Admittance protection for OSM reclosers

Admittance protection provides engineers with greatly increased capability to detect high impedance earth faults, providing an alternative solution to achieve higher sensitivity than offered by conventional earth fault protection. The new Noja protection suite is available to all users of the RC10 controller by means of a firmware update and is accomplished through evaluating the neutral admittance characteristics of the feeders connected to the recloser.

The added functionality increases recloser protection sensitivity particularly in compensated and high resistance earthed networks, where resistive earth leakage current is typically below reasonable protection pickup levels. Through examining the real and reactive components of the neutral admittance it is possible to set designated protection zones for reclosers, providing added sensitivity and reliability for all installations.

Purpose of admittance protection

Over the last few decades, the popularity of solidly earthed network design has seen a general decline. The primary reason is that earth faults on solidly earthed networks have characteristically have high earth fault currents. Despite the reduced safety of high earth faults, the greater earth fault magnitude implies that relays connected to this network will see a marked increase in neutral current under fault conditions. This made earth fault protection relaying very easy.

However, considering the implications for network security, safety and bushfire risk, it is often advantageous to implement schemes to limit the earth fault current on a feeder. There are multiple techniques available for achieving earth fault reduction, from high impedance earthing through to Petersen Coils and active compensation. When implementing earth fault limiting techniques, often the earth fault levels are driven below detection levels for conventional relays and additional techniques are required to detect the presence of a fault.

This reduction in earth fault magnitude implies that protection engineers need to use new methods to detect earth faults with enough sensitivity in high impedance networks. The answer to this challenge is admittance protection.

How it works

Admittance protection is a measure of how easy it is for current to ‘escape’ from the load system. The higher the reading of neutral admittance, the easier it is for current to escape from the load circuit in question. By setting a limit for how high this value can be, admittance protection provides an algorithm upon which to trip even when earth fault current may be low. Impedance to earth decreases in an earth fault situation, which is the opposite of most other protection elements, while conversely, admittance to earth increases. Most protection elements trip when a metric of a network becomes too high (too much current, too much voltage etc), hence admittance is easier to calculate and comprehend from a network protection perspective. As the fault becomes more severe, admittance also increases. By setting a limit on how high this admittance value reaches, it is possible to provide protection to earth faults even when the individual voltage or current deviations are small.

Fault recognition

It is also possible, by examining reactive and resistive effects in isolation, to infer the presence of a fault, even when at face value individual earth fault components seem small.

Admittance protection has traditionally only been available at transmission level voltages. With the improvements of network voltage stability and balance on distribution networks, it has been possible to begin to use admittance characteristics as a more precise method of detecting faults. The Noja Power RC10’s latest implementation of admittance protection is said to provide accessibility to transmission tier protection in a distribution network environment, providing greater sensitivity and effectiveness of protection implementation.

Distribution networks globally are evolving to offer higher levels of security, safety and risk management. While traditional solidly earthed networks generate high fault currents they allow for simplified protection schemes to be developed. The risk implicit in these high fault currents is seeing distribution utility operators globally implement high impedance earthing systems that require more complex protection owing to limiting fault currents, and admittance protection is one of the solutions now provided for these systems.

Noja believes admittance protection is the ideal protection relaying solution for networks with high impedance, compensated neutral or unearthed networks. By utilising the built-in voltage and current sensing within the Noja Power OSM, admittance protection has been achieved while providing greater sensitivity to earth faults.