ACCURATE CALCULATION OF FAULT CURRENT PHASORS FOR USE IN FAULT LOCATION

S.M. Brahma

References

  1. [1] M. Tawfik & M. Morcos, ANN-based techniques for estimating fault location on transmission lines using Prony method, IEEE Transactions on Power Delivery, 16 (2), 2001, 219–224. doi:10.1109/61.915486
  2. [2] Z. Galijasevic & A. Abur, Fault location using voltage measurements, IEEE Transactions on Power Delivery, 17 (2), 2002, 441–445. doi:10.1109/61.997915
  3. [3] A. Girgis & G. Brown, Adaptive Kalman filtering in computer relaying: fault classification using voltage models, IEEE Transactions on Power Apparatus and Systems, 104 (5), 1985, 1168–1177. doi:10.1109/TPAS.1985.323469
  4. [4] S.M. Brahma & A. Girgis, Fault location on a transmission line using synchronized voltage measurements, IEEE Transactions on Power Delivery, 19 (4), 2004, 1619–1622. doi:10.1109/TPWRD.2003.822532
  5. [5] S.M. Brahma, Fault location scheme for a multi-terminal transmission line using synchronized voltage measurements, to appear in IEEE Transactions on Power Delivery, 20 (2), 2005.
  6. [6] K. Takagi, Y. Yamakoshi, M. Yamaura, R. Kondow, et al., Development of a new type fault locator using the one terminal voltage and current data, IEEE Transactions on Power Apparatus and Systems, PAS-101 (8), 1982, 2892–2898.
  7. [7] A. Girgis, D. Hart, & W. Peterson, A new fault location technique for two- and three-terminal lines, IEEE Transactions on Power Delivery, 7 (1), 1992, 98–107. doi:10.1109/61.108895
  8. [8] M. Abe, T. Emura, N. Otsuzuki, & M. Takeuchi, Development of a new fault location system for multi-terminal single transmission lines, IEEE Transactions on Power Delivery, 10 (1), 1995, 159–168. doi:10.1109/61.368402
  9. [9] Joe-Air Jiang, Jun-Zhe Yang, Ying-Hong Lin, Chih-Wen Liu, et al., An adaptive PMU based fault detection/location technique for transmission lines Part I: Theory and algorithms, IEEE Transactions on Power Delivery, 15 (2), 2000, 486–493.
  10. [10] D. Gopalakrishnan, Hamai, M. Kezunovic, & S. McKenna,Fault location using the distributed parameter transmission line model, IEEE Transactions on Power Delivery, 15 (4), 2000, 1169–1174. doi:10.1109/61.891498
  11. [11] M. Djuric, Z. Radojevic, & V. Terzija, Distance protection and fault location utilizing only phase current phasors, IEEE Transactions on Power Delivery, 13 (4), 1998, 1020–1026. doi:10.1109/61.714437
  12. [12] IEEE standard requirements for instrument transformers, IEEE Standard C57.13-1993, March 1994, 25,19,42–43,49–54,57,50.
  13. [13] S.M. Brahma, Reduction of current transformer error in fault detection, Proc. International Conference on Distributed Generation, Advanced Metering and Communication, Clemson, SC, 2004.
  14. [14] C. Pereira & L. Zanetta, Jr., Fault location in transmission lines using one terminal post fault voltage data, IEEE Transactions on Power Delivery, 19 (2), 2004, 570–575.
  15. [15] Y. Lin, C. Liu, & C. Chen, A new PMU-based fault detection/location technique for transmission lines with consideration of arcing fault discrimination-part I: theory and algorithms, IEEE Transactions on Power Delivery, 19 (4), 2004, 1587–1593, 1594–1601.
  16. [16] H. Saadat, Power system analysis (McGraw-Hill, 2002) 354–363.
  17. [17] J.L. Blackburn, Symmetrical components for power systems engineering (New York, NY: Marcel Dekker Inc., 1993) 98–99.

Important Links:

Go Back