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Journal Radioengineering №8 for 2016 г.
Article in number:
Investigation of pulse parameters instability in generator with inductive energy storage and gas discharge current interrupter
Keywords:
Gas discharge current interrupter
inductive energy storage
charge
break current
break time
electron-ion collisions
Authors:
S.G. Shatilov - Engineer, Department «Industrial Electronics», Ryazan State Radio Engineering University. E-mail: serg.postbox@mail.ru
N.M. Vereschagin - Ph. D. (Eng.), Associate Professor, Department «Industrial Electronics», Ryazan State Radio Engineering University. E-mail: nmver@yandex.ru
S.A. Kruglov - Ph. D. (Eng.), Associate Professor, Department «Industrial Electronics», Ryazan State Radio Engineering University. E-mail: pel.rgrtu@yandex.ru
A.A. Serezhin - Ph. D. (Eng.), Associate Professor, Department «Industrial Electronics», Ryazan State Radio Engineering University. E-mail: andrei-serezhin@yandex.ru
D.S. Kislov - Undergraduate, Department «Industrial Electronics», Ryazan State Radio Engineering University
Abstract:
Researches on the instability of output pulse parameters in generator with an inductive energy storage and a gas discharge current interrupter depending on circuit parameters, pressure, temperature, pulse rate were held. The dependence of pulse parameters from the current flowing through the circuit breaker was found. It is proved that their change caused by the redistribution of the electron energy as a result of changes in the number of electron-ion collisions. It is shown that the curve of the temporary instability of the break moment from break current has the minimum that allows optimizing the interrupter operation, achieving minimum of the time instability (about 300 ns).
Pages: 175-183
References
- Vereshhagin N.M., Kruglov S.A. Vodorodnyjj tiratron kak razmykatel toka v skheme s induktivnym nakopitelem ehnergii // Vestnik Rjazanskojj gosudarstvennojj radiotekhnicheskojj akademii. 2002. № 10. S. 71−74.
- Vereshhagin N.M., Kruglov S.A. Generator vysokovoltnykh impulsov s induktivnym nakopitelem ehnergii i tiratronom // PTEH. 2002. № 2.
- Vereshhagin N.M., Kruglov S.A., Serezhin A.A., SHatilov S.G. Opredelenie rabochego rezhima gazorazrjadnogo preryvatelja toka v generatore s induktivnym nakopitelem ehnergii // Vestnik Rjazanskogo gosudarstvennogo radiotekhnicheskogo universiteta. 2015. № 54‑2. S. 121−126.
- Rajjzer JU.P. Fizika gazovogo razrjada: Ucheb. rukovodstvo dlja vuzov. Izd. 2-e, pererab. i dop. M.: Nauka. Gl. red. fiz.-mat. lit. 1992. 536 s.
- CHen F. Vvedenie v fiziku plazmy / Per. s angl. M.: Mir. 1987. 398 s.
- Fogelson T.B., Breusova L.N., Vagin L.N. Impulsnye vodorodnye tiratrony. M: Sov. radio. 1974.
- Granovskijj V.L. EHlektricheskijj tok v gaze. Ustanovivshijjsja tok. M.: Nauka. 1971. 543 s.
- Avakjan S.V., Ilin R.N., Lavrov V.M., Ogurcov G.N. Sechenija processov ionizacii i vozbuzhdenija UF izluchenija pri stolknovenijakh ehlektronov, ionov i fotonov s atomami i molekulami atmosfernykh gazov. Spravochnik. M.: GOI. 1998.
- Morgan database. URL = www.lxcat.net (5 April 2016).
- G.J.M. Hagelaar and L.C. Pitchford Solving the Boltzmann equation to obtain electron transport coefficients and rate coefficients for fluid models // Plasma Sci Sources and Tech. 2005. 14. 722.
- Vereshhagin N.M., Kruglov S.A., Pavlov M.B., Serezhin A.A., SHatilov S.G. Issledovanie teplovogo rezhima gazorazrjadnogo preryvatelja toka v skheme s induktivnym nakopitelem ehnergii // Vestnik Rjazanskogo gosudarstvennogo radiotekhnicheskogo universiteta. 2013. № 4‑2 (46). S. 100−102.