Title :
Blindness removal in arrays of rectangular waveguides using dielectrically loaded hard walls
Author :
Skobelev, Sergei P. ; Kildal, Per-Simon
Author_Institution :
JSC Radiophyzika, Moscow, Russia
fDate :
4/1/1998 12:00:00 AM
Abstract :
We analyze an infinite planar array of open-ended rectangular waveguides in which the E-plane walls are loaded with dielectric slabs in order to create a hard boundary condition. The analysis is done by using the mode-matching method with Floquet modes in the exterior region. The results show that the hard walls remove the blind spots otherwise present in the element patterns of wide-angle scanning arrays. This occurs both for rectangular and for triangular lattices. In addition, the array becomes better matched to free-space in a rectangular lattice. In limited-scan arrays of large square waveguides, the use of the hard walls increases the array gain by 0.9 dB, it reduces the grating lobe level in the H plane by 11 dB and considerably decreases the difference between the array characteristics in the E and H planes
Keywords :
antenna phased arrays; antenna radiation patterns; dielectric-loaded antennas; dielectric-loaded waveguides; mode matching; rectangular waveguides; scanning antennas; waveguide antenna arrays; E-plane walls; Floquet modes; H-plane; array characteristics; array gain; blindness removal; dielectric slabs; dielectrically loaded hard walls; element patterns; free-space; grating lobe level reduction; hard boundary condition; infinite planar array; limited-scan arrays; mode-matching method; open-ended rectangular waveguides; phased antenna arrays; rectangular lattice; rectangular waveguide arrays; square waveguides; triangular lattice; wide-angle scanning arrays; Arrayed waveguide gratings; Blindness; Boundary conditions; Dielectrics; Lattices; Mode matching methods; Planar arrays; Planar waveguides; Rectangular waveguides; Slabs;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
