Investigation of the throughput of the dosing device gas leak for gas discharge electron gun
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Abstract
Model of capacity of valve with conic rod, which is used for control of beam current of high voltage glow discharge electron guns, is considered. Because of complicity of valve details geometry, mathematical model of dozed item is improved by suitable choosing of empirical coefficients and its approximation. On the base of modeling and experimental data analyzing of dependence of valve exploitation characteristics from geometry parameters of dozed item is provided. Obtained results can be used for simulation of stability of operation of high voltage glow discharge electron guns inconsisting of technological equipment
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References
S. Denbnoveckij, V. Mel’nik, I. Mel’nik, and B. Tugaj, “Gazorazryadnye elektronnye pushki i ih primenenie v promyshlennosti [Gas discharge electron guns and their application in industry]”, Electronics and communications, Tematicheskij vypusk «Problemy elektroniki», no. 2, pp. 84–87, 2005.
I. Mel’nik, B. Tugaj, and S. Tugaj, “Povyshenie stabil’nosti raboty elektromagnitnogo natekatelya v sisteme avtomaticheskogo upravleniya tokom gazorazryadnoj pushki [Improving the stability of the electromagnetic leak in the automatic current control system of a gas-discharge gun]”, Electronics and communications, no. 14, pp. 172–175, Jan. 2002.
A. I. Pipko, V. Y. Pliskovskij, and E. A. Penchko, Konstruirovanie i raschet vakuumnyh system [ Design and calculation of vacuum systems], Moscow: Energiya, 1979, p. 504.
V. Gejnce, Vvedenie v vakuumnuyu tekhniku: V 2 t. [Introduction to vacuum technology], Moscow: Gosenergoizdat, 1. Fizicheskie osnovy vakuumnoj tekhniki vol. 1. Moscow: Gosenergoizdat, 1960, p. 511.
G. Tyagunov, Osnovy rascheta vakuumnyh system [Basics of calculating vacuum systems], Moscow: Gosenergoizdat, 1948, p. 148.
V. P. Vasil’ev, CHislennye metody resheniya ekstremal'nyh zadach [Numerical methods for solving extreme problems], Moscow: Nauka, 1988, p. 552.
S. V. Denbnoveckij, A. I. Kubrak, V. I. Mel’nik, and B. A. Tugaj, “Modelirovanie sistemy avtomaticheskogo upravleniya tokom gazorazryadnoj elektronnoj pushki [Simulation of an automatic control system for the current of a gas-discharge electron gun]”, Electronics and communications, no. 11, pp. 51–54, Jan. 2002.
