A dielectric dome antenna with reduced profile and wide scanning capability

E Gandini, F Silvestri, A Benini, G Gerini… - … on Antennas and …, 2020 - ieeexplore.ieee.org
E Gandini, F Silvestri, A Benini, G Gerini, E Martini, S Maci, MC Viganò, G Toso, S Monni
IEEE Transactions on Antennas and Propagation, 2020ieeexplore.ieee.org
The design and experimental validation of a wide scanning dome antenna with reduced
profile is presented. The antenna is based on the combination of a planar phased array with
limited scanning capabilities and a dielectric lens which allows to broaden the field of view.
The angular variation of the scan loss can be almost arbitrarily designed if no constraint is
imposed on the size of the dielectric lens. However, the focus of this article is on the size
minimization of the dome as required for applications where the form factor is critical …
The design and experimental validation of a wide scanning dome antenna with reduced profile is presented. The antenna is based on the combination of a planar phased array with limited scanning capabilities and a dielectric lens which allows to broaden the field of view. The angular variation of the scan loss can be almost arbitrarily designed if no constraint is imposed on the size of the dielectric lens. However, the focus of this article is on the size minimization of the dome as required for applications where the form factor is critical. Therefore, a lower boundary of the height of the dome is derived and imposed as a design constraint. The antenna is analyzed using in-house ray tracing and physical optics software tools. It is shown that, when the array is combined with the dielectric dome, a significant directivity enhancement can be achieved for wide scanning. A demonstrator of the lens is designed, manufactured and combined with an available phased array working in Ku-band. The experimental tests confirm the theoretical predictions, validating the analysis tools, and show a scanning range of 70° in all scanning planes over a 15% bandwidth. The directivity is enhanced by approximately 2 dB at the limits of the scanning range compared to the standalone illuminating array. The active element pattern is rotationally symmetric, thus, the radiation performance is almost independent on the scanning plane. Moreover, the dielectric lens allows to preserve the cross-polarization performance of the illuminating array without adding a significant contribution.
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