| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 725071000 | For providing signals to plural subsequent receivers | 18 |
| 20090070830 | Method and System for Monitoring a Receiving Circuit Module and Controlling Switching to a Back-up Receiving Circuit Module at a Local Collection Facility from a Remote Facility - A system and method for remotely collecting signals includes a local collection facility comprising a plurality of primary receiving circuit modules comprising a first receiving circuit module. The first receiving circuit module receives a first channel signal and forms a first encoded signal. The system further includes a remote facility having a multiplexer, and a router routing the first encoded signal to the multiplexer. The remote facility generates an output signal in response to the first encoded signal. A monitoring system receives an error signal from the first receiving circuit module. The router routes the error signal of the first receiving circuit module to the monitoring system. The system also includes a back-up receiving circuit module. The router routes the first channel signal to the back-up receiving circuit module to form a second encoded signal. The monitoring system monitors the second encoded signal. The router routes the second encoded signal at the local collection facility to the multiplexer at the remote facility in response to monitoring the second encoded signal. The remote facility forms the output signal in response to the second encoded signal. | 03-12-2009 |
| 20090254949 | METHOD AND SYSTEM FOR ARBITRATING RECORDING REQUESTS FROM MULTIPLE RECEIVING UNITS IN A NETWORK TO RECEIVE THE SAME CONTENT - A method and system for providing content includes a network having a plurality of receiving units generating a plurality of recording or tuning requests for content and communicating the recording or tuning requests through the network. The system includes a first receiving unit of the plurality of receiving units that is selected by the network to receive content corresponding to the request and stream the content to the network. A second receiving unit receives the content from the network. | 10-08-2009 |
| 20090282442 | Satellite broadcast receiving and distribution system - The present invention provides a satellite broadcast receiving and distribution system that will permit for the transmission of vertical and horizontal or left-hand circular and right-hand circular polarization signals simultaneously via a single coaxial cable. The system of the present invention will accommodate two different polarity commands from two or more different sources at the same time. This satellite broadcast receiving and distribution system of the present invention will provide for the signals received from the satellite to be converted to standard frequencies so as to permit for signals to travel via existing wiring which the present day amplifiers can transport in buildings, high-rises, hospitals, and the like so that satellite broadcasting can be viewed by numerous individuals by way of a single satellite antenna. | 11-12-2009 |
| 20100115561 | METHOD AND SYSTEM FOR OPERATING A RECEIVING CIRCUIT FOR MULTIPLE TYPES OF INPUT CHANNEL SIGNALS - A receiving circuit module and method for operating the same includes a housing receiving a first signal, a first encoder disposed within the housing encoding the first signal to form a first encoded signal and a second encoder disposed within the housing encoding the first signal to form a second encoded signal having a different format than the first signal. | 05-06-2010 |
| 20100169938 | Distributing DBS Content to Multiple Receivers Over a Single Coaxial Cable - A satellite transponder switch (STS) maintains a table that maps set-top boxes (STBs) to carrier frequencies. The STS receives a first request from a first STB for a first transponder band and a second request from a second STB for a second transponder band. The STS receives contact from the first STB on a control channel upon power-up of the first STB and in response to the contact from the first STB, assigns a first carrier frequency to the first STB. The STS frequency shifts the first transponder band to a first carrier frequency assigned to the first STB and the second transponder band to a second carrier frequency assigned to the second STB. The STS outputs a signal that comprises the frequency-shifted first and second transponder bands to the first STB and the second STB. The frequency-shifted first and second transponder bands are separated by a separation band. A first carrier frequency of the signal is unique to the first STB and a second carrier frequency of the signal is unique to the second STB. | 07-01-2010 |
| 20100293580 | REALTIME VIDEO NETWORK - A real-time video network has remote mobile vehicles operating on land, sea and air, each mounted with one or more video cameras. The video feeds from these video cameras is transmitted real-time via satellite to one or more earth stations and to one or more network operation centers. The network operation center previews, selects, consolidates and aggregates the video feeds from the mobile vehicles. Distribution networks are used to communicate one or more video streams, feeds or channels to display devices for viewing. Operators at the network operation center or the end user can select which video feed to view. | 11-18-2010 |
| 20100325670 | Satellite Signal Distribution - Disclosed is a system and method for receiving satellite television signals. A centralized system component may be provided in association with the satellite antenna. The centralized system component includes at least one or more tuners and one or more demodulators. The centralized component may provide output through a network adaptor that provides output through a single output, which is a coaxial cable in one embodiment. The centralized component may send output in the form of packetized data directed to one or more set-top boxes by way of a network transaction. The set-top box or boxes may be operable to receive the network transaction and to process the data, as appropriate, for display on a TV/monitor. | 12-23-2010 |
| 20110167459 | Broadcast Distribution Apparatus and Method of Use Thereof - Apparatus and method for distributing broadcast data signals comprising broadcast receiving means for receiving satellite data signals, and converting the modulation of the data signals from a first scheme compatible with satellite set-top boxes into a more spectrally efficient second scheme, the data signals then being distributed to one or more satellite set-top boxes, wherein adapter means are provided for at least one satellite set-top box to convert the modulation of the data signals from the second scheme to the first scheme. | 07-07-2011 |
| 20120240170 | AIRCRAFT COMMUNICATIONS SYSTEM PROVIDING PEDS WITH SATELLITE TV PROGRAMMING CHANNELS AND ASSOCIATED METHOD - A communications system for an aircraft includes an aircraft in-flight entertainment (IFE) system that includes an antenna, a satellite television (TV) receiver connected to the antenna for receiving satellite TV programming channels from at least one satellite TV transponder, and at least one access point in the aircraft configured as a wireless local area network (WLAN) for providing the satellite TV programming channels. At least one personal electronic device (PED) is for receiving the satellite TV programming channels. | 09-20-2012 |
| 20130117790 | MULTI-MODE ANALOG-TO-DIGITAL CONVERTER - A method of configuring an analog-to-digital converter (ADC) includes configuring the ADC to operate in one of a low-pass filter mode and a band-pass filter mode according to a value of a control signal. In at least one embodiment, the method further includes configuring an integrator gain of the ADC and a feed-forward gain of the ADC based on selection of one of a low-intermediate frequency (LIF) mode and a zero-intermediate frequency (ZIF) mode. | 05-09-2013 |
| 20140033259 | SATELLITE SIGNAL DISTRIBUTION - Disclosed is a system and method for receiving satellite television signals. A centralized system component may be provided in association with the satellite antenna. The centralized system component includes at least one or more tuners and one or more demodulators. The centralized component may provide output through a network adaptor that provides output through a single output, which is a coaxial cable in one embodiment. The centralized component may send output in the form of packetized data directed to one or more set-top boxes by way of a network transaction. The set-top box or boxes may be operable to receive the network transaction and to process the data, as appropriate, for display on a TV/monitor. | 01-30-2014 |
| 20140109154 | DIGITAL STORAGE MEDIA COMMAND AND CONTROL DATA INDEXING - A system for receiving satellite signals for display on a monitor. A system in accordance with the present invention comprises an antenna, a server receiver, coupled to the antenna, and at least one client receiver, coupled to the server receiver, wherein the server receiver maintains a list of satellite video signals to be recorded by the server receiver, the satellite video signals including network recorded data and metadata associated with the network recorded data, and wherein the list can be accessed by the server receiver and the at least one client receiver. | 04-17-2014 |
| 20140359674 | METHOD AND SYSTEM FOR PROVIDING A HOME CABLE NETWORK - Methods and systems for cross-protocol time synchronization may comprise, for example, in a premises-based network, receiving, by a root node network controller in the premises, signals that conform to one or more first communications protocols, where the signals may be received from sources external to the premises. The received signals may be bridged to conform to a second communications protocol different from the first communications protocol. The bridged signals may be communicated to one or more networked devices within the premises-based wired network, where only signals conforming to the second communications protocol may be concurrently communicated in at least two frequencies, a first in a frequency range of the first communications protocol and a second in a frequency range of the second communications protocol, the frequency range used by the first communications protocol being different from and not overlapping with the frequency range used by the second communications protocol. | 12-04-2014 |
| 20140373076 | RADIO FREQUENCY AUDIO/VIDEO SWITCH AND INTERNET PROTOCOL DISTRIBUTION APPLIANCE - A switched radio frequency (RF) and Internet Protocol (IP) audio/video processing and distribution appliance that enables virtually any format of audio/video to be received, decrypted, transcoded, encrypted and distributed over a high speed IP backplane and output or modulated in a variety of formats. The system minimizes the number of points of failure to provide an extremely robust and cost effective solution for MDU and hospitality markets both in terms of initial cost and long-term maintenance costs. | 12-18-2014 |
| 20150026736 | METHOD AND SYSTEM FOR INTEGRATED STACKING FOR HANDLING CHANNEL STACKING OR BAND STACKING - A satellite reception assembly may comprise a housing configured to support receipt and handling of a plurality of satellite signals. The housing may comprise circuitry incorporating integrated stacking architecture for supporting and/or providing channel and/or band stacking whereby particular channels or bands, from multiple satellite signals that are received via the satellite reception assembly, may be combined onto a single output signal that may be communicated from the satellite reception assembly to a gateway device for concurrent distribution thereby to a plurality of client devices serviced by the gateway device. | 01-22-2015 |
| 20150304731 | MULTI-SWITCH HAVING A DYNAMIC INPUT ASSIGNMENT - A multi-switch for distributing satellite signals of different levels includes: multiple inputs for connection to controllable sources for satellite signals of the different levels; multiple outputs for connection to receivers for the satellite signals; and a switching unit for connecting outputs to inputs, the switching unit receiving requests for levels via the inputs and assigning the inputs dynamically to outputs on which the same requests were output. The switching unit outputs the requests for levels in accordance with the sequence of their arrival on unused inputs in a corresponding sequence. The requests are dynamically switched at the inputs in accordance with the requests at the outputs and are not assigned according to a predetermined scheme. | 10-22-2015 |
| 20150326916 | METHOD AND APPARATUS FOR AN ENERGY-EFFICIENT RECEIVER - One or more circuits may comprise at least one first-type analog-to-digital converter (ADC) and at least one second-type ADC. The circuit(s) may be operable to receive a plurality of signals, each of which may comprise a plurality of channels. The circuit(s) may be operable to digitize a selected one or more of the channels. Which, if any, of the selected channels are digitized via the at least one first-type ADC and which, if any, of the selected channels are digitized via the at least one second-type ADC, may be based on which of the plurality of channels are the selected channels and/or based on power consumption of the circuit(s). A bandwidth of each first-type ADC may be on the order of the bandwidth of one of the received signals. A bandwidth of each second-type ADC may be on the order of the bandwidth of one of the plurality of channels. | 11-12-2015 |
| 20160094879 | METHOD AND APPARATUS FOR DISTRIBUTING CONTENT IN A COMMUNICATION NETWORK - Aspects of the subject disclosure may include, for example, a system for receiving decoded satellite signals, obtaining media channels from the decoded satellite signals, selecting a portion of the media channels for distribution to a plurality of media processors, encoding the portion of the media channels selected according to a satellite distribution protocol, such as a protocol that facilitates satellite switching, to generate satellite encoded content, formatting the satellite encoded content according to a transport protocol to generate formatted content, and providing the formatted content for distribution to the plurality of media processors via a communication network, such as a single wire communication network or other network. Other embodiments are disclosed. | 03-31-2016 |
