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000000203 037__ $$aENY-ARTICLE-2008-156
000000203 041__ $$aeng
000000203 100__ $$aIzykowski, J$$uWroclaw University of Technology, Wroclaw, Poland
000000203 245__ $$aA New Fault Location Algorithm for Use with Current Differential Protective Relays of Two-Terminal Line
000000203 260__ $$c2008-07-14
000000203 300__ $$a6p
000000203 500__ $$aProceedings of 16th Power Systems Computation Conference, PSCC 2008, Glasgow, Scotland, 14-18 July, 2008, paper No. 55
000000203 520__ $$aA new fault location algorithm utilising synchronised measurements of two-end currents and one-end voltage is presented. It has been assumed that such fault location algorithm is incorporated into the current differential relay. In this way, the communication between the line ends of differential relays is utilised. By incorporating the fault location function, an increase of the relay functionality is achieved. The derived fault location formula is compact and covers different fault types – what requires setting the appropriate fault type coefficients. High accuracy of fault location is assured by strict considering of the distributed parameter line model. The solution is obtained with applying iterative calculations based on the Newton- Raphson method. For starting the calculations, the solutions obtained for the lumped line model are utilised. The performed ATP-EMTP evaluation prove the validity of the presented fault location algorithm and its high accuracy.
000000203 6531_ $$apower line
000000203 6531_ $$acurrent differential relay
000000203 6531_ $$afault location
000000203 6531_ $$atwo-end measurement
000000203 6531_ $$aATP-EMTP
000000203 700__ $$aRosolowski, E$$uABB AB, Västerås, Sweden
000000203 700__ $$aSaha, M$$uWroclaw University of Technology, Wroclaw, Poland
000000203 8560_ $$
000000203 8564_ $$u$$zAccess to Fulltext
000000203 909CO $$$$pglobal
000000203 980__ $$aARTICLE