SE525326C2 - satellite communication systems - Google Patents

Abstract

A communication system for satellite signals intended to be used in conjunction with a parabolic reflector (10), comprising a feeder element (2) and a control arrangement (16). The feeder element is provided with at least one antenna element (4, 6, 8), preferably a feeder horn, and it is adapted to receive television signals and to receive or transmit Internet signals. The control arrangement (16) is adapted to separate the television signals from the Internet signals and to select and forward one television signal for reception and to select and forward one Internet signal for reception or transmission, respectively. The invention enables reception of television signals from one satellite and simultaneous communication with the Internet via the same or another satellite, with one and the same parabolic antenna.

Description

25 30 satellite dishes for receiving TV signals. It would also be an advantage if the satellite dish can receive signals from fl your adjacent satellites, without the need to redirect the dish.

DISCLOSURE OF THE INVENTION This object and others are achieved by means of a satellite communication system according to the appended claims.

This communication system is intended for a parabolic reflector and includes feed elements and a control device. The feeder element comprises at least one antenna element arranged to receive TV signals and to receive and transmit Internet signals. The control device is arranged to separate TV signals from Internet signals and to select and forward a TV signal for reception and to select and forward an internet signal for reception or transmission, respectively.

The feeder element may be provided with additional antenna elements, for communication with your satellites.

The antenna elements can consist of human antennas.

The control device comprises controllable switches, which control which TV signal and internet signal are to be transmitted.

To enable easy mounting of a feed element on a satellite dish, the feed element can be provided with a mounting part, the external design of which is adapted for mounting in certain satellite dishes.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will now be described in more detail with reference to the accompanying drawings, in which: - Figs. 1 shows a schematic sectional view of a satellite dish for receiving satellite signals, comprising a feed element with three human antennas.

Fig. 2 schematically shows an embodiment of a microhead according to the invention, and - Fig. 3 schematically shows an embodiment of a control device according to the invention.

DESCRIPTION OF PREFERRED EMBODIMENTS Figure 1 schematically shows parts of a first embodiment of a satellite communication equipment for TV and the Internet, provided with a feed element 2 comprising three horn antennas 4, 6, 8 and LNBzs (Low Noise Block down converter), not shown, for receiving TV signals and for receiving and transmitting Internet signals. The feeder element receives signals from adjacent satellites via a parabolic rector 10. In this figure, the satellites ASTRA, EUTELSAT, and EUTELSAT / HB, are marked, which are at an angular distance of about 3 degrees from each other.

A control device, not shown in Figure 1, comprising filters, amplifiers and switches, separates TV and Internet signals from each other and selects which of the signals from the different horn antennas are to be fed to one or more of the LNBs. Via one or fl your outputs, the separated, amplified and frequency-down-converted TV and Internet signals are transmitted in a conventional manner to a common or two separate communication boxes / boxes for TV and the Internet, and further to receivers for TV and to receivers and transmitters for Intemet. Such receivers may, for example, consist of a TV or a computer, or alternatively a TV for receiving TV signals and a mobile or desktop computer for communication with the Internet. The control device also enables the transmission of Internet signals from a TV or computer, via the communication box and the horn antenna that communicates with the Internet.

In the embodiment of the supply element 2 according to Figures 1 and 2, this is provided with three human antennae 4, 6 and 8, but the number of horns can be varied depending on how many different satellites signals are desired to be received from, however, it is provided with at least one human antenna . According to another embodiment of the supply element, the antenna elements for receiving TV signals and communication with the Internet can be of any other type of antenna, such as, for example, patch antennas.

Thus, according to Figure 1, the signal from a first satellite is passed through the horn 4, the signal from a second satellite is passed through the horn 6 and the signal from a third satellite is passed through the horn 8. When receiving TV or Internet signals from the first satellite, the control device blocks the signal reception from the home 6 and 8. Receipt of signals from the second and third satellites is effected in a corresponding manner. TV and Internet signals can, independently of each other, be received from different satellites. If TV signals are received from a first satellite, for example via antenna 4, and Internet signals from a second satellite are received, for example, via antenna 6, the control device blocks TV signals from antennas 6 and 8 and Internet signals from antennas 4 and 8.

According to an embodiment of the invention, the feed element is provided with a mounting part 12, the outer design of which is adapted for mounting in a conventional satellite dish.

Figure 2 schematically shows components included in a microhead 14 according to an embodiment of the invention. Three horn antennas 4, 6, 8 receive TV signals and Internet signals from each satellite. The satellites transmit the TV and Internet signals in the form of linearly polarized signals (horizontally or vertically polarized) or circularly polarized signals, which are received by the human antennas and passed on to the control device 16. The control device separates Internet signals and TV signals from each other by means of suitable filters. out which TV signal and which Internet signal is to be transmitted. From the control device, the selected signals are then routed to one or more of the LNBs (low noise block down converter) 18, for amplifying the signals and down-converting the frequencies, after which the signals are routed to the receiver box and TV / computer, via one or more of their outputs. . A TV signal from a satellite utilizes a certain frequency band, for example the range 10.7 - 12.75 GHz, while an Internet signal utilizes another, adjacent frequency band. Through the invented control device, TV and Internet signals can be received simultaneously from the same satellite and with the same human antenna. The invented control device, arranged in the microhead of the satellite dish, receives the signals from the antennas, and filters out the Internet signal and the TV signal, respectively, for transmission to the LNBs, and further to the receiver box and TV / computer, via one or fl your outputs. Normally, the control device is arranged for continuous reception of Internet signals from a satellite, while the control device is arranged to receive TV signals from a certain satellite after being influenced by the communication box. When transmitting Internet signals, the reception of Internet signals must be temporarily interrupted via the communication box, after which the control device is arranged for transmission.

Figure 3 schematically illustrates an embodiment of the invented control device 16. Only reception of signals from two horn antennas is shown in the clock, while the dashed lines in the clock indicate that the control device may be arranged to control signals to and from any number of antennas, or at least one antenna. The inputs to the controller 16 of Figure 3 consist of a vertically polarized signal 36 or a horizontally polarized signal 38 from a first antenna, and a vertically polarized signal 40 or a horizontally polarized signal 42 from a second antenna. Alternatively, the input signals may be circularly polarized. The TV and Internet signals are separated from each other by means of teachable filters and amplified by suitable components, so that the filtered signal 20 constitutes a received Internet signal from the first antenna and the filtered signal 22 constitutes a received Internet signal from the second antenna. Correspondingly, the filtered signal 24 constitutes a received TV signal from the first antenna and the filtered signal 26 a received TV signal from the second antenna. Controllable switches 28, 30, 32, 34 then control which, if any, TV signal or Internet signal is to be passed on to the LNBs in the form of output signals 44, 46 from the control device 16.

Normally, the Internet signal is received continuously from a particular satellite, except when reception is interrupted for the transmission of the Internet from a TV or computer. When transmitting Internet signals, the Internet signals are transmitted in the opposite direction through the control device in relation to what has been illustrated and described in connection with 3 gur 3, via a separate amplifier.

In the invented communication system, the feed element is provided with a suitable number of antenna elements, or at least one antenna element, preferably human antennas, depending on how many satellites a user wishes to communicate with. Because the antenna elements are designed for communication of both TV signals and Internet signals independently of each other, and the control device is arranged to select which antenna signals are to be transmitted, a satellite dish at a home, workplace or school is sufficient for receiving TV and communication with the Internet, when it is equipped with the invented satellite communication system. The device can be arranged to be mounted on an existing, conventional satellite dish, which makes it cost-saving for the customer.

The present invention is not limited to the embodiments described above but can be modified within the scope of the appended claims.

Claims (8)

10 15 20 25 30 PATENT REQUIREMENTS A satellite signal communication system for a parabolic reactor (10), the communication system comprising at least one antenna element (4, 6, 8) for receiving from respective transmission to a satellite and a control device (16), characterized by - that the at least one antenna element (4, 6, 8) is included in a feed element (2) and is arranged to receive a TV signal from the satellite and to simultaneously receive or transmit an Internet signal from the respective satellite, and - that the control device (16) is arranged - - to receive TV and Internet signals from the at least one antenna element (4, 6, 8), - - to separate a received TV signal from a received Internet signal, - - to select and forward a TV signal. signal received via the at least one antenna element (4, 6, 8) from the satellite, - - to select and forward an Internet signal received via the at least one antenna element (4, 6, 8) from the satellite, and - - to the at least one antenna element (4, 6, 8) forward a Internet signal for transmission to the satellite. Communication system according to claim 1, characterized in that the supply element (2) comprises ant your antenna elements (4, 6, 8) arranged to communicate with each satellite via the parabolic rectifier (10). Communication system according to claim 1 or 2, characterized in that the control device (16) comprises filters for separating received TV signals and Internet signals from each other. Communication system according to one of Claims 1 to 3, characterized in that the at least one antenna element (4, 6, 8) is arranged to receive both a vertically polarized signal (36, 40) and a horizontally polarized signal (38, 42). ) and that the control device (16) comprises a filter for filtering out a received TV signal from each signal received by the antenna element and a filter for filtering out a received Internet signal from the same signal received by the antenna element. Communication system according to claim 4, characterized in that the outputs of the filter arranged to filter out a received TV signal or a received Internet signal from the vertically polarized signal, and of the filter arranged to filter out a received TV signal and a received Internet signal from the horizontally polarized signal, respectively, are interconnected, so that the resulting signal (24, 26; 20, 22) constitutes a TV signal resp. an Internet signal received from at least one antenna element. Communication system according to one of Claims 1 to 5, characterized in that the control device (16) comprises controllable switches (28, 30, 32, 34) for controlling which of the received TV or Internet signals is to be transmitted. Communication system according to one of Claims 1 to 6, characterized in that the supply element (2) is provided with a mounting part (12) with an external design adapted for mounting in a satellite dish. Communication system according to one of Claims 1 to 7, characterized in that the at least one antenna element consists of a horn antenna (4, 6, 8).