Mathematical model of a signal of radar on the base of antenna array with two-dimensional frequency scanning

S. E. Bankov; Банков С. Е.; A. A. Komarov; Комаров А. А.; M. S. Mikhailov; Михайлов М. С.

doi:10.31857/S0033849424050012

Mathematical model of a signal of radar on the base of antenna array with two-dimensional frequency scanning

Авторлар: Bankov S.E.¹, Komarov A.A.¹, Mikhailov M.S.¹
Мекемелер:
1. Kotelnikov’s Institute of Radio Engineering and Electronics
Шығарылым: Том 69, № 5 (2024)
Беттер: 403-413
Бөлім: ЭЛЕКТРОДИНАМИКА И РАСПРОСТРАНЕНИЕ РАДИОВОЛН
URL: https://bakhtiniada.ru/0033-8494/article/view/275938
DOI: https://doi.org/10.31857/S0033849424050012
EDN: https://elibrary.ru/ILSOQV
ID: 275938

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Аннотация

An antenna array with series excitation and its application as part of a radar with linear frequency modulation are considered. An analysis of an array consisting of Na parallel one-dimensional sub-arrays with series excitation forming a two-dimensional radiating array and coupling waveguides connecting the output of the n-th sub-array with the input of n+1 sub-array through 180° waveguide turns is presented. An approximate model of the antenna is proposed, which makes it possible to determine its main technical characteristics. Using the developed model, the time characteristics of the signal at the output of an ultrahigh frequency unit of a homodyne radar with linear frequency modulation are investigated. The dependences of the array quality indicators on the scattering parameters of elementary radiators and waveguide 180° turns are analyzed, and the technical requirements for them are formulated. It is shown that the radar provides scanning in the sector of azimuth angles ± 40° and ± 10° in the elevation with a frequency deviation in the 2 GHz band.

Негізгі сөздер

array with two dimensional frequency scanning, radar, radiation pattern, gain

Толық мәтін

Авторлар туралы

S. Bankov

Kotelnikov’s Institute of Radio Engineering and Electronics

Хат алмасуға жауапты Автор.
Email: sbankov@yandex.ru
Ресей, Mokhovaya str, 11, bild. 7, Moscow, 125000

A. Komarov

Kotelnikov’s Institute of Radio Engineering and Electronics

Email: sbankov@yandex.ru
Ресей, Mokhovaya str, 11, bild. 7, Moscow, 125000

M. Mikhailov

Kotelnikov’s Institute of Radio Engineering and Electronics

Email: sbankov@yandex.ru
Ресей, Mokhovaya str, 11, bild. 7, Moscow, 125000

Әдебиет тізімі

Банков С.Е. Антенные решетки с последовательным питанием. М.: Физматлит, 2013.
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Ettorre M., Sauleau R., Le Coq L., Bodereau F. // IEEE Trans. 2014. V. AP-62. № 14. P. 1991.
Cheng Н., Hong W., Wu K. et al. // IEEE Trans. 2008. V. AP-56. № 9. P. 3055.
Albani M., Ettorre M., Maci S. et al. // Euroр. Conf. on Antennas and Propagation (EuCAP) 2007. Edinburgh. 11–16 Nov. 2007. N.Y.: IEEE, 2007. Article No. 445897. http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=4458971
Хансен Р.С. Сканирующие антенны СВЧ. М.: Сов. радио, 1971. Т. 3.
Банков С.Е., Фролова Е.В. // РЭ. 2017. Т. 62. № 9. С. 833.
Елисеев С.Е., Гусевский В.И., Терехов В.А. и др. Радиолокационная система ближнего действия для предупреждения столкновения с препятствиями маневрирующих на аэродроме летательных аппаратов Пат. РФ № 2192653. Опубл. офиц. бюл. “Изобретения. Полезные модели” № 31 от 10.11.2002.
Баскаков А.И., Жутяева Т.С., Лукашенко Ю.И. Локационные методы исследования объектов и сред. М.: ИЦ “Академия”, 2011.
Проектирование фазированных антенных решеток / Под ред. Д.И. Воскресенского. М.: Радиотехника, 2012.
Сазонов Д.М. Антенны и устройства СВЧ. М.: Высш. школа, 1988.
Уолтер К. Антенны бегущей волны. М.: Энергия, 1970.

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Әрекет

1. JATS XML

Жүктеу

2. Fig. 1. Structural diagram of the ARPW with a two-dimensional emergency situation.

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Метадеректер

3. Fig. 2. Homodyne radar diagram: G generator, A antenna, CM mixer, Y Y-circulator.

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4. Fig. 3. Equivalent circuit of a slit.

Жүктеу (6KB)

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5. Fig. 4. Frequency dependence of the elevation angle (a) and azimuth angle (b).

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Метадеректер

6. Fig. 5. Frequency dependence of the elevation angle after excluding two-beam sections.

Жүктеу (27KB)

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7. Fig. 6. Scanning diagram of the ARPV.

Жүктеу (26KB)

Метадеректер

8. Fig. 7. Frequency dependences of the reflection (1) and transmission (2) coefficients of the ARPW at Rm = 0.05 (a) and Rm = 0.025 (b).

Жүктеу (47KB)

Метадеректер

9. Fig. 8. Frequency dependences of the reflection coefficient (1) and elevation angle (2) for the ARPW with coupling waveguides filled with a medium with ε = 1.3.