Title :
A novel lightweight dual-frequency dual-polarized sixteen-element stacked patch microstrip array antenna for soil-moisture and sea-surface-salinity missions
Author :
Rahmat-Samii, Yahya ; Kona, Keerti S. ; Manteghi, Majid ; Yueh, Simon ; Wilson, William J. ; Dinardo, J. Steve ; Hunter, Don
Author_Institution :
California Univ., Los Angeles, CA
Abstract :
The main motivation for this paper is to discuss the development of a novel compact and light-weight dual-frequency, dual linearly polarized, high-efficiency, stacked-patch microstrip-array antenna for use in standalone aircraft-based remote sensing applications. Results from simulation, fabrication, and testing of a sixteen-element stacked-patch array antenna, optimized for an L-band frequency of operation, are presented. The design center frequencies were 1.26 GHz and 1.413 GHz with 10 MHz and 25 MHz bandwidths in each band, respectively. Due to the large number of design parameters and demanding design requirements of beam-efficiency, sidelobe levels, and polarization characteristics, particle-swarm optimization (PSO) and finite-difference time-domain (FDTD) simulations were used for synthesis and analysis. Cancellation techniques, based on symmetry, were applied to the antenna ports, with a custom-built feed network to reduce cross polarization. Simulations and measurement results from a spherical near-field test facility confirmed excellent performance of the array configuration, with a beam efficiency of greater than 90%, isolation better than -35 dB, and cross polarization in the main beam of the array better than -40 dB. From the sixteen-element array simulations and experimental verifications, one of the objectives of the present study is to suggest the possibility of using customized dual-frequency, dual-polarized arrays as potential feeds for reflectors to replace the traditionally used conical horns for future soil-moisture and sea-salinity missions
Keywords :
UHF antennas; antenna feeds; antenna testing; conical antennas; electromagnetic wave polarisation; finite difference time-domain analysis; horn antennas; microstrip antenna arrays; moisture; multifrequency antennas; oceanographic techniques; particle swarm optimisation; remote sensing; soil; 1.26 to 1.413 GHz; 10 MHz; 25 MHz; FDTD; L-band frequency; PSO; conical horns; custom-built feed network; dual linearly polarized antenna; dual-polarized sixteen-element antenna; finite-difference time-domain; lightweight dual-frequency antenna; particle-swarm optimization; polarization characteristics; reduce cross polarization; sea-surface-salinity missions; soil-moisture; spherical near-field test; stacked patch microstrip array antenna; standalone aircraft-based remote sensing; Fabrication; Feeds; Finite difference methods; Frequency; Microstrip antenna arrays; Microstrip antennas; Optical arrays; Optical polarization; Remote sensing; Time domain analysis;
Journal_Title :
Antennas and Propagation Magazine, IEEE
DOI :
10.1109/MAP.2006.323342