Title :
Advanced detection and compensation scheme for current transformers saturation
Author :
Allah, R.A. ; Moussa, S. ; Shehab-Eldin, E.H. ; Hamed, M.N.G.
Author_Institution :
El-Kureimate Power plant, Egyptian Electr. Holding CO., Cairo, Egypt
Abstract :
This paper presents an advanced technique for current transformer saturation detection and compensation. The technique is based on the pre-fault current signal and the saturated-free portion after fault occurrence in order to calculate the effective unknown parameters of the transient secondary current. The proposed technique has attractive features include a high accuracy to determine power system angle, the simplicity for on-line implementation, not affected by the remanent flux in the CT core, and it is independent of the CT parameters/characteristics and secondary burden. The accuracy and robustness of the introduced compensation algorithm are demonstrated though extensive simulation cases reflecting a wide range of variation in fault conditions and CT parameters.
Keywords :
compensation; current transformers; magnetic flux; power system control; power system faults; remanence; transformer cores; CT core; CT parameters; compensation algorithm; current transformer saturation compensation scheme; current transformers saturation detection scheme; power system angle; pre-fault current signal; remanent flux; saturated-free portion; transient secondary current; Artificial neural networks; Circuit faults; Current transformers; Electrical fault detection; Fault currents; Magnetic cores; Magnetic flux; Power system transients; Protection; Saturation magnetization; CT saturation detection; fault detection; saturated current compensation; saturation effects;
Conference_Titel :
Power Systems Conference, 2006. MEPCON 2006. Eleventh International Middle East
Conference_Location :
El-Minia
Print_ISBN :
978-1-4244-5111-1
