30.7 : インピーダンスリレーによるライン保護

Coordinating time-delay overcurrent relays in complex radial systems can be challenging, as can directional overcurrent relays in multi-source transmission loops.

Impedance relays solve these issues by responding to voltage-to-current ratios, becoming more sensitive during three-phase faults when current increases and voltage decreases.

These relays have block and trip regions defined by impedance.

Under normal operation, low load currents keep the impedance outside the relay's circle, preventing trips—however, a fault causing the relay setting to exceed the line impedance results in a trip.

Although impedance relays are non-directional, they can include directional capability via a directional restraint or a modified impedance relay.

The reach of an impedance relay indicates its fault detection range. Typically, three relays per phase are used, each with increasing reaches and longer delays.

Ground fault impedance relays operate on line-to-neutral voltages and line currents, effectively responding to three-phase, single, and double line-to-ground faults. However, they're insensitive to line-to-line faults.

For these faults, phase relays using line-to-line voltages and line-current differences are utilized, though they're less sensitive to single line-to-ground faults.