Title :
Beam Squint Compensation in Circularly Polarized Offset Reflector Antennas Using a Sequentially Rotated Focal-Plane Array
Author :
Zamanifekri, A. ; Smolders, A.B.
Author_Institution :
Eindhoven Univ. of Technol., Eindhoven, Netherlands
Abstract :
The problem of beam squinting in circularly polarized offset reflector antennas is solved by using a novel focal-plane array concept that consists of sequentially rotated linearly polarized elements. This concept can be used to facilitate beam steering in full-duplex communication with satellite Internet (VSAT) operating in the Ka-band. A prototype consisting of a 75-cm offset dish illuminated by a 2 ×2 array of sequentially rotated aperture-coupled microstrip antennas was developed and tested at 20 GHz. Experimental results clearly demonstrate the removal of the beam-squint and resulted in an axial ratio (AR) below 1 dB within the 1-dB beamwidth of the main beam.
Keywords :
focal planes; microstrip antenna arrays; polarisation; reflectarray antennas; AR; Ka-band; VSAT; aperture-coupled microstrip antennas; axial ratio; beam squint compensation; beam steering; circularly polarized offset reflector antennas; focal-plane array concept; frequency 20 GHz; full-duplex communication; offset dish; satellite Internet; sequentially rotated linearly polarized elements; Antenna arrays; Antenna feeds; Arrays; Prototypes; Beam squinting; circular polarization; focal-plane array; offset-reflector antenna;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2014.2386308
