Title :
Frequency responses of phasor-based microprocessor relaying algorithms
Author_Institution :
ABB Power Autom. & Protection Div., Coral Springs, FL, USA
fDate :
1/1/1999 12:00:00 AM
Abstract :
The magnitude and phase estimate algorithms in phasor-based microprocessor relaying are nonlinear. The characteristics of the nonlinear relay algorithms cannot be analyzed using the frequency response concept defined for studying linear time-invariant (LTI) systems. The term “frequency response” needs to be clarified when it is used to characterize nonlinear relay algorithms. The paper clarifies and then investigates the magnitude responses of deterministic relay algorithms and Kalman filter relay algorithms. The deterministic relaying algorithms studied in the paper include Mann-Morrison, Prodar, full cycle DFT, half cycle DFT, Cosine filter, and least square. In the Kalman filter relay algorithms, two-state and three-state Kalman filter models are considered. Finally, the effect of the signal statistic property on the frequency responses of the Kalman filter relay algorithms is studied
Keywords :
Kalman filters; discrete Fourier transforms; frequency response; microcomputer applications; power engineering computing; power system parameter estimation; power system protection; power system relaying; relay protection; Cosine filter algorithm; FIR filters; IIR filters; Kalman filter relay algorithms; Mann-Morrison algorithm; Prodar algorithm; deterministic relay algorithms; discrete Fourier transform; frequency response; frequency responses; full cycle DFT algorithm; half cycle DFT algorithm; least square algorithm; linear time-invariant systems; magnitude estimate algorithms; nonlinear relay algorithms; phase estimate algorithms; phasor-based microprocessor relaying algorithms; signal statistic property; three-state Kalman filter models; two-state Kalman filter models; Algorithm design and analysis; Finite impulse response filter; Frequency domain analysis; Frequency response; Least squares methods; Microprocessors; Nonlinear filters; Power system relaying; Protective relaying; Relays;
Journal_Title :
Power Delivery, IEEE Transactions on
