Patent application number | Description | Published |
20090109107 | Apparatus and Method for Providing Single Plane Beam Shaping - An antenna assembly is provided having a primary feedhorn arranged in a first plane and configured to provide a first scan pattern having a first gain and first beamwidth. In another embodiment, a plurality of feedhorns are configured to provide a second scan pattern, wherein each of the plurality of feedhorns may be oriented substantially parallel to the first plane. A support structure may be provided to arrange the primary feedhorn in the first plane and the plurality of feedhorns substantially in parallel to the first plane. According to another embodiment, the first and second scan patterns produce a resulting scan pattern having a resultant beamwidth greater than the first beamwidth and a resultant gain that is greater than a minimum gain requirement. | 04-30-2009 |
20090109108 | Reflective Antenna Assembly - A reflective antenna is provided according to one or more embodiments of the invention. In one embodiment, the reflective antenna may include a radome having a fixed orientation within the elevation plane. According to another embodiment, a reflective antenna positioned within the radome. The reflective antenna may include a feedhorn configured to provide electromagnetic energy at an operation frequency. In another embodiment, the reflective antenna may include a reflective surface having multiple electromagnetically loading structures. The reflective surface may be curved in the azimuth plane and configured to reflect the electromagnetic energy relative to at least one focal point. According to another embodiment, the reflective antenna may include a support structure configured to position the feedhorn and reflective surface within the radome in order to angularly steer the electromagnetic energy with respect to the elevation plane. | 04-30-2009 |
20090109110 | Apparatus and Method for Providing Multiple High Gain Beams - A reflective antenna is provided according to one or more embodiments of the invention. In one embodiment, the reflective antenna may include a feedhorn arrangement configured for an operation frequency. According to another embodiment, the reflective antenna may include a curved reflective surface having a plurality of electromagnetically loading structures. The curved reflective surface may be configured to reflect incident electromagnetic energy to corresponding to the operation frequency relative to at least one focal point. In another embodiment, the reflective antenna may include a support structure configured to arrange the feedhorn arrangement and the curved reflective surface such that the antenna assembly may be configured to provide multiple electromagnetic beams exhibiting high gain relative to the at least one focal point. | 04-30-2009 |
20090109119 | Adjustable Paneling System for a Phasing Structure - A phasing structure includes a support matrix for a reflective surface which reflects microwaves within an operation frequency band. The reflective surface includes a plurality of adjustable sub-panels. In one embodiment, the phasing structure may include a phasing arrangement of electromagnetically-loading structures supported by the support matrix. The sub-panels may be secured to the support matrix and individually adjustable using a securing means which, in one embodiment, includes one or more differential bolts matrix. | 04-30-2009 |
20090109120 | Low Windload Phasing Structure - A microwave phasing structure configured to reflect microwaves within an operation frequency band includes a planar array of phasing. The plurality of phasing elements may be supported by a support grid having a first predefined spacing interval. The phasing structure may include a planar pattern including a plurality of openings having a second predefined spacing interval. The phasing structure may include a support means for securing the phasing array and the planar pattern substantially in parallel. | 04-30-2009 |
20090109122 | Deployable Phasing System for Emulating Reflective Surfaces - A deployable microwave phasing structure having a plurality of planar sub-panels, each of the planar sub-panels having a reflective surface configured to reflect microwaves. In one embodiment, the phasing structure includes a plurality of joints configured to inter-connect the plurality of planar sub-panels to provide a first reflective surface geometry. In one embodiment, the deployable microwave phasing structure includes a plurality of joints configured to inter-connect the plurality of planar sub-panels to provide a first reflective surface geometry. According to another aspect of the invention, the phasing structure includes a phasing arrangement configured to provide an electromagnetic response of a second reflective surface geometry. | 04-30-2009 |
20090109123 | System and Method for Providing a Deployable Phasing Structure - A deployable microwave phasing structure having a plurality of sub-panels forming a non-planar reflective surface when in a deployed state. In one embodiment, the phasing structure includes a plurality of joints configured to inter-connect the plurality of sub-panels. In one embodiment, the deployable microwave phasing structure includes a folding means for arranging the phasing structure into a plurality of states, the plurality of states including the deployed state and a collapsed state, wherein the collapsed state is characterized by a substantially planar profile. | 04-30-2009 |
20100039338 | Planar Scanner Antenna for High Frequency Scanning and Radar Environments - A planar scanning antenna is configured for scanning and tracking. In one embodiment, the planar scanning antenna may include a transducer module configured to provide an electromagnetic beam. According to another aspect of the invention, the apparatus may include a first planar dielectric element having an axis of rotation and configured to direct an electromagnetic beam. In one embodiment, a second planar dielectric element oriented adjacent to the first planar dielectric element and having the axis of rotation may be configured to direct electromagnetic energy. The apparatus may further include a mounting structure arranging the transducer module and the first and second planar dielectric elements. In yet another embodiment, the apparatus may include a drive means for positioning the first planar dielectric element independently from the second planar dielectric element. | 02-18-2010 |