Title :
Folded multilayer microstrip reflectarray with shaped pattern
Author :
Zornoza, J. Agustín ; Leberer, Ralf ; Encinar, Jose A. ; Menzel, Wolfgang
Author_Institution :
Antenna CoC, EADS Astrium Ltd., Stevenage, UK
Abstract :
A folded multilayer printed reflectarray with shaped pattern is demonstrated. The configuration consists of a multilayer twister reflectarray, a centered feed embedded in its structure and a polarizing grid, which acts as reflector and radome for each polarization, respectively. A design procedure, valid for obtaining any arbitrary shaped pattern, has been implemented. In order to achieve the pattern specifications along a frequency band, initially a multifrequency pattern synthesis method, which relies on a phase-only synthesis, is applied to obtain the required phase-shift on the reflectarray surface. Afterwards, each stacked patch is individually optimized to generate the required phase-shift previously synthesized. The method has been successfully applied to a LMDS base station antenna, characterized by a sectorial cosecant squared beam in the band 24.5-26.5 GHz. A breadboard consisting of a folded 3-layer circular reflectarray is presented. Measurements show a good concordance with theoretical patterns at 25 GHz, and good shaping of the beam along 24-26 GHz.
Keywords :
antenna radiation patterns; electromagnetic wave polarisation; microstrip antenna arrays; multifrequency antennas; reflector antenna feeds; 24.5 to 26.5 GHz; 3-layer circular reflectarray; LMDS; arbitrary shaped pattern; embedded feed; folded multilayer printed reflectarray; folded reflector; frequency band; microstrip antenna; multifrequency pattern synthesis; polarizing grid; sectorial cosecant squared beam; stacked patch; Bandwidth; Feeds; Microstrip antennas; Nonhomogeneous media; Polarization; Radar antennas; Radar applications; Reflector antennas; Research and development; Space technology; Folded reflector; multilayer; printed reflectarray; shaped beam;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2005.863101
