Restricted Earth Fault (REF) Relay

Restricted Earth Fault (REF) relay is used as a primary protection alongside differential relays for safeguarding transformers from ground faults in both the high-voltage (HV) and low-voltage (LV) windings.

Each HV and LV winding has its own REF relay. This relay isn't able to detect phase-to-phase faults or three-phase faults (without touching the ground) because its protection boundary is from the CT on one side (primary/HV) to the CT connected to the neutral on the primary/HV side of the primary/HV winding.

For the secondary/LV winding, the protection boundary is from the secondary/LV side CT to the CT connected to the secondary/LV neutral.

The REF relay can be used to protect both Y-Y and Y-Delta transformers. In the case of a Y-Delta transformer, the neutral earthing resistor (NER) is connected to the secondary/LV winding to provide a neutral connection for return current and transformer connection.

Figure 1 illustrates the operation of the REF relay. When a ground fault occurs in either the primary/HV or secondary/LV winding, no current flows through one of the CTs (input to the REF Relay), resulting in residual current entering the REF relay, exceeding the pickup current setting. The relay then sends a signal to the Master Trip relay, which subsequently sends a tripping signal to both breakers, the primary/HV, and the secondary/LV. There's no tripping delay as the REF relay acts as the primary protection for the transformer alongside the Differential relay.

Figure 1

Charging Current Compensation of Differential Relay

For underground cables and long transmission lines, there will be significant effects of charging current on the accuracy of the protection relay. This charging current is the result of the distributed capacitance along the transmission line or underground cables as shown by figure below. The effects of the charging current for short transmission line is insignificant and can be neglected.

This charging current can introduces error in fault detection by installed protection relays. Some protection relays adapted with charging current compensation to eliminate the error in their algorithms.

One of the relay is line differential relay GRL100 by Toshiba. The charging current is also depending on value of the line voltage. So, the charging current is continuously calculated by the relay depending on the value of current line voltage and compensates it in the differential current calculation.

The procedure is the capacitance of the line be divided into two. Then, each terminal of the relay calculates the value of charging current at each terminal using the equation below.