Automatic power factor correction panels with staged capacitor banks, sized to your connected load and harmonic profile. The one panel in your plant that pays for itself.
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If your power factor is below the limit your discom sets, you are paying a penalty on every bill — quietly, every month. An APFC panel switches capacitor banks in and out automatically to hold the PF near unity. For most mid-size factories the panel pays for itself inside a year, sometimes inside six months.
An APFC panel that is too small never corrects. One that is too big hunts, switches constantly and kills its own contactors. We size the kVAR from your actual load pattern and check the harmonic profile — if you have a lot of drives, plain capacitors will fail early and detuned reactors are needed.
Power factor controller, staged capacitor banks, capacitor duty contactors, MCCB incomer, and indication for each bank. Schneider and ABB components. Built in Faridabad, tested before dispatch.
| Banks | Staged, sized to load (5 to 12 steps typical) |
| Controller | Auto PF controller with display |
| Contactors | Capacitor duty rated |
| Harmonics | Detuned reactors where drives are present |
| Incomer | MCCB |
| Components | Schneider, ABB, L&T |
It depends on your current power factor and your discom's penalty structure. If you are being penalised, the saving is the penalty itself plus a reduction in demand charges. We can tell you the number after a free energy audit at your plant.
If you run a lot of VFDs, welding sets or other non-linear loads, yes. Plain capacitors in a harmonic-rich environment fail early. We check this before quoting rather than after.
Yes. We visit your plant, look at your bill, your connected load and your running pattern, and tell you where the money is leaking. No charge, no obligation.
Send us a load list, a single line diagram, or just describe the machine. We reply the same day.