Title :
Dynamic Phasor Estimates for Power System Oscillations
Author :
de la Serna, J.A.d.
Author_Institution :
Univ. of Nuevo Leon, Monterrey
Abstract :
Since its invention, the phasor has essentially been considered as a steady-state concept. Up to now, this assumption has shaped most of the algorithms for phasor estimation. This paper breaks that old paradigm by relaxing the static phasor concept to a dynamic one, i.e., the dynamic phasor, which is one complex time function with movement freedom. This paper presents the algorithm to approximate the dynamic phasor by a second-order Taylor polynomial and compares its phasor estimate to the traditional one. This approximation leads to the definition of the phasor state vector, which contains not only the estimate of the dynamic phasor but the estimates of its derivatives as well. These new estimates improve the accuracy of oscillation estimation by including new Taylor details into the interpolation process. Errors on the order of 10-4 are achieved with this approximation in bandpass signals over observation intervals of two cycles.
Keywords :
interpolation; phase estimation; power system harmonics; bandpass signals approximation; dynamic phasor; dynamic phasor estimates; interpolation process; oscillation estimation; phasor estimation; phasor state vector; power system oscillations; second-order Taylor polynomial; Frequency estimation; Interpolation; Polynomials; Power system control; Power system dynamics; Power system modeling; Power system protection; Power systems; State estimation; Steady-state; $N$th-order hold; Complex envelope; Taylor–Fourier transform; differentiators; digital transmission systems; dynamic phasor; flat-top filters; harmonic analysis; interpolation; phasor estimation; phasor state vector; quadrature demodulation; windows;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2007.904546
