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Bakerenkov, A. S., Shaltaeva, Y. R., Rodin, A. S., Glukhov, N. S., & Felitsyn, V. A. (2018). Schematic Method of Estimation and Increase of Radiation Hardness of the Onboard Radio-electronic Equipment for Space Applications. KnE Engineering, 3(6), 103–105. https://doi.org/10.18502/keg.v3i6.2980

https://doi.org/10.18502/keg.v3i6.2980

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authors

  • A S Bakerenkov
    No author data available.
  • Y R Shaltaeva
    No author data available.
  • A S Rodin
    No author data available.
  • N S Glukhov
    No author data available.
  • V A Felitsyn
    No author data available.

Published Date

  • Oct 8, 2018

Schematic Method of Estimation and Increase of Radiation Hardness of the Onboard Radio-electronic Equipment for Space Applications

KnE Engineering / Breakthrough directions of scientific research at MEPhI: Development prospects within the Strategic Academic Units / Pages 103–105

Abstract

Experimental and theoretical justification of a schematic method of estimation and increase of radiation hardness of the onboard radio-electronic equipment for space applications on the example of the standard circuit of the voltage follower combining the most widespread schematic decisions: differential stage, current mirror and emitter follower.

References
[1] Bakerenkov, A. S., Belyakov, V. V., Kozyukov, A. E., et al. Temperature control system for the study of single event effects in integrated circuits using a cyclotron accelerator. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.


[2] Anashin, V. S., Kozyukov, A. E., Emeliyanov, V. V., et al. Equipment and test results of the electronic components to SEE in the temperature. IEEE Radiation Effects Data Workshop, 6353725.