Email this article 
Bi-periodic linear antenna array
- Authors: Bankov S.E.1, Duplenkova M.D.1
-
Affiliations:
- Kotelnikov Institut of Radioengineering and Electronics RAS
- Issue: Vol 69, No 7 (2024)
- Pages: 622-631
- Section: ЭЛЕКТРОДИНАМИКА И РАСПРОСТРАНЕНИЕ РАДИОВОЛН
- URL: https://journals.rcsi.science/0033-8494/article/view/279631
- DOI: https://doi.org/10.31857/S0033849424070035
- EDN: https://elibrary.ru/HZDJJY
- ID: 279631
Cite item
Open Access
Access granted
Abstract
А series-fed antenna containing two parallel linear arrays in a common aperture is proposed in this letter. Elements of the arrays are elementary resonant radiators. Proposed antenna can operate both in a dual-frequency mode and in a mode with one extended frequency range. Such an antenna in the dual-band mode provides a maximum gain in a given direction in two separate frequency ranges. The convergence of the frequency ranges forms one common extended frequency range. An approximate approach for synthesizing the antenna is proposed. Using the HFSS system, several variants of a bi-periodic slotted waveguide antenna array are investigated. Numerical modeling confirms the results of the approximate theory. It is shown that the proposed array can operate in both specified modes, which significantly expands the functionality of antennas of this type.
Full Text
About the authors
S. E. Bankov
Kotelnikov Institut of Radioengineering and Electronics RAS
Author for correspondence.
Email: sbankov@yandex.ru
Russian Federation, Mokhovaya Str. 11, build.7, Moscow, 125009
M. D. Duplenkova
Kotelnikov Institut of Radioengineering and Electronics RAS
Email: sbankov@yandex.ru
Russian Federation, Mokhovaya Str. 11, build.7, Moscow, 125009
References
- Уолтер К.Х. Антенны бегущей волны. М: Энергия, 1970.
- Casula G. A., Mazzarella G., Montisci G., Muntoni G. // Electronics. 2021. V. 10. № 11. С. 1311.
- Hirokawa J., Miyagawa T., Ando M., Goto N. // Dig. IEEE Antennas and Propagation Society Intern. Symp. Chicago. 18-25Jun. 1992. N.Y.: IEEE. 1992. V.3. P. 1471.
- Casula G. A., Montisci G., Mazzarell, G. et al. // J. Electromagnetic Waves and Appl. 2013. V. 27. № 17. P. 2155.
- Kang Y., Noh E., Kim K. // IEEE Antennas and Wireless Propag. Lett. 2020. V. 19. № 8. P. 1395.
- Mishra G., Sharma S. K., Chieh J. C. S. // IEEE Trans. 2020. V. АР-68. № 12. P. 7947.
- Yi H., Li L., Han J., Shi Y. // IEEE Access. 2019. V. 7. P. 111466.
- Chaudhuri S., Kshetrimayum R.S., Sonkar R.K., Mishra M. // Electron. Lett. 2019. V. 55. № 20. P. 1071.
- Hirokawa J., Ando M., Goto N. et al. // IEEE Trans. 1995. V. VT-44. № 4. P. 749.
- Банков С.Е. // РЭ. 2004. Т. 49. № 6. С. 701.
- Goto N. Single-Layered Radial Line Slot Antenna. US Patent № 5175561. Publ. December 29,1992.
- Cheng Y.J., Hong W., Fan K., Wu Y. // IEEE Trans. 2011.V. AP-59. № 1. P. 40.
- Qiu L., Xiao K., Chai S. L. et al. // IEEE Trans. 2016. V. AP-64. № 11. P. 4639.
- Zhang L., Li L., Yi H. // 2018 Cross Strait Quad-Regional Radio Science and Wireless Technology Conf. (CSQRWC). Xuzhou. 21-24 Jul. N.Y.: IEEE, 2018. Paper No. 8455559.
- Ishimaru A., Bernard G. // IRE Trans. 1962. V. AP-10. № 2. P. 151.
- Банков С.Е., Ан Дж. // РЭ. 2007. Т. 52. № 8. С. 932.
- Банков С.Е. Антенные решетки с последовательным питанием. М.: Физматлит, 2013.
- Баскаков С.И. Радиотехнические цепи с распределенными параметрами. М.: Радио и связь, 1980.
- Сазонов Д.М. Антенны и устройства СВЧ. М: Мир, 1989.
Supplementary files
