Dynamic Power Factor Correction Panel - DPFC Panel
Experience a transformation in industrial operations like never before! In the world of manufacturing, where equipment like induction motors, AC/DC drives, and electronic controls dominate, we understand the challenges of dealing with a predominantly inductive load. The consequences of a poor lagging power factor can be hefty, including high kVA demands and penalties on your electricity bill. But fear not, as a solution exists that can save your industry substantial costs. By integrating power capacitors strategically within your power system, you can correct the inductive imbalance, elevate your power factor, and unlock remarkable savings. Join the ranks of efficient industries today and revolutionize your operations with our dynamic power factor correction panels!
Key Features:
- Control is very dynamic and follows the load fluctuations without any delay.
- Zero current switching technique is used, so there are no voltage transients or surge currents during switch IN/OUT - Hence improved life span of capacitor.
- Thyristors are used for switching-Hence there is no limit on number and frequency of switching.
- Dry type - soft resin - self healing - low loss - over pressure disconnected type reputed make capacitors are used. It gives compact and high safety construction.
- On customer request as well as depending on site condition heavy duty capacitors can be used to operate in continuous high voltage.
- Facility to operate in Auto/Manual mode.
- Customized panel construction is possible.
- Low loss reputed make detuned reactors are used as decided by the presence of harmonics in the system. (RPD 9530 Only).
- Schneider and GE switch gear components manufactured according to IEC standards are used in the panel.
- Micro controller based PF controller with 4 quadrant measurement and built in protections is used to select capacitor banks.
- Continuous display of instant power factor and other related data such as kVAr, required kVAr etc.
- Panel design is available for 1:1:1:1, 1:1:2:2, 1:2:2:2, 1:2:4:4, 1:2:4:8 capacitor steps. Hence smooth and accurate compensation is possible with minimum switching operations.
- Rating from 50 kVAr to 600 kVAr for 3 phase 415 V, 50 Hz applications.