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Home > Electrical & Electronics > Passive Components > Capacitor > Low Voltage Reactive Power Compensation Cabinet IEC Standard Compliant With Mill Test Report

Low Voltage Reactive Power Compensation Cabinet IEC Standard Compliant With Mill Test Report

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Product Spotlights

This IEC-standard compliant Low Voltage Reactive Power Compensation Cabinet optimizes energy efficiency by correcting power factor, reducing reactive power charges and system losses. Its customizable configuration, robust construction with safety protections, and availability of Mill Test Reports ensure reliable performance and material quality verification. It enhances network capacity, stabilizes voltage, and extends equipment life, offering significant operational cost savings for industrial and commercial facilities.

US$ 800 - 2000 MOQ: 1 Unit

Key Specifications

Get Latest Price

Application:

Other, Industrial and Commercial Power Systems

Standard Compliance:

IEC Standard Compliant

Certification Support:

Mill Test Report Available

Contact Supplier Request Quote Chat Now

Jinhua Dika Electrical Equipment Co., Ltd.

1Yr

Payment & Shipping

Payment Methods:

Port of Shipment:

China

Delivery Detail:

Delivery time depends on order quantity.

Product Details
Company Profile
Contact Us

Application Other, Industrial and Commercial Power Systems

Standard Compliance IEC Standard Compliant

Certification Support Mill Test Report Available

Function Power Factor Correction and Reactive Power Compensation

Configuration Customizable (Capacitors, Controllers, Switches)

Safety Features Overload Protection, Short Circuit Protection

Construction Robust Steel Cabinet

Cooling System Natural or Optional Fan Cooling

As a dedicated manufacturer of electrical equipment, Jinhua Dika Electrical Equipment Co., Ltd. specializes in providing reliable solutions for power quality management. Our Low Voltage Reactive Power Compensation Cabinet, designed in compliance with IEC standards, represents our commitment to enhancing electrical system efficiency and stability for our global clientele. This cabinet is engineered to address reactive power issues, improve power factor, and reduce energy losses, delivering tangible operational cost savings and system reliability.

The core value of this product lies in its ability to optimize power consumption. By compensating for reactive power, it helps utilities and industrial facilities avoid penalties associated with poor power factor, extends the lifespan of electrical equipment, and increases the effective capacity of the distribution network. Manufactured with stringent quality controls and supported by comprehensive documentation like Mill Test Reports, this cabinet is a trustworthy component for any serious power infrastructure project.

Detailed Product Features & Technical Specifications:

IEC Standard Compliance: The cabinet's design, components, and safety protocols adhere to relevant International Electrotechnical Commission (IEC) standards, ensuring international acceptability and operational safety.
Core Compensation Function: Automatically detects and compensates for reactive power in the low voltage system, maintaining a power factor close to unity (1.0).
Robust Construction: Built with a sturdy steel enclosure providing mechanical protection and durability for the internal components.
Flexible Configuration: The internal setup, including capacitor banks, switching devices (contactors or thyristors), and control units, can be customized based on specific system requirements, load profiles, and compensation targets.
Advanced Control & Monitoring: Typically incorporates a smart controller that continuously monitors voltage, current, and power factor, enabling precise and staged switching of capacitor banks to avoid over-compensation or transients.
Integrated Protection Mechanisms: Features multiple safety protections such as:
- Overload and overcurrent protection for capacitors.
- Short-circuit protection.
- Over-temperature protection (depending on configuration).
- Discharge systems for safe capacitor de-energizing.
Documentation Support: A Mill Test Report is available, providing verified data on the materials and key components used, adding a layer of quality assurance for buyers.
Cooling Options: Designed for effective heat dissipation. Standard models use natural convection, while configurations for higher power or dense installations can include optional forced air cooling (fan systems).

Technical Parameters Table (Typical Configurations):

Parameter	Description / Typical Range
Rated Voltage	400V, 480V (or other standard LV levels)
Total Compensation Capacity	Customizable, e.g., from 50 kVAR to 500 kVAR
Control Strategy	Automatic, based on real-time PF measurement
Switching Device Type	Contactor-based or Thyristor-based (optional)
Cabinet Protection Degree	IP20 or higher (customizable)
Communication Interface	Optional (RS485, Modbus for system integration)

Benefits for Our Clients:

Reduced Energy Costs: Improves power factor, leading to lower electricity bills by minimizing reactive power charges and reducing overall distribution losses.
Enhanced System Capacity: By compensating reactive power, it effectively increases the available active power capacity of existing transformers and cables, potentially deferring costly upgrades.
Improved Voltage Stability: Helps maintain voltage levels within acceptable limits, protecting sensitive equipment from voltage drops.
Extended Equipment Life: Reduces stress on generators, transformers, and cables by lowering reactive current flow, thereby extending their operational lifespan.
Compliance & Reporting: Assists facilities in meeting utility power factor requirements and provides data for energy management reporting.
Reliable Operation: Built with quality components and protective features, it ensures long-term, stable operation with minimal maintenance.

Jinhua Dika Electrical Equipment Co., Ltd. brings substantial manufacturing expertise to this product. With an annual export value ranging between US$1 Million and US$1.5 Million, we serve a diverse global market spanning North America, South America, Europe, Asia, Africa, and Oceania. Our experience across these regions means we understand the varied grid requirements and standards our clients face. Our operational foundation, supported by a comprehensive quality management system, ensures that every Low Voltage Reactive Power Compensation Cabinet is produced with precision and reliability. We invite you to leverage our manufacturing capability to obtain a power quality solution that is not only IEC-compliant but also backed by verifiable Mill Test Reports, providing you with confidence in your investment and the performance of your electrical system.

Frequently Asked Questions (FAQ):

What is the primary purpose of this Reactive Power Compensation Cabinet?
Its primary purpose is to automatically compensate for reactive power in a low-voltage electrical system, thereby improving the power factor. A good power factor reduces energy waste, lowers electricity costs, and improves the efficiency and capacity of the power distribution network.
How does compliance with IEC standards benefit me?
IEC compliance ensures the product meets internationally recognized benchmarks for safety, performance, and construction. This facilitates easier acceptance in global markets, enhances interoperability with other IEC-compliant equipment, and provides a reliable baseline for safety and quality.
What does a "Mill Test Report" include, and why is it important?
A Mill Test Report is a certificate from the material manufacturer (e.g., for steel, copper) that verifies the chemical composition, mechanical properties, and other key attributes of the raw materials used. It provides traceability and proof of material quality, which is crucial for durability, safety, and compliance in electrical equipment.
Can the cabinet's compensation capacity be customized for my specific site?
Yes, absolutely. The total compensation capacity (in kVAR), the number of compensation steps, the type of switching devices, and even control features can be tailored based on your system's load analysis, desired power factor target, and physical space constraints.
What are the main differences between contactor-based and thyristor-based switching?
Contactor-based switching is a robust and cost-effective solution for many applications. Thyristor (solid-state) switching offers faster, smoother, and more precise switching without mechanical wear, making it suitable for applications with rapidly varying loads or where minimizing switching transients is critical. The choice depends on your load characteristics and budget.
What kind of maintenance does this cabinet require?
Regular maintenance typically involves visual inspections, checking electrical connections, monitoring controller readings, and ensuring ventilation paths are clear. Capacitors have a long lifespan but may need periodic checking. The specific maintenance schedule depends on the operating environment and configuration.
Is this product suitable for harsh industrial environments?
The standard steel cabinet provides good protection. For harsh environments (high dust, moisture, corrosion), optional higher Ingress Protection (IP) ratings, special coatings, or cooling system adaptations can be requested to enhance suitability.
How do I determine the required compensation capacity for my facility?
Determining the required capacity involves analyzing your current power factor measurements, load profiles (types of motors, transformers, etc.), and utility requirements. We can provide guidance based on typical calculations, or you may consult with an electrical engineer to perform a detailed site analysis.