Patent ID: 6104182
Filing Date: 2000-08-15
Classification: G01R,H02J

Abstract:
A method for obtaining a power swing signal indicating a power swing in an electric power supply system, comprising the steps of:sampling phase currents and phase voltages;determining phase current sampling values and phase voltage sampling values from the sampled phase current and the sampled phase voltages;determining impedance values from the phase current sampling values and the phase voltage sampling values;testing the impedance values with regard to positions of the impedance values relative to a power swing polygon in response to an excitation;forming current space vectors and voltage space vectors of a positive sequence system of the power supply system from the phase current sampling values and the phase voltage sampling values;forming an active power quantity of the positive sequence system using the current space vectors and the voltage space vectors, the active power quantity being proportional to an instantaneous value of an active power of the positive sequence system;forming a reactive power quantity of the positive sequence system using the current space vectors and the voltage space vectors, the reactive power quantity being proportional to a reactive power of the positive sequence system;forming a measured active power quantity by eliminating system frequency components from the active power quantity via a least squares estimate;forming a measured reactive power quantity by eliminating the system frequency components from the reactive power quantity via the least squares estimate;forming a current quantity of the positive sequence system from the current space vectors of the positive sequence system;forming a measured current quantity of the positive sequence system from the current quantity via the least squares estimate;squaring the measured current quantity of the positive sequence system;obtaining resistance values of the positive sequence system by forming a quotient of the measured active power quantity and the squared measured current quantity of the positive sequence system;forming chronologically successive impedance values of the positive sequence system by pairing in time resistance values of the positive sequence system and reactance values of the positive sequence system;testing the chronologically successive impedance values of the positive sequence system for monotony;testing the chronologically successive impedance values of the positive sequence system for abrupt changes;if monotony is found and no abrupt changes are found, generating a suspected power swing signal;determining a center point of a circle of a curve path formed by the chronologically successive impedance values of the positive sequence system with respect to a predetermined impedance value of the positive sequence system by estimation from the chronologically successive impedance values of the positive sequence system;if an imaginary component of the center point of the circle exceeds an absolute value of one of the reactance values of a respective one of the chronologically successive impedance values of the positive sequence system, generating an power swing confirmation signal; andif the suspected power swing signal and the power swing confirmation signal are generated at a same time, forming the power swing signal if a last one of the chronologically successive impedance values formed is within the power swing polygon.