Title :
Unsynchronized two-terminal fault location estimation
Author :
Novosel, Damir ; Hart, David G. ; Udren, Eric ; Garitty, Jim
fDate :
1/1/1996 12:00:00 AM
Abstract :
A technique for power system fault location estimation which uses data from both ends of a transmission line and which does not require the data to be synchronized is described. The technique fully utilizes the advantages of digital technology and numerical relaying which are available today and can easily be applied for offline analysis. This technique allows for accurate estimation of the fault location irrespective of the fault type, fault resistance, load currents, and source impedances. Use of two-terminal data allows the algorithm to eliminate previous assumptions in fault location estimation, thus increasing the accuracy of the estimate. The described scheme does not require real-time communications, only offline post-fault analysis. The paper also presents fault analysis techniques utilizing the additional communicated information
Keywords :
fault location; power system analysis computing; power transmission lines; transmission network calculations; transmission networks; accuracy; algorithm; computer simulation; digital technology; fault resistance; fault type; load currents; numerical relaying; offline post-fault analysis; power system; source impedance; transmission line; two-terminal fault location estimation; Current distribution; Differential equations; Digital relays; Fault location; Impedance; Information analysis; Nonlinear equations; Power system relaying; Springs; Substations;
Journal_Title :
Power Delivery, IEEE Transactions on
