| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 455130300 | With antenna feed network or multiple antenna switching | 8 |
| 20080268775 | Beamforming System and Method - A beamforming system that can be used for both receive and transmit beamforming is provided. The system receives samples of a number of signals, each sample containing a band of frequencies and routes all sampled signals associated with the same beamformed frequency band to a predetermined processing block. A predetermined number of the routed sampled signals are selected sequentially according to predetermined criteria, weighted and accumulated to form a composite signal. Individual signals are then selected from the composite signal and routed to an appropriate output. The system uses a much smaller number of weighting functions than conventionally required, with processing for a single frequency being performed in the same processing block. This reduces the complexity of beamforming processing substantially and simplifies frequency reuse. In addition a single DSP design that works for both transmit and receive beamforming can be implemented. | 10-30-2008 |
| 20080293359 | System and method of communicating and re-using frequencies within terrestrial and satellite signal paths - A system and method for communicating and re-using frequencies is provided, which includes a source provider, at least one transmitter, and a plurality of antennas. The transmitter transmits source data along a plurality of signal paths including a first signal at a first frequency transmitted along a first satellite signal path, a second signal at a second frequency transmitted along a second satellite signal path, and a terrestrial signal transmitted along a terrestrial signal path. The terrestrial signal frequency is substantially the same as one of the first and second signal frequencies. The antennas receive signals, and include a first antenna for receiving at least the terrestrial signal along the terrestrial signal path and a second antenna for receiving at least the first signal along the first satellite signal path, the second signal along the second satellite signal path, and the terrestrial signal along the terrestrial signal path. | 11-27-2008 |
| 20110151776 | COMPACT LOW LOSS HIGH FREQUENCY SWITCH WITH IMPROVED LINEARITY PEROFRMANCE - A switch element includes a switch device having a drain, a source and a plurality of gates, and at least one additional interconnect located between the plurality of gates, the additional interconnect operative to establish a constant potential between the at least two gates. | 06-23-2011 |
| 20120231728 | PAYLOAD FOR A MULTI-BEAM SATELLITE - A payload includes one or more antennas for receiving polarized radiofrequency signals; a device for regenerating radiofrequency signals by filtering, frequency transposition, and amplification; and antennas for transmitting the regenerated radiofrequency signals to one or more terrestrial terminals. The radiofrequency signal regeneration device includes a plurality of regeneration channels, each channel consisting of an amplification device capable of amplifying two radiofrequency signals having separate frequency bands and the transmission antennas associated with a regeneration chain are capable of transmitting two regenerated radiofrequency signals having orthogonal polarization directions and intended for cells belonging to a single cell layout that uses at least two separate frequency bands and two separate polarizations. | 09-13-2012 |
| 20130309961 | Method and system for maintaining communication with inclined orbit geostationary satellites - An inexpensive method and system for maintaining communication between fixed receivers on the earth surface having fixed antennas and inclined orbit geostationary satellites. In preferred embodiments the fixed antennas of each receiver are provided with more than one feed horn (such as three or more feed horns) each positioned to form a beam with its antenna in a slightly different direction from beams of the other feed horns in the north-south direction. An algorithm is developed based on the known daily swings of the inclined orbit geostationary satellite which determines which of the feed horns provides a beam providing the maximum signal from the satellite. | 11-21-2013 |
| 20140004791 | SATELLITE HAVING A PLURALITY OF DIRECTIONAL ANTENNAS FOR TRANSMITTING AND/OR RECEIVING AIR-TRAFFIC CONTROL RADIO SIGNALS | 01-02-2014 |
| 20150381265 | SYSTEMS AND METHODS FOR POLARIZATION CONTROL - The described technology uses a dual circularly polarized panel antenna and equal amplitude variable phase control between the two circularly polarized components to achieve a rotatable linear polarization tracking system. An example antenna system includes a plurality of antenna elements that include a plurality of polarization transducers to generate a first signal component and a second signal component from a received wave. A polarization control network applies a phase difference based on an orientation of the linear polarization of the wave with respect to the antenna system between the signal components to generate adjusted signal components. The polarization control network combines the adjusted signal components to form a composite signal that corresponds to the linear polarization of the wave. Linearly polarized transmit and receive signals may be co-polarized or cross-polarized. | 12-31-2015 |
| 20160191141 | MULTI-BEAM ACTIVE PHASED ARRAY ARCHITECTURE WITH INDEPENDENT POLARIZATION CONTROL - In an exemplary embodiment, a phased array antenna comprises multiple subcircuits in communication with multiple radiating elements. The radio frequency signals are independently adjusted for both polarization control and beam steering. In a receive embodiment, multiple RF signals of various polarizations are received and combined into at least one receive beam output. In a transmit embodiment, at least one transmit beam input is divided and transmitted through multiple radiating elements, with the transmitted beams having various polarizations. In an exemplary embodiment, the phased array antenna provides multi-beam formation over multiple operating frequency bands. The wideband nature of the active components allows for operation over multiple frequency bands simultaneously. | 06-30-2016 |
