Title :
A new digital filter for phasor computation. I. Theory [power system protection]
Author :
De La O, Josk A. ; Altuve, Hector J. ; Diaz, Ismael
Author_Institution :
Fac. de Ingenieria Mecanica y Electr., Univ. Autonoma de Neuvo Leon, Mexico
fDate :
8/1/1998 12:00:00 AM
Abstract :
A new pair of orthogonal filters for power system phasor computation is presented. They have excellent time-frequency characteristics for fault location and measurement. Their impulse responses are obtained applying the inverse Fourier transform to a single-lobe function with a strong stopband. From this process, a new window emerges. Without side lobes, it overcomes the temporal barriers imposed by the rectangular window, implicit in digital Fourier filtering. Its length is not restricted to a multiple of one cycle, and it can be adjusted to cover totally the available samples of the fault, extracting the fundamental component with growing precision. On the other hand, its sampling frequency can be reduced to twice the fundamental frequency. In particular, at this minimum sampling frequency, the digital Cosine filter rejects the even harmonics and the aperiodic component
Keywords :
Fourier analysis; digital filters; fault location; filtering theory; power system protection; power system relaying; relay protection; time-frequency analysis; aperiodic component rejection; digital Cosine filter; digital Fourier filtering; even harmonics rejection; fault location; fault measurement; fundamental component extraction; fundamental frequency; impulse response; inverse Fourier transform; minimum sampling frequency; orthogonal digital filters; power system phasor computation; rectangular window; sampling frequency; single-lobe function; strong stopband; temporal barriers; time-frequency characteristics; Digital filters; Fault location; Filtering; Fourier transforms; Power filters; Power system faults; Power system harmonics; Power system measurements; Sampling methods; Time frequency analysis;
Journal_Title :
Power Systems, IEEE Transactions on
