350 rub
Journal Achievements of Modern Radioelectronics №6 for 2024 г.
Article in number:
Antenna-waveguide devices with a single horn for satellite communication antenna systems
Type of article: scientific article
DOI: https://doi.org/10.18127/j20700784-202406-08
UDC: 621.396. 677
Authors:

V.I. Demchenko1, S.I. Boychuk2, A.O. Zhukov3, A.E. Korovkin4

1–4 FSUE «RNIIRS» (Rostov-on-Don, Russia)

4 alkejzer@mail.ru

Abstract:

A technical and recommendations for their use in the development and practical implementation of devices as part of antenna-waveguide paths with a single horn are presented to increase efficiency in monitoring MPA satellite communication systems.

The practical implementation of multi-band AVP for MPA is shown. Technical solutions for the construction of multi-band AVP for MPA satellite communication systems and remote sensing complexes, which differ from the known ones by the possibility of expanding the functionality of the AVT. Implementation of the monopulse auto-tracking mode using the H21 mode in dual-band auto-tracking machines using signals of specified polarizations in the required frequency ranges. When receiving signals of orthogonal linear and circular polarizations, the number of combined ranges increases to four.

Pages: 79-87
For citation

Demchenko V.I., Boychuk S.I., Zhukov A.O., Korovkin A.E. Antenna-waveguide devices with a single horn for satellite communication antenna systems. Achievements of modern radioelectronics. 2024. V. 78. № 6. P. 79–87. DOI: https://doi.org/10.18127/j20700784-202406-08 [in Russian]

References
  1. Korovkin A.E., Razdorkin D.Ya., Shlaferov A.L., Shipulin A.V. Antenno-volnovodny`e ustrojstva mnogodiapazonny`x zerkal`ny`x antenn. Antenny`. 2011. Vy`p. 12 (175). S. 38–41.
  2. Bojchuk S.I., Korovkin A.E., Razdorkin D.Ya. Antenno-volnovodny`e ustrojstva s ediny`m ruporom dlya mnogodiapazonny`x antenny`x system. Radiotexnika. 2019. T. 83. №7 (9). S. 202–208.
  3. Milligan T.A. Modern antenna design. 2005.
  4. Robert Dybdal. Communication satellite antennas: System architecture, technology and evaluation. 2009.
  5. Gabrie`l`yan D.D., Demchenko V.I., Korovkin A.E., Razdorkin D.Ya. Pokazateli i kriterii e`ffektivnosti obluchayushhej sistemy` mnogodiapazonnoj zerkal`noj antenny` radioe`lektronny`x kompleksov. Vestnik vozdushno-kosmicheskoj oborony`. 2018. № 4 (20). S. 24–33.
  6. Korovkin A.E., Razdorkin D.Ya., Shipulin A.V. Monoimpul`sny`j obluchatel` zerkal`ny`x antenn na vy`sshix tipax voln. Antenny`. 2012. № 9 (184). S. 14–18.
  7. Peskov S.N. Raschet veroyatnosti oshibki v cifrovy`x kanalax svyazi / S.N. Peskov, A.E. Ishhenko. Tele-Sputnik (zhurnal o cifrovom televidenii). 2010. № 11. S. 70–75.
  8. Korovkin A.E., Razdorkin D.Ya., Shipulin A.V. Mnogodiapazonny`e obluchateli zerkal`ny`x antenn na osnove konicheskix gof-rirovanny`x ruporov. Antenny`. 2012. № 9 (184). S. 19–23.
  9. Gabrie`l`yan D.D., Demchenko V.I., Korovkin A.E., Bojchuk S.I. Sposoby` chastotno-polyarizacionnogo razdeleniya signalov v zerkal`ny`x antennax sistem sputnikovoj svyazi. Fizika volnovy`x processov i radiotexnicheskie sistemy`. 2022. T. 25. № 2. S. 83–90.
Date of receipt: 22.04.2024
Approved after review: 07.05.2024
Accepted for publication: 22.05.2024