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Journal Achievements of Modern Radioelectronics №7 for 2024 г.
Article in number:
Optoelectronic system for measuring and analyzing the parameters of an electrical signal in a radio receiver path
Type of article: scientific article
DOI: https://doi.org/10.18127/j20700784-202407-09
UDC: 778.3; 621.37
Authors:

B.А. Barabolya1, K.О. Demidenko2, S.V. Karavaev3, A.V. Petukhov4, A.G. Prygunov5

1–5 FSUE «RNIIRS» (Rostov-on-Don, Russia)

5 agprygunov@mail.ru

Abstract:

The relevance of monitoring the level of signal distortion in radio reception equipment is substantiated. A block diagram of a holographic optoelectronic system for measuring and analyzing the level of an electrical signal in a radio receiver path is presented. The measurement algorithm is described. The sensitivity of the holographic sensitive unit of the developed system was researched. Mathematical modeling made it possible to evaluate the influence of the parameters of the optical circuit of the holographic sensitive element in the developed optoelectronic system on its sensitivity was carried out.

Pages: 85-95
For citation

Barabolya B.А., Demidenko K.О., Karavaev S.V., Petukhov A.V., Prygunov A.G. Optoelectronic system for measuring and analyzing the parameters of an electrical signal in a radio receiver path. Achievements of modern radioelectronics 2024. T. 78. № 7. P. 85–95. DOI: https://doi.org/10.18127/j20700784-202407-09 [in Russian]

References
  1. GOST R 52016-2003. Priyomniki magistral`noj radiosvyazi gektometrovogo i dekametrovogo diapazona voln. Parametry`, obshhie texnicheskie trebovaniya i metody` izmerenij. M.: Gosstandart Rossii. 2003.
  2. Kulikov G.V., Paramonov A.A. Radioveshhatel`ny`e priyomniki: Ucheb posobie dlya vuzov. M.: Goryachaya liniya-Telekom. 2011. 120 s.
  3. Bogdanovich B.M. Okulich N.I. Radiopriemny`e ustrojstva: Uchebnoe posobie dlya vuzov / Pod obshhej redakciej B.M. Bogdanovicha. M.: Vy`sshaya shkola 1991. 428 s.
  4. Mezhvedomstvennaya programma issledovanij i razrabotok v oblasti fotoniki na 2017–2020 gody`. Razrabotana na osnovanii Protokola zasedaniya prezidiuma Soveta pri Prezidente RF po modernizacii e`konomiki i innovacionnomu razvitiyu Rossii ot 9 iyulya 2014 g. № 4.
  5. Ostrovskaya G.V. Golograficheskaya interferometriya fizicheskix processov. Zhurnal texnicheskoj fiziki. 2016. T. 86. Vy`p. 6. S. 1–16.
  6. Pry`gunov A.G. Osobennosti primeneniya ob``yomny`x gologramm v fotonny`x ustrojstvax telekommunikacionny`x system. Radiotexnika. 2023. T. 87. № 1. S. 116–125.
  7. Pry`gunov A.G. Fizicheskie osnovy` ispol`zovaniya golograficheskogo interferometra v fotonny`x telekommunikacionny`x ustrojstvax. Radiotexnicheskie i telekommunikacionny`e sistemy`. Nauchno-texnicheskij zhurnal. 2021. № 2. S. 42–48.
  8. Pry`gunov A.G. Analiz svojstv izbiratel`nosti ob``yomnoj gologrammy` v golograficheskom fotonnom ustrojstve. Zhurnal radioe`lektroniki [e`lektronny`j zhurnal]. 2021. № 11. URL https://www.elibrary.ru/contents.asp?titleid=8679, DOI: https://doi.org/10.30898/ 1684-1719.2021.11.5.
  9. Petrov V.M., Shamraj A.V. SVCh integral`no-opticheskie modulyatory`. Teoriya i praktika. SPb.: Universitet ITMO. 2021. 225 s.
  10. Rebrin Yu.K. Upravlenie opticheskim luchom v prostranstve. M.: Sovetskoe radio. 1977. 336 s.
  11. Basiladze G.D., Berzhanskij V.N., Dolgov A.I. E`lektro- i magnitoopticheskie pereklyuchateli dlya volokonno-opticheskix setej svyazi. Uchyony`e zapiski Tavricheskogo nacional`nogo universiteta imeni V.I. Vernadskogo Seriya «Fiziko-matematicheskie nauki». 2012. T. 25 (64). № 1. S. 140–159.
  12. Bezuglov D.A., Pry`gunov A.G., Trepachev V.V. Analiz difrakcii sveta na e`talonnoj gologramme pri izmerenii peremeshhenij ob``ektov prostranstvenno-spektral`ny`m metodom. Avtometriya. SO RAN. 1998. № 5. S. 21–28.
  13. Pry`gunov A.G. Osobennosti primeneniya ob``yomny`x gologramm v fotonny`x ustrojstvax telekommunikacionny`x system. Radiotexnika. 2023. T. 87. № 1. S. 116–125.
  14. Pry`gunov A.G., Kornev A.S., Lazarenko S.V. Ocenka chuvstvitel`nosti opticheskix izmerenij s ispol`zovaniem golograficheskogo interferometra. Izmeritel`naya texnika. 2023. № 10. S. 56–62.
Date of receipt: 05.06.2024
Approved after review: 14.06.2024
Accepted for publication: 20.06.2024