Open Access
MATEC Web of Conferences
Volume 61, 2016
The International Seminar on Applied Physics, Optoelectronics and Photonics (APOP 2016)
Article Number 02016
Number of page(s) 4
Section Chapter 2 Electronic Technology and Electrical Engineering
Published online 28 June 2016
  1. Stokes A D, Oppenlander W T. Electric arcs in openair[J]. Journal of Physics D: Applied Physics, 1991, 24 (1): 26. [CrossRef]
  2. Goda, Yutaka, et al. “Arc voltage characteristics of high current fault arcs in long gaps.“Power Delivery, IEEE Transactions on 15.2 (2000): 791–795.
  3. Terzija, Vladimir, et al. “New Static “AirArc” EMTP Model of Long Arc in Free Air.“Power Delivery, IEEE Transactions on 26.3 (2011): 1344–1353.
  4. Elkalashy, Nagy I., et al. “Modeling and experimental verification of high impedance arcing fault in medium voltage networks. Dielectrics and Electrical Insulation, IEEE Transactions on 14.2 (2007): 375–383. [CrossRef]
  5. Browne T E. The electric arc as a circuit element[J]. Journal of the Electrochemical Society, 1955, 102 (1): 27–37. [CrossRef]
  6. Fisher, Lawrence E. “Resistance of low-voltage ac arcs.” Industry and General Applications, IEEE Transactions on 6 (1970): 607–616.
  7. Lowke J J. Simple theory of free-burning arcs[J]. Journal of physics D: Applied physics, 1979, 12 (11): 1873. [CrossRef]
  8. Gammon, Tammy, and John Matthews. “The historical evolution of arcing-fault models for low-voltage systems.” Industrial & Commercial Power Systems Technical Conference, 1999 IEEE. IEEE, 1999.
  9. Gammon, Tammy, and John Matthews. “Instantaneous arcing-fault models developed for building system analysis.” Industry Applications, IEEE Transactions on 37.1 (2001): 197–203.
  10. Darwish, Hatem A., and Nagy I. Elkalashy. “Universal arc representation using EMTP.“Power Delivery, IEEE Transactions on 20.2 (2005): 772–779.
  11. Tseng, King-Jet, Yaoming Wang, and D. Mahinda Vilathgamuwa. “An experimentally verified hybrid Cassie-Mayr electric arc model for power electronics simulations.” Power Electronics, IEEE Transactions on 12.3 (1997): 429–436.
  12. Schavemaker P H, Van der Slui L. An improved Mayr-type arc model based on current-zero measurements [circuit breakers] p]. Power Delivery, IEEE Transactions on, 2000, 15 (2): 580–584. [CrossRef]
  13. Terzija, Vladimir V., and H-J. Koglin. “On the modeling of long arc in still air and arc resistance calculation.“Power Delivery, IEEE Transactions on 19.3 (2004): 1012–1017.
  14. Djuric, M. B., and V. V. Terzija. “A new approach to the arcing faults detection for fast autoreclosure in transmission systems.“Power Delivery, IEEE Transactions on 10.4 (1995): 1793–1798.
  15. Kizilcay, M., and T. Pniok. “Digital simulation of fault arcs in power systems.“ European Transactions on Electrical Power 1.1 (1991): 55–60.
  16. Kizilcay, Mustafa, and Piergiovanni La Seta. “Digital simulation of fault arcs in medium-voltage distribution networks.“15th PSCC, Liege (2005): 22–26.
  17. Kizilcay, M., and K-H. Koch. “Numerical fault arc simulation based on power arc tests.“ European Transactions on Electrical Power 4.3 (1994): 177–185.
  18. Funabashi, Toshihisa, et al. “Influence of fault arc characteristics on the accuracy of digital fault locators.“ Power Delivery, IEEE Transactions on 16.2 (2001): 195–199. [CrossRef]
  19. Idarraga Ospina, G., D. Cubillos, and L. Ibanez. “Analysis of arcing fault models.” Transmission and Distribution Conference and Exposition: Latin America, 2008 IEEE/PES. IEEE, 2008.
  20. Xu, Zhihan. Fault location and incipient fault detection in distribution cables. Diss. The University of Western Ontario, 2011
  21. Elkalashy, Nagy Ibrahim. Modeling and detection of high impedance arcing fault in medium voltage networks. Helsinki University of Technology, 2007.
  22. Johns, A. T., R. K. Aggarwal, and Y. H. Song. “Improved techniques for modelling fault arcs an faulted EHV transmissionsystems.” IEE Proceedings-Generation, Transmission and Distribution 141.2 (1994): 148–154. [CrossRef]
  23. Wu, Huaren, et al. “Arc fault model for low-voltage AC systems.”Power Delivery, IEEE Transactions on 20.2 (2005): 1204–1205.
  24. Parise, Giuseppe, Luigi Martirano, and Marco Laurini. “Simplified arc-fault model: the reduction factor of the arc current.“Industry Applications, IEEE Transactions on 49.4 (2013): 1703–1710.

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.