Abstract
The choice of element for constructing a phased antenna array (PAA) providing a relative frequency bandwidth up to 9% for the transmission or reception of wireless communication system information was carried out. There are three methods to suppress of side lobes and diffraction of PAA in the radiation far field. Superposition of excitation signals of a flat PAA for simultaneous emission of several independent beams in a radiation far field was used. Сalculation and optimization of progressive distribution of phase shifts in the excitation signal group in the horizontal and vertical directions in the plane of PAA for radiation (reception) of independent beams in spherical coordinates (azimuth and elevation) in space was performed. An experimental sample of a phased antenna array was developed using microstrip technology, which forms several beams in a radiation far field. An experimental measurement of the voltage standing wave ratio and relative frequency bandwidth of the sample developed by phased array microstrip and printing technology was carried out.
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Original Russian Text © L. Guoming, P.N. Zakharov, A.F. Korolev, 2018, published in Izvestiya Natsional'noi Akademii Nauk Armenii, Fizika, 2018, Vol. 53, No. 4, pp. 512–524.
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Guoming, L., Zakharov, P.N. & Korolev, A.F. Theoretical Analysis and Experimental Measurement of Digital Multi-Beam Phased Antenna Array in the C-Range. J. Contemp. Phys. 53, 384–393 (2018). https://doi.org/10.3103/S106833721804014X
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DOI: https://doi.org/10.3103/S106833721804014X