Shunt capacitors are widely used for power factor correction in AC systems. By supplying capacitive reactive power to offset inductive loads’ lagging current, they cut line current, boost voltage stability, and enhance equipment efficiency. Available in individual, group or centralized configurations with automatic switching, they carry risks like overcompensation and resonance, which require adherence to IEC guidelines for mitigation.

This paper compares shunt capacitors and filter capacitors in power systems. Shunt capacitors, paralleled to grids, optimize power factor by supplying reactive power, suitable for low-THD steady systems. Filter capacitors, combined with reactors in harmonic-rich environments, suppress harmonics while compensating reactive power, preventing resonance. Selection depends on grid harmonic profiles, per IEC standards, to balance power quality and system reliability.