Yu. V. Krivosheev – Ph.D. (Eng.), Senior Research Scientist, PJSC “Radiofizika”; Lecturer of Department “Radiophysics and Engineering Cybernetics”, Moscow Institute of Physics and Technology

E-mail: krivosheev-yury@yandex.ru

I. Yu. Danilov – Ph.D. (Eng.), Head of Department, JSC Academician M.F. Reshetnev Information Satellite Systems (Zheleznogorsk)

A. S. Pershin – Ph.D. (Eng.), Head of Sector, JSC Academician M.F. Reshetnev Information Satellite Systems (Zheleznogorsk)

A. V. Shishlov – Ph.D. (Eng.), Head of Department, PJSC “Radiofizika”; Deputy Head of Department “Radiophysics and Engineering Cybernetics”, Moscow Institute of Physics and Technology

E-mail: shishlov54@mail.ru

Comparison of Ka-band multiple beam reflector antennas with three feed arrays has been presented. Two antennas use overlapping clusters to form multiple beams, while the third one forms each beam using a single multimode horn.

1. Anpilogov V.R., Shishlov A.V., Ejdus A.G. Mnogoluchevye antennye sistemy HTS // Tekhnologii i sredstva svyazi. 2013. № 6-2 (99). S. 54–67.
2. Shishlov A.V., Levitan B.A., Topchiev S.A., Anpilogov V.R., Denisenko V.V. Mnogoluchevye antenny dlya sistem radiolokatsii i svyazi // Zhurnal radioelektroniki. 2018. V pechati.
3. Schneider M., Hartwanger C., Wolf H. Antennas for multiple spot beam satellites // CEAS Space Journal. Springer Link. 2011. P. 1–18.
4. Palacin B., Fonseca N.J.G, Romier M., Contreres R., Angevain G.C., Toso G., Mangenot C. Multibeam antennas for very high throughput satellites in Europe: Technologies and trends // 2017 11th European Conference on Antennas and Propagation (EUCAP). P. 2413–2417.
5. Leclerc C., Romier M., Aubert H., Annabi A. Ka-band multiple feed per beam focal array using interleaved couplers // IEEE Transactions on Microwave Theory and Techniques. 2014. V. 62. № 6. P. 1322–1329.
6. Leclerc C., Aubert H., Romier M, Annabi A. Design of multiple feed per beam antenna based on a 3-D directional coupler topology // 15th International Symposium of Antenna Technology and Applied Electromagnetics (ANTEM). 2012.
7. Krivosheev Yu.V., Shishlov A.V., Ganin S.A., Yom I.V., Om M.S., Yun S.Kh. Klasternyj obluchatel' mnogoluchevykh zerkal'nykh antenn na osnove rebristo-sterzhnevykh izluchatelej // Radiotekhnika. 2016. № 4. S. 56–62.
8. Bhattacharyya A.K., Gouette G. A novel horn radiator with high aperture efficiency and low cross-polarization and applications in arrays and multibeam reflector antennas // IEEE Transactions on Antennas and Propagation. 2004. V. 52. № 11. P. 2850–2859.
9. Chan K.K., Rao S.K. Design of high efficiency circular horn feeds for multibeam reflector applications // IEEE Transactions on Antennas and Propagation. 2008. V. 56. № 1. P. 253–258.
10. Krivosheev Yu.V., Rossel's N.A., Cherkasova T.V., Shishlov A.V. Vysokoeffektivnyj rupornyj izluchatel' dlya antennykh reshetok s geksagonal'noj setkoj // Radiotekhnika. 2016. № 10. S. 32–37.
11. Krivosheev Yu.V., Shishlov A.V., Suserov Yu.A., Denisenko V.V. Razrabotka, modelirovanie i izmerenie kharakteristik vysokoeffektivnogo rupornogo izluchatelya dlya fazirovannykh antennykh reshetok // Radiotekhnika. 2018. № 4. S. 47–52.
12. Skobelev S.P., Vilenko I.L., Suserov Yu.A., Tobolev A.K., Shishlov A.V. Kombinirovannyj podkhod k analizu osesimmetrichnykh rupornykh antenn // Radiotekhnika. 2007. № 4. S. 82–90.
13. Krivosheev Yu.V., Vilenko I.L., Shishlov A.V. Design2 (programma dlya EVM) / Avt. svid. № 2012616355. 12 iyulya 2012 g.
14. Krivosheev Yu.V., Shishlov A.V. High efficiency horn with hexagonal aperture for antenna arrays // Proceedings of PIERS. St. Petersburg. 2017. P. 813.