Each MRA produces eight modes of operation corresponding to three steerable beam directions (ƒÆxz=-30‹, 0‹, 30‹) with linear and circular polarizations in x-z plane and another two steerable beam directions (ƒÆyz=-30‹ , 30‹) in y-z plane with linear polarization. An individual MRA consists of an aperture-coupled driven patch antenna with a parasitic layer placed above it. The surface of the parasitic layer has a grid of 4 ~ 4 electrically-small rectangular-shaped metallic pixels. The adjacent pixels can be connected/disconnected by means of switching that results in reconfigurability in beam-direction and polarization. A 4 ~ 1 linear MRAA operating in the ~ 5.4-5.6 GHz is formed by the optimized MRA elements. MRA and MRAA prototypes have been fabricated and measured. The measured and simulated results agree well indicating ~ 13.5 dB realized array gain and ~ 3 percent bandwidth. The MRAA presents some advantages as compared to a standard antenna array: MRAA alleviates the scan loss inherent to standard antenna arrays, provides higher gain, does not need phase shifters for beam steering in certain plane, and is capable of polarization reconfigurability. (Publisher abstract modified)
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