Title :
Circular Polarization Wide-Angle Beam Steering at Ka-Band by In-Plane Translation of a Plate Lens Antenna
Author :
Lima, Eduardo B. ; Matos, Sergio A. ; Costa, Jorge R. ; Fernandes, Carlos A. ; Fonseca, Nelson J. G.
Author_Institution :
Inst. de Telecomun., Univ. de Lisboa, Lisbon, Portugal
Abstract :
A simple mechanical beam steering antenna concept is proposed for ground mobile terminals of Ka-band satellite and high altitude platform (HAP) providing broadband access services. The wide-angle elevation beam steering is achieved by in-plane translation of a thin offset flat lens in front of a stationary primary feed while full azimuth coverage is obtained by simple 360° rotation of the lens. A new strategy is also proposed to reduce the effective F/D of the focusing system and consequently the total antenna height without increasing beam distortion: a second small flat lens is added on top of the primary feed to create a virtual focus located well below the feed phase center. The challenge is to conciliate high gain both with wide beam scanning and reduced antenna height. Design rules are presented for this antenna concept along with a 27.3-dBi gain fabricated example for the up-link Ka-band (29.5-30 GHz), with circular polarization, 0° to 50° elevation scan, better than 2.8-dB scan loss and an effective F/D of only 0.55. Both lenses are 3.35-mm thick, formed by a suitable assembly of phase shifting unit cells with less than 0.4 dB of transmission loss in simulation. The main lens dimensions are 195 mm × 145 mm and its weight is 215 g. Total antenna height, including the feed is 84 mm.
Keywords :
antenna radiation patterns; lens antennas; antenna height; broadband access services; circular polarization wide-angle beam steering antenna concept; ground mobile terminals; high altitude platform; in-plane translation; phase shifting unit cells; plate lens antenna; Antenna feeds; Apertures; Azimuth; Beam steering; Lenses; Flat lens; frequency selective surface (FSS); mechanical scanning; polarization-insensitive; satellite-on-the-move; satellite-on-the-move (SOTM); wireless communication network;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2015.2484419