for LV Reactive Compensation Panel undergoes comprehensive testing before delivery.
Temperature rise testing validates thermal performance under load. Inductance accuracy verification ensures proper tuning frequency. Impulse voltage tests confirm insulation integrity.
Our facility handles projects up to 4000m altitude requirements. Advanced materials and processes deliver consistent quality. You receive products that meet international standards and industry requirements.
Continuous improvement drives our manufacturing approach. We invest in advanced equipment and skilled technicians. Your orders benefit from decades of electrical equipment expertise.
Why Choose Us
Xi'an Xikai offers comprehensive power distribution solutions. Our product range covers 0.4kV to 40.5kV applications. You work with an established system integration provider.
Our engineering team provides application-specific recommendations. We help you select the correct detuning factor for your harmonic environment. Custom solutions address unique installation requirements.
Quality certifications include ISO9001, ISO14001, and OHSAS18001. Our products achieve domestic and international advanced performance levels. You receive equipment that meets rigorous quality standards.
Technical support continues after delivery. Our team assists with commissioning and troubleshooting. Long-term partnerships ensure your electrical systems operate reliably.
FAQ
Q: What detuning factor should I choose for my application?
A: Select 7% for typical industrial loads with VFDs generating 5th and 7th harmonics. Choose 14% when significant 3rd harmonic content exists from single-phase loads like computers and LED lighting.
Q: Why do I need higher voltage capacitors with reactors?
A: The series reactor creates voltage rise across capacitor terminals. For 400V systems with 7% reactors, use minimum 440V capacitors. With 14% reactors, specify 480V or 525V capacitors.
Q: How do I prevent reactor overheating?
A: Ensure adequate ventilation in your panel design. Verify harmonic levels don't exceed reactor specifications. Check that cabinet cooling systems operate properly.
Q: Can I add reactors to existing capacitor panels?
A: This requires panel modifications including higher voltage capacitors and structural reinforcement. Contact our engineering team for retrofit feasibility assessment.
Q: What causes excessive reactor noise?
A: Slight magnetic hum is normal. Loud buzzing indicates loose core laminations or operation outside design parameters. This suggests poor manufacturing or excessive harmonic stress.
Contact Us
Ready to improve your power quality with professional reactive compensation solutions? Our technical team stands ready to assist with your specific requirements.
Contact our sales department for detailed specifications and quotations. We provide comprehensive support from initial consultation through commissioning.
Email: serina@xaxd-electric.com
Let us help you select the optimal Reactor for LV Reactive Compensation Panel for your application. Experience the reliability and performance that comes from working with Xi'an Xikai's proven electrical solutions.
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