Title :
Real-time testing of a WPT-based protection algorithm for three-phase power transformers
Author :
Saleh, S.A. ; Rahman, M.A.
Author_Institution :
Memorial Univ. of Newfoundland, St. John´´s, Nfld., Canada
Abstract :
This paper presents real-time implementation and testing of a wavelet-packet-transform-based algorithm for power transformer protection. The proposed algorithm is implemented using a DS1102 digital signal processor board and tested on two different three-phase power transformers. Different magnetizing inrush, normal (through-fault) and internal fault currents are investigated for different loading conditions. The results show a complete independence from both the transformer parameters and current transformer saturation. In addition, the proposed algorithm has reduced computational burden, high speed, high accuracy, small required memory, and high reliability. In all cases of the investigated internal faults, the proposed algorithm is capable of identifying the fault and generating a trip signal in less than a quarter cycle based on a 60-Hz system.
Keywords :
current transformers; digital signal processing chips; fault currents; power engineering computing; power transformer protection; power transformer testing; wavelet transforms; DS1102; current transformer saturation; digital signal processor board; internal fault currents; magnetizing inrush; real-time testing; three-phase transformer; transformer protection; wavelet-packet-transform-based protection; Circuit faults; Current transformers; Digital signal processors; Fault currents; Power transformers; Saturation magnetization; Signal processing algorithms; Surge protection; Testing; Wavelet packets; Current transformer (CT) saturation and Daubechies wavelet (db4); current transformers (CTs); differential current; differential protection; internal faults; magnetizing inrush current; power transformer; wavelet transforms;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2005.851562
