350 rub
Journal Radioengineering №4 for 2020 г.
Article in number:
Research of the effect of design factors on the electrical parameters of integral functional units of APAA receive-transmitmodules
Type of article: scientific article
DOI: 10.18127/j00338486-202004(7)-06
UDC: 621.396.6
Authors:

P.A. Tushnov – Chief Technologist, 

PJSC «Radiofizika» (Moscow)

V.S. Berdyev – Ph.D. (Eng.), Head of Department, 

PJSC «Radiofizika» (Moscow)

B.A. Levitan – Ph.D. (Eng.), General Director, 

PJSC «Radiofizika» (Moscow); 

Head of Department of Radio-Physics and Technical Cybernetics, 

Moscow Institute of Physics and Technology; 

Head of Department «Design of complex technical systems», 

Institute of Applied Mechanics, Moscow Aviation University (National Research University)

Abstract:

Problem statement. A critical task in the design of APAA receive-transmit modules is optimization of structural and technological solutions for coordinated microwave connections of integral functional units. An insufficiently studied issue is determination of dependency nature of electrical parameters of microwave devices on design factors.

Goal. We aim to propose an approach to optimization of connection option choice for integral functional units and a technology for microwave nodes connection; to carry out an analytical calculation of the coordination of connections of a monolithic integrated circuit and a board of an integral functional unit.

Results. A new approach to optimization of connection option choice for integral functional units is proposed.

Practical significance. The technology for microwave nodes connection of receive-transmit modules allows to create a more advanced integral functional unit and transmitting microwave path of the RTM in general.

Pages: 47-60
References
  1. Tushnov P.A., Berdyev V.S., Levitan B.A. Aspekty razvitiya tekhnologij priemoperedayushchih modulej aktivnyh fazirovannyh reshetok. Radiotekhnika. 2015. № 4. S. 91−98 (In Russian).
  2. Tushnov P.A. Tekhnologicheskaya rekonstrukciya dlya sozdaniya novogo pokoleniya RLS s AFAR. V kn. «Tekhnologii radiolokacii. K 55letiyu PAO «Radiofizika». M.: Veche. 2015. S. 494−511 (In Russian).
  3. Topchiev S.A., Nikitin M.V. Razrabotka v PAO «Radiofizika» RLS s cifrovymi AFAR. Sb. nauch. trudov  XIII molodezhnoj nauchnotekhnich. konf. «Radiolokaciya i svyaz' – perspektivnye tekhnologii». M.: PAO «Radiofizika». 2015 (In Russian).
  4. Berdyev V.S., Levitan B.A., Tushnov P.A., SHishlov A.V.  Povyshenie effektivnosti  peredayushchih AFAR za schet upravleniya vyhodnoj moshchnost'yu kanalov priemoperedayushchih modulej. Radiotekhnika. 2016. № 10.C. 88-99 (In Russian).
  5. Tushnov P.A., Berdyev V.S. Tekhnologiya upravleniya vyhodnoj moshchnost'yu priemo-peredayushchego modulya AFAR. Radiotekhnika. 2015. № 10. S. 62−74 (In Russian).
  6. Tushnov P.A., Berdyev V.S., Gevorgyan O.A.   Issledovanie osobennostej primeneniya v SVCH-ustrojstvah moshchnyh tranzistorov na osnove GaN-geterostruktur. Radiotekhnika. 2017. № 4. S. 33−43 (In Russian).
  7. Tushnov P.A, Lashchev D.E., Sudarenko A.A., Kozlov D.V., Andrianov A.M., Negodaev P.N., Nevokshenov A.V. Opticheskie gibridnye integral'nye ustrojstva peredachi cifrovyh i analogovyh signalov. Sb. dokladov II Vseross. nauchno-tekhnich. konf. «Sostoyanie i perspektivy razvitiya sovremennoj nauki po napravleniyu «Informatika i vychislitel'naya tekhnika». FGAU «VIT «Era». g. Anapa 27-28 fevralya 2020 g. (In Russian).
  8. Tushnov P.A., Berdyev V.S., Mitrofanov M.M.  Tekhnologicheskie aspekty modul'nogo principa postroeniya SVCH-traktov  PPM AFAR. Radiotekhnika. 2017. № 4. S. 33−43 (In Russian).
  9. Patent RF №128791 Priemoperedayushchij modul' aktivnoj fazirovannoj antennoj reshetki. Berdyev V.S., Dominyuk YA.V., Levitan B.A., Molchanov E.G., Ochkov D.S., Radchenko V.P., Sudarenko A.A., Topchiev S.A., Tushnov P.A., Formal'nov I.S., YArchak I.A., SHarovA.I., Tereshchenko YU.G. (In Russian).
  10. Patent RF № 2566601. Priemoperedayushchij SVCH-modul'. Berdyev V.S., Dominyuk YA.V., Levitan B.A., Mitrofanov M.M., Radchenko V.P., Tokmakov D.I., Topchiev S.A., Tushnov P.A. (In Russian).
  11. Patent RF № 2584006 Usilitel'nyj blok. Tushnov P.A. (In Russian).
  12. Patent RF № 154186. Radioelektronnoe ustrojstvo. Tushnov P.A. (In Russian).
  13. Patent RF № 2566328. SVCH-modul'. Tushnov P.A. (In Russian).
  14. Patent RF № 2576666. Sposob montazha moshchnogo poluprovodnikovogo elementa. Levitan B.A., Kuzin A.A., Topchiev S.A., Radchenko V.P., Dominyuk YA.V., Tushnov P.A., Berdyev V.S., Kolyushev A.V., Mitrofanov M.M., Kostin D.YU., Astaf'ev A.A. (In Russian).
  15. Patent RF № 2562440. Priemo-peredayushchij modul'. Dominyuk YA.V., Levitan B.A., Topchiev S.A., Tushnov P.A. (In Russian).
  16. Romanyuk V.A. Priemoperedayushchie ustrojstva: Ucheb. posobie. M.: Nacional'nyj issledovatel'skij universitet «MIET». 2013 (In Russian).
  17. Vygodskij M.YA. Spravochnik po vysshej matematike. M.: Fiziko-matematicheskaya literatura. 1962 (In Russian).
  18. Barzhin V.YA., Bokk O.F., Valitov R.A. i dr. Radioperedayushchie ustrojstva na poluprovodnikovyh priborah. Proektirovanie i raschet. Pod red. R.A. Valitova i I.A. Popova. M.: Sovetskoe radio. 1973. 464 s. (In Russian).
  19. Bogachev V.M., Nikiforov V.V. Tranzistornye usiliteli moshchnosti. M.: Energiya. 1978. 217 s. (In Russian).
  20. Balakirev M.V., Vohmyakov YU.S., ZHurikov A.V. i dr. Radioperedayushchie ustrojstva. Pod red. O.A. CHelnokova. M.: Radio i svyaz'. 1982. 256 s. (In Russian).
Date of receipt: 17 марта 2020 г.