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Journal Antennas №10 for 2013 г.
Article in number:
The method for synthesis of the radiation pattern of a phased array antenna with arbitrary shaped aperture
Keywords: antenna array plane aperture with arbitrary contour amplitude-phase distribution method o radiation pattern synthesis -periodicity
Authors:
D.D. Gabriel-yan - Dr.Sci. (Eng.), Professor, Deputy Head of NTK Science, RNIIRS
G.P. Sinyavsky - D.Sc. (Phys.-Math.), Professor, Head of Department Applied Electrodynamics and Computer Simulation of Southern Federal University
I.G. Tsyporina - Post-graduent Student, Rostov Technological Institute of Service and Tourism
Abstract:
Phased array antennas with an arbitrary contour aperture are now becoming more widely used in electronic systems for various purposes. This form of the aperture, in many cases determined by the terms of placement of radiators and/or combining them in a subarrays in order to reduce the number of control channels. In addition, the directional patterns of these antennas may have special requirements which determine, for example, a low level of side lobes and/or special law to the changes in the various directions. The widely known methods of amplitude-phase distribution for the case of arrays with a plane aperture and rectangular loop border laws relating the parameters of the amplitude-phase distribution and the side lobe level, are not applicable to antenna arrays with disclosing limited arbitrary contours. In this case, a well-known approach of "multiplying" to determine the amplitude and phase distribution of the product of amplitude and phase distributions in orthogonal planes also cannot be used. A distinctive feature of the amplitude-phase distribution in any planar aperture is its -periodicity. In addition, this is true of the azimuthal dependence of the formed pattern and patterns of radiators. Accounting for this property and the associated orthogonality the Fourier series can develop a method allowing efficient calculations for solving the amplitude-phase synthesis on a given pattern. The article presents the mathematical basis of the method, we describe the results of numerical studies.
Pages: 17-22
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