| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 343761000 | Reflector and antenna relatively movable | 23 |
| 20080258987 | Actuation Mechanism With Three-Dimensional Rectilinear Guide - An actuation system which implements a three-dimensional rectilinear guide with high rectilinear features and it provides stability and stiffness to the moved object by supporting it in a not operating initial phase, particularly suitable to the translation of reflectors for satellite antennas along a predetermined axis in order to obtain the zooming effect thereof on the radiation diagram of the antenna itself. | 10-23-2008 |
| 20080278396 | Worm Gear Azimuth Adjustment of a Parabolic Antenna - According to the invention, a system for changing the azimuth direction of a parabolic antenna is disclosed. The system may include a support member, a first gear set, and a rotational motion source. The support member may be coupled with a surface and the first gear set may include a worm gear and a first worm. The first worm may engage the worm gear, which may have a substantially vertical axis. The support member and the parabolic antenna may be operably coupled with the first gear set. The first rotational motion source may be operably coupled with the first worm, and the parabolic antenna may rotate about the substantially vertical axis when the first rotational motion source is active. | 11-13-2008 |
| 20080291102 | Conical Scanning Antenna System Using Nutation Method - Provided is a conical scanning antenna system using a nutation method. The conical scanning antenna system includes: a main reflecting unit; a sub-reflecting unit which is disposed apart from the main reflecting unit by a predetermined distance and performing a conical scanning tracking by using the nutation method; and a feeding horn which doubly reflects electromagnetic wave inputted and radiated by the main reflecting unit and the sub-reflecting unit and inputs and outputs the electromagnetic wave by electrically steering beams. | 11-27-2008 |
| 20080297425 | System And Method For Path Alignment Of Directional Antennas - A method and device for aligning an antenna to a desired heading. A laser beam is generated and aimed in a direction perpendicular to the desired heading. The line of sight of the laser is translated along the desired heading until the laser is directed to a reflective surface on the antenna's axis of transmission. The antenna is then positioned until the laser beam returns to a detector whose horizontal line of sight is the same as that of the laser, i.e., in a direction perpendicular to the desired heading. | 12-04-2008 |
| 20080309569 | Vehicle mounted antenna and methods for transmitting and/or receiving signals - An antenna for communicating with a satellite from a moving vehicle. The antenna comprises a transmitter for generating a transmission signal, main and sub reflectors, and a waveguide associated with the transmitter for conducting the transmission signal toward the sub reflector. The sub reflector is configured for redirecting the transmission signal toward the main reflector; the main reflector is configured for projecting the redirected transmission signal as an antenna beam toward the satellite. | 12-18-2008 |
| 20090021437 | CENTER PANEL MOVABLE THREE-COLUMN ARRAY ANTENNA FOR WIRELESS NETWORK - An azimuth beamwidth variable antenna array for a wireless network system is disclosed. A multi-column antenna array architecture is employed having a mechanical azimuth beamwidth adjustment capability. The array comprises a plurality of driven radiating elements that are spatially arranged having movable Aperture Coupling Patch (ACP) radiating—receiving elements so as to provide a controlled variation of the antenna array's azimuth radiation pattern. | 01-22-2009 |
| 20090033576 | System and method for re-aligning antennas - A system for re-aligning an antenna communicating signals point-to-point. The system may include a first antenna, a second antenna configured to communicate a communications signal with the first antenna using point-to-point communications, and a position controller coupled to the first antenna and configured to re-align the first antenna with respect to the second antenna in response to determining a misalignment of the antenna. | 02-05-2009 |
| 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 |
| 20090322635 | DUAL REFLECTOR MECHANICAL POINTING LOW PROFILE ANTENNA - Dual reflector offset mechanical pointing low profile telecommunication antenna, to be used above all on vehicles, even high-speed ones. Its reduced physical dimensions facilitate its use, with respect to the known solutions, as it allows its connecting to the receiving system, such as a satellite, though installed on a train or on an aircraft. The invention lies within the technical field of telecommunications and the applicative field of stationary, movable antennas of reduced dimensions, and accordingly within that of telecommunications in general. The original dual reflector antenna is obtained from a second-order polynomial that configurates it in the Cartesian space XYZ. | 12-31-2009 |
| 20100066620 | SCANNING ANTENNA - A reflector assembly implementable in a scanning antenna assembly having a stationary surface includes a support assembly coupled to the stationary surface, a substantially planar first reflector panel coupled to the support assembly so as to enable rotation of the first reflector panel about a central axis of the first reflector panel, and an actuator assembly comprising a translating arm coupled to the first reflector panel, wherein translational motion of the arm is operable to rotate the first reflector panel about the central axis back and forth through a predetermined angular range at a predetermined frequency. | 03-18-2010 |
| 20100238082 | Multi-Band Antenna System for Satellite Communications - The present invention provides an improved antenna system on moving platform that is in communication with multiple satellites for simultaneous reception and transmission of RF energy at multiple frequencies. The antenna is implemented as a multi-beam, multi-band antenna having a main reflector with multiple feed horns and a sub-reflector having a reflective surface defining an image focus for a Ka band frequency signal and a prime focus for a Ku band frequency signal. | 09-23-2010 |
| 20110050526 | Thermal Compensating Subreflector Tracking Assembly and Method of Use - A thermal compensating subreflector tracking assembly for a reflector antenna and methods of use. The subreflector tracking assembly provided with a base, an intermediate support and a subreflector mount. The intermediate support coupled to the base, movable normal to the base and the subreflector mount coupled to the intermediate support, movable orthogonal to the intermediate support. The movement in the Z, Y and or Z-axis enabling electrical performance optimizing reflector antenna beam alignment and/or focus adjustments resulting from asymmetric thermal distortion of the reflector antenna. | 03-03-2011 |
| 20110068988 | Multi-Band antenna System for Satellite Communications - The present invention provides an improved antenna system on moving platform that is in communication with multiple satellites for simultaneous reception of RF energy at multiple frequencies. The antenna is implemented as a multi-beam, multi-band antenna having a main reflector with multiple feed horns and a sub-reflector to reflect Ku and Ka frequency band signals directed by a focal region of the main reflector. | 03-24-2011 |
| 20110068989 | Antenna System with Three Degrees of Freedom - The present invention provides an improved compact antenna system with three degrees of freedom positioned on a moving platform to maintain orientation of the antenna for continuous tracking of a satellite. The system includes a cross-elevation sub-frame having two pivotal joints at each end to support an antenna reflector. The system also includes an azimuth sub-frame connected to the cross-elevation sub-frame. The system further includes a dome enclosing the reflector, cross-elevation sub-frame and the azimuth sub-frame The cross-elevation sub-frame is oriented at an angle substantially about a midpoint between the elevation angle ranges of axis of rotation for the reflector such that the reflector rotates at a point substantially to a center of the dome. | 03-24-2011 |
| 20130021214 | SYSTEMS FOR POSITIONING REFLECTORS, SUCH AS PASSIVE REFLECTORS - Systems are provided for positioning passive reflectors, such a lens/mirror assemblies, and other types of reflectors that need to be pointed in a particular direction. The systems can effectuate control of both the elevation and azimuth angles of the reflector. The systems can be configured so that a mount can rotate so as to vary the azimuth angle of the reflector by 360° or more without a need to reverse the direction of rotation of the reflector, and without the use of slip rings, RF rotary joints, or electrical cable wraps. | 01-24-2013 |
| 20130271332 | Multiple-Reflector Antenna for Telecommunications Satellites - A multiple-reflector antenna for telecommunications satellites including a shaft, to which are attached at least two sub-reflectors, rotating in relation to a load-bearing structure, and a motor including a rotor able to drive the shaft in rotation, and a stator attached to the load-bearing structure, wherein the multiple-reflector antenna also includes two bearings enabling the shaft to rotate in relation to the load-bearing structure, a torsionally rigid mechanical filter placed between the shaft and the rotor, enabling the rotor to transmit the rotational movement to the shaft, and able to dampen the stresses generated by the shaft on the motor, and locking means able to hold the angular position of the shaft in relation to the load-bearing structure. | 10-17-2013 |
| 20140028514 | LOW COST, HIGH-PERFORMANCE, SWITCHED MULTI-FEED STEERABLE ANTENNA SYSTEM - An apparatus for satellite communication may include a reflector configured to redirect electromagnetic energy. Each of multiple feeds may be positioned at a predetermined location with respect to the reflector. A feed-switching mechanism may be configured to selectively activate for use at least one of the multiple feeds. A steering mechanism may be configured to steer the reflector such that a focal point of the reflector approximately coincides with a position of an activated feed of the multiple feeds. The reflector may be mechanically independent of the plurality of feeds and the feed-switching mechanism. | 01-30-2014 |
| 20140104125 | WIDE SCAN STEERABLE ANTENNA WITH NO KEY-HOLE - A steerable antenna architecture, or configuration, for optimal steering of transmitting and/or receiving beam over wide scan angles, is capable of steering the beam on a full hemisphere (2 π steradians), with no singularity or key-hole within a coverage area and with only one RF rotary joint. The architecture includes a dual-reflector assembly defining an antenna focal point located close to a main reflector surface and a signal feed chain having a signal source located adjacent to the antenna focal point and defining a feed axis substantially pointing towards a sub-reflector intersection point. A first actuator rotates the feed chain and the dual-reflector assembly about a first rotation axis generally perpendicular to the feed axis and not intersecting with the coverage area. A second actuator rotates one of the main reflector and the dual-reflector assembly about a second rotation axis aligned with the feed axis. | 04-17-2014 |
| 20140168022 | RECONFIGURABLE ANTENNAS UTILIZING LIQUID METAL ELEMENTS - A reconfigurable antenna that utilizes liquid metal to achieve dynamic antenna performance is disclosed. The reconfigurable antenna may utilize one or more liquid metal sections that can be variably displaced. Utilizing liquid metal may reduce certain undesirable effects associated with more conventional mechanical reconfigurable antennas including mechanical failure due to material fatigue, creep, and/or wear. Precise microfluidic techniques may be utilized in the design of a reconfigurable antenna that utilizes liquid metal. The reconfigurable antenna may utilize a circular Yagi-Uda array design and include movable parasitic director and reflector elements implemented using liquid metal (e.g., mercury (Hg)). The parasitic elements may be placed and rotated in a circular microfluidic channel around a driven antenna element utilizing a flow generated and controlled by a piezoelectric micropump. The reconfigurable antenna may operate at 1800 MHz with 4% bandwidth and be capable of performing beam steering over 360° with fine tuning. | 06-19-2014 |
| 20140218248 | RADIO SYSTEM FOR LONG-RANGE HIGH-SPEED WIRELESS COMMUNICATION - Devices and systems, and methods of using them, for point-to-point transmission/communication of high bandwidth signals. Radio devices and systems may include a pair of reflectors (e.g., parabolic reflectors) that are adjacent to each other and configured so that one of the reflectors is dedicated for sending/transmitting information, and the adjacent reflector is dedicated for receiving information. Both reflectors may be in a fixed configuration relative to each other so that they are aligned to send/receive in parallel. In many variations the two reflectors are formed of a single housing, so that the parallel alignment is fixed, and reflectors cannot lose alignment. The device/systems may be configured to allow switching between duplexing modes. These devices/systems may be configured as wide bandwidth zero intermediate frequency radios including alignment modules for automatic alignment of in-phase and quadrature components of transmitted signals. | 08-07-2014 |
| 20140368393 | PORTABLE MOTORIZED SATELLITE TELEVISION ANTENNA SYSTEM - A portable motorized satellite television antenna system is connectable to a separate receiver. The satellite television antenna system can include an enclosure with at least a portion thereof comprising an electromagnetic wave permeable material. A reflector dish can be disposed inside of the enclosure. A low noise block converter can be disposed inside of the enclosure and configured to receive incoming satellite television signals. A first drive motor can be coupled to the satellite television antenna system such that at least one of an azimuth orientation and an elevation orientation of the dish can be adjusted. An electronic control system disposed inside of the enclosure and connected to the first drive motor to control automated aiming of the dish. The electronic control system and first drive motor can be powered solely by the separate receiver though a single conduit that spans between the satellite antenna system and the receiver. | 12-18-2014 |
| 20160072185 | WIDE SCAN STEERABLE ANTENNA - A steerable antenna configuration having all actuators and the feed source mounted on a stationary side of the antenna thereby eliminating the need of having to supply power and/or communication signal through, a rotation mechanism. A first actuator rotates a reflector assembly about a first axis, and a second actuator rotates at least a main reflector of the reflector assembly about a second axis perpendicular to the first axis. The second axis is rotatable about the first axis via the first actuator. | 03-10-2016 |
| 20160172752 | METHOD OF REDUCING PHASE ABBERATION IN AN ANTENNA SYSTEM WITH ARRAY FEED | 06-16-2016 |
