Identyfikatory
Warianty tytułu
Problems of modelling of ZnO arresters for simulation of their protection performance in ATP-EMTP
Języki publikacji
Abstrakty
W oparciu o dostępną literaturę oraz wyniki badań własnych przeprowadzono analizę aktualnych problemów modelowania ograniczników ZnO w ATP-EMTP. W pierwszej kolejności analiza dotyczyła modelowania charakterystyki statycznej ograniczników. Następnie poddano analizie znacznie trudniejszy problem modelowania charakterystyki dynamicznej. Zaproponowano użycie modułów analogowych ATP-EMTP do modelowania indukcyjności ogranicznika zależnej od szybkości zmian prądu.
Basing on available literature and author's research results, an analysis of up-to-date problems of modelling of ZnO arresters in ATP-EMTP was conducted. First, modelling of the arrester static characteristic was put to the analysis. Afterwards, more difficult problem of dynamic characteristic modelling was treated. The use of ATP-EMTP analogue modules for modelling of arrester inductance dependent on current change speed was proposed.
Wydawca
Czasopismo
Rocznik
Tom
Strony
82--86
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
- Politechnika Rzeszowska, Zakład Energoelektroniki i Elektroenergetyki, wyderka@prz.edu.pl
Bibliografia
- [1] Alternative Transients Program (ATP) - Rule Book, Canadian / American EMTP User Group, 1987-1995.
- [2] Dommel H., W., Electromagnetic Transients Program - Theory Book, BPA Portland, USA, August 1986.
- [3] Schmidt W., Meppelink J., Richter B., Feser K., Kehl L., Qiu D., Behaviour of MO-surge-arrester blocks to fast transients, IEEE Trans. Pow. Del., 4 (1989), n.1, 292-300
- [4] Haddad A., Naylor P., Dynamic impulse conduction in ZnO arresters, Int. Symp. High-Volt. Eng., London, 1999.
- [5] Drilling C., Droldner M., Jordan E.G., Meppelink J.: A device for correct measurement of the residual voltage of low voltage surge arresters and spark gaps during the application of high rate of rise current impulses, Proc. 24th ICLP, 1998, Birmingham, 899-904
- [6] Wyderka S.: Modelling of metal oxide varistors for needs of simulation of disturbances in electrical supply systems, Int. Symp. EMC, 1996, Rome, 333-338
- [7] Wyderka S.: Digital model of medal oxide surge arrester based on catalogue data, Proc. 24th ICLP, 1998, Birmingham, 778-783
- [8] Li Y., Shi W., Niu X., A Composite Exponential and Linear MOA Model for Switching Transient Simulation, IEEE Trans. Pow. Del., 17 (2002), n.3, 730-734
- [9] Wyderka S., Knott M., Stankiewicz W., Selection of ZnO-varistors for protection of electronic equipment and systems, Proc. 22nd ICLP, 1994, Budapest, R 5.09
- [10] Kim I., Funabshi T., Sasaki H., Hagiwara T., Kobayashi M., Study of ZnO arrester model for steep front wave, IEEE Trans. Pow. Del., 11 (1996), n.2, 834-841
- [11] IEEE Working Group 3.4.11, Modelling of metal oxide surge arresters, IEEE Trans. Pow. Del., 7 (1992), n.1, 302-309
- [12] Tominaga S., Azumi K., Shibuya Y., Imataki M., Fujiwara Y., Nichida S., Protective performance of metal oxide surge arrester based on the dynamic v-i characteristics, IEEE Trans. PAS, 98 (1979), 1860-1871
- [13] Bajorek J., Knott M., Wyderka S., Efficiency of ZnO arrester models in digital simulation of lightning overvoltages, Proc. 21st ICLP, 1992, Berlin, 265-270
- [14] Bayadi A., Harid N., Zehar K., Belkhiat S., Simulation of metal oxide arrester dynamic behaviour under fast transients, Proc. IPST, 2003, New Orleans,
- [15] Zitnik M., Thottappillil R., Scuka V., A comparative study of two varistor models, Proc. 25th ICLP, 2000, Rhodes, 842-847
- [16] Pinceti P., Giannettoni M., A simplified model for zinc oxide surge arresters, IEEE Trans. Pow. Del., 14 (1999), n.2, 393-398
- [17] Magro M., C., Pinceti P., Giannettoni M., Validation of ZnO Surge Arresters Model for Overvoltage Studies, IEEE Trans. Pow. Del., 19 (2004), n.4, 1692-1695
- [18] Fernandez F., Diaz R., Metal-oxide surge arrester model for fast transient simulations, Proc. IPST, 2001, paper 144
- [19] Larson A., A Low-Voltage Varistor Module for use within ATP-EMTP Simulations, EEUG News, Nov. 1997, 39-43
- [20] Montano R., Edirisinghe M., Cooray V., Roman F., Varistor models – a comparison between theory and practice, Proc. 27th ICLP, 2004, Avignon, paper 7p.7
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOK-0006-0018