APFC/ Power Factor Improvement Panels

APFC / Power Factor Improvement Panels

Shill Engineering Works, located in Ghaziabad, Uttar Pradesh, is a leading Power Factor Improvement Panel Manufacturers in India and Power Factor Improvement Panels. Our panels are designed to enhance electrical system efficiency by improving the power factor, reducing energy consumption, and lowering utility bills. These panels are ideal for industrial, commercial, and institutional applications where maintaining optimal power factor is crucial.

Features

Automatic Power Factor Correction: Utilizes advanced microprocessor-based controllers to automatically adjust capacitor banks in response to real-time load variations, optimizing the power factor and improving energy efficiency. High-Quality Components: Constructed with durable and high-performance components, including precision capacitors, reliable contactors, and robust circuit breakers, ensuring long-term reliability and performance. User-Friendly Interface: Equipped with an intuitive control panel featuring a digital display for monitoring power factor, real-time readings, and settings. Controls are designed for easy operation and programming. Energy Savings: Significantly reduces reactive power consumption and minimizes electricity costs by maintaining an optimal power factor, typically targeting a power factor of 0.95 or higher. Safety Features: Includes comprehensive protection mechanisms such as over-voltage, under-voltage, over-temperature, and short-circuit protection to ensure safe and reliable operation. Modular Design: Offers a flexible and scalable design that can be customized to fit various power requirements and easily integrated into existing electrical systems. Standards Compliance: Adheres to industry standards such as IEC 60871, IEC 61921, and IS 13947 for performance, safety, and reliability. We are the reputed APFC/ Power Factor Improvement Panel Manufacturers

Specifications

Voltage Ratings: Available for various voltage levels including 230V, 415V, and 690V AC, tailored to meet specific system requirements. Current Ratings: Ranges from 10A to 1000A, depending on the size and capacity of the power factor correction system. Capacitor Ratings: Typically designed with capacitor banks rated for up to 1000 kVAR, with options for higher ratings based on application needs. Protection Class: Usually IP54 or higher, providing protection against dust and water ingress to ensure reliable operation in various environments.

Power Factor Improvement Panel Manufacturers - Shill Engineering Works

Shill Engineering Works is one of the leading Power Factor Improvement Panel manufacturers in India, delivering high-performance electrical panels designed to enhance energy efficiency and reduce electricity costs. With years of industry expertise, we specialize in manufacturing Power Factor Correction (PFC) Panels, APFC Panels, and customized solutions that help industries maintain an optimum power factor and ensure seamless electrical operations.

As trusted Power Factor Improvement Panel manufacturers, we focus on advanced engineering, durable components, and precision-based designs that comply with the latest IS/IEC standards. Our panels are widely used in commercial buildings, industrial plants, textile units, hospitals, malls, and manufacturing facilities to improve electrical system efficiency and avoid penalties from power distribution companies.

Why Choose Shill Engineering Works for Power Factor Improvement Panels?

  1. High-Quality ComponentsWe use capacitor banks, reactors, microprocessor-based controllers, and switching devices from reputed brands to ensure long-lasting performance.
  2. Optimized Power FactorOur PFI and APFC panels automatically monitor and correct the power factor, resulting in reduced energy bills and improved system reliability.
  3. Custom-Built SolutionsEvery industry has unique requirements. We design customized Power Factor Improvement Panels based on your load profile, harmonics, and site conditions.
  4. Robust & Safe DesignOur panels are built using heavy-duty enclosures with proper ventilation, bus bar sizing, and standard safety protocols.
  5. Energy Savings & Penalty ReductionBy maintaining the ideal power factor (0.98 to 1.0), businesses can save significantly on electricity charges and avoid utility penalties.

Applications of Our Power Factor Improvement Panels

  • Manufacturing Industries
  • Commercial Complexes
  • Hospitals & Educational Institutions
  • Textile & Chemical Industries
  • Data Centers & IT Parks
  • Shopping Malls
  • Cold Storage Facilities

Features of Our Power Factor Improvement Panels

  • Automatic & manual control options
  • Real-time power factor monitoring
  • Detuned & tuned harmonic filters (optional)
  • Dust-proof & weather-resistant enclosure
  • Smart microprocessor-based PF controllers
  • High rupture capacity (HRC) protection
  • Efficient capacitor switching

Your Trusted Power Factor Improvement Panel Manufacturer

At Shill Engineering Works, we are committed to delivering energy-efficient, reliable, and cost-effective solutions. Whether you need an APFC Panel, PFC Panel, or a fully customized Power Factor Improvement Panel, our expert engineering team ensures unmatched quality and performance.

Technical Data

Rated Voltage: Up to 415V AC, with options for higher voltages as required. Rated Frequency: 50 Hz. Control Type: Microprocessor-based with automatic and manual control options. Display Features: Digital display for monitoring power factor, voltage, current, and other key parameters. Enclosure Type: Metal or FRP with weatherproof design. Cooling and Ventilation: Designed with proper ventilation and cooling systems to manage heat dissipation and maintain optimal performance.

  • Applications
  • Construction and Design

APFC / Power Factor Improvement Panels are suitable for: Industrial Facilities: Improving power factor for large motors, machinery, and equipment, reducing energy consumption and improving system efficiency. Commercial Buildings: Enhancing power factor in shopping centers, office buildings, and other commercial spaces to lower electricity costs and improve power quality. Institutional Facilities: Managing power factor in schools, hospitals, and other institutional settings to ensure efficient use of electrical power. Manufacturing Plants: Optimizing power factor for various production processes and equipment to reduce energy costs and enhance operational efficiency.

Panel Structure: Fabricated with high-quality metal or FRP enclosures to ensure durability and protection. Designed for ease of installation and maintenance. Internal Layout: Includes capacitor banks, contactors, protection devices, and control equipment arranged for optimal functionality and accessibility. Ventilation: Adequately ventilated to prevent overheating and maintain efficient operation of internal components.

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