ABSTRACTS OF ARTICLES OF THE JOURNAL "INFORMATION TECHNOLOGIES".
No. 2. Vol. 27. 2021

DOI: 10.17587/it.27.59-64

D. A. Abrameshin, PhD Student, Principal Engineer, e-mail: dabrameshin@hse.ru, E. D. Pozhidaev, Dr. Sc., Tech., Professor, e-mail: EPozhidaev@hse.ru, S. R. Tumkovskiy, Dr. Sc., Tech., Professor, e-mail: STumkovskiy@hse.ru, National Research University "Higher School of Economics", Moscow, 101000, Russian Federation

Simulation of Radiation Charging of Microelectronic Equipment Cases for Space Applications

A model and a method for mathematical modeling of radiation charging of polymer microelectronic equipment housings with increased conductivity are developed, which are based on the application of the approximation function of the experimental dependence of the housing conductivity on the irradiation time obtained using parametric identification methods. The research results are aimed at developing composite polymer materials for microelectronic equipment housings with a conductivity that ensures the absence of electrostatic discharges and significantly increases the active life of spacecraft.
Keywords: mathematical and computer modeling, radiation contamination, radiation conductivity, electrostatic discharges, spacecraft, microelectronic equipment

P. 59–64

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