P. Valsalal, S. Usa, and K. Udayakumar
[1] Working Group 33/13-09, Very fast transient phenomena as-sociated with gas insulated substations, CIGRE, 33–13, 1988,1–20. [2] F. Fernandez & R. Diaz, Metal-oxide surge arrester modelfor fast transient simulation, Int. Conf. on Power SystemsTransients, Rio De Janeiro, Brazil, 2001, 20–24. [3] R.E. Clayton, I.S. Grant, D.E. Hedman, & D.D. Wilson, Surgearrester protection and very fast surges, IEEE Trans. on PowerApparatus and Sytems, 102 (8), 1983, 2400–2411. doi:10.1109/TPAS.1983.317739 [4] V. Vinodkumar, M. Joy Thomas, & M.S. Naidu, Influence ofswitching conditions on the VFTO magnitudes in a GIS, IEEETrans. on Power Delivery, 16 (4), 2001, 539–544. doi:10.1109/61.956734 [5] IEEE Working Group 3.4.11, Modeling of metal oxide surgearresters, IEEE Trans. on Power Delivery, 7 (1), 1992, 302–309. doi:10.1109/61.108922 [6] P. Pinceti & M. Giannettoni, A simplified model for zinc oxidesurge arresters, IEEE Trans. on Power Delivery, 14 (2), 1999,393–398. doi:10.1109/61.754079 [7] A. Bayadi, N. Harid, K. Zehar, & S. Belkhiat, Simulationof metal oxide surge arrester dynamic behavior under fasttransients, Int. Conf. on Power Systems Transients, NewOrleans, 2003, 14b-1. [8] IEC 60099-4 International Standard Part 4, Metal oxide surgearresters without gaps for A.C. systems. [9] P. Sarma Maruvada & N. Hylten-Cavallius, Capacitance cal-culations for some basic high voltage electrode configurations,IEEE Trans. on PAS, 94 (5), 1708–1713. [10] Reference manual, Maxwell 2D field simulator, ANSOFTCorporation, February 2002.
Important Links:
Go Back