Reducing the Error in Phasor Estimates From Phasorlets in Fault Voltage and Current Signals

Author

de la O Serna, Jos Antonio

Author_Institution

State Univ. of Nuevo Leon, Monterrey

Volume

56

Issue

3

fYear

2007

fDate

6/1/2007 12:00:00 AM

Firstpage

856

Lastpage

866

Abstract

An assessment and reduction of the phasor-error infiltration in estimates from phasorlets are proposed in this paper through a generalized least-square formulation of the problem. It introduces a computationally simple and quick estimator that exploits the structure of the sinusoidal model and provides the finest stable phasor estimate, which is very useful for fault voltage signals. It also proposes an extended signal model, by including a dc component into the signal model, in order to allocate the phasor error, when an aperiodic component is present in the input signal. The numerical simulations illustrate the improvement in speed and accuracy of the estimates, which are obtained in decicycles, as well as its still wavering nature, which is considered as the persisting limitation of this technique

Keywords

curve fitting; estimation theory; least squares approximations; phase measurement; power system faults; current signals; curve fitting; dc component; digital filter; error reduction; fault voltage signals; least-square formulation; phasor estimates; phasor-error infiltration; phasorlets; sinusoidal model; Delay estimation; Digital filters; Equations; Frequency estimation; Frequency response; Least squares approximation; Numerical simulation; Signal analysis; Signal generators; Voltage; Curve fitting; digital filter; least squares; multirate estimation; nonorthogonal basis; normal equations; oblique planes; orthogonal decomposition; phasor estimation; phasorlets; signal projection;

fLanguage

English

Journal_Title

Instrumentation and Measurement, IEEE Transactions on

Publisher

ieee

ISSN

0018-9456

Type

jour

DOI

10.1109/TIM.2007.894880

Filename

4200989