Title :
Frequency estimation of distorted power system signals using extended complex Kalman filter
Author :
Dash, P.K. ; Pradhan, A.K. ; Panda, G.
Author_Institution :
Regional Eng. Coll., Rourkela, India
fDate :
7/1/1999 12:00:00 AM
Abstract :
The paper proposes an extended complex Kalman filter and employs it for the estimation of power system frequency in the presence of random noise and distortions. From the discrete values of the 3-phase voltage signals of a power system, a complex voltage vector is formed using the well known αβ-transform. A nonlinear state space formulation is then obtained for this complex signal and an extended Kalman filtering approach is used to compute the true state of the model iteratively with significant noise and harmonic distortions. As the frequency is modeled as a state, the estimation of the state vector yields the unknown power system frequency. Several computer simulations test results are presented in the paper to highlight the usefulness of this approach in estimating near nominal and off-nominal power system frequencies
Keywords :
Kalman filters; digital simulation; frequency estimation; harmonic distortion; nonlinear filters; power system harmonics; power system parameter estimation; power system simulation; random noise; αβ-transform; 3-phase voltage signals; complex voltage vector; computer simulation tests; distorted power system signals; distortions; extended complex Kalman filter; frequency estimation; harmonic distortions; near nominal power system frequencies; noise; nonlinear state space formulation; off-nominal power system frequencies; power system; power system frequency estimation; random noise; state vector estimation; unknown power system frequency; Distortion; Frequency estimation; Kalman filters; Power harmonic filters; Power system harmonics; Power system modeling; Power system simulation; Power systems; State-space methods; Voltage;
Journal_Title :
Power Delivery, IEEE Transactions on
