Abstract :
Filtering requirements for distance relays are very critical, because they must estimate precisely and quickly the electrical distance to the fault, even with highly distorted input signals. A number of digital filtering algorithms for distance relays have been proposed and some of them are in use in practical relays; however, power system evolution increases the corruption level of signals and imposes the necessity of continuing the research efforts in this area. In the present paper, a comparative evaluation of different digital filtering algorithms for distance protection is performed. An evaluation method is proposed, which gives a comprehensive information about filter transient behavior on a wide frequency range of noise. The discussion is focused in well-known algorithms based on Fourier and Walsh transforms, and includes a recently proposed combined sine-cosine filter
Keywords :
Fourier transforms; digital filters; electrical faults; filtering theory; parameter estimation; power system protection; power system relaying; relay protection; Fourier transforms; Walsh transforms; digital filtering algorithms; distance relays; filter transient behavior; power system distance protection; sine-cosine filter; Digital relays; Distortion; Filtering algorithms; Information filtering; Performance evaluation; Power system faults; Power system protection; Power system relaying; Power system transients; Protective relaying;
