DE20103220U1 - Converter for satellite systems - Google Patents

Description

TechniSat Digital GmbH
TechniPark
54550 Daun

Converter for satellite reception antennas Description

Signals from communications satellites are transmitted in different polarization planes in order to make the best possible use of the available bandwidth. Horizontal and vertical polarization are usually used in Central Europe. On the receiving side, appropriately polarized receiving elements are required to receive the vertical and horizontal planes. Both receiving elements are usually located in a converter and are selected accordingly via a switching signal from the receiving device. If several receiving devices are to be operated simultaneously and independently of one another, special converters are used that provide a corresponding output for each received plane. The signals from the individual planes present at the converter output are sent to a distribution matrix for distribution to the receiving devices. Each receiving device must have a direct connection to the distribution matrix. The star-shaped cable distribution structure required for this means a considerable amount of installation work, which is difficult to implement retrospectively, particularly in existing buildings.

The aim of the invention presented below is to distribute a large number of satellite programs to several users with minimal installation effort. Digitally transmitted (DVB) satellite programs are suitable for this purpose due to the significantly lower bandwidth required. The maximum bandwidth that can be transmitted via a coaxial cable or processed by the receiving device at the input is of course limited. This problem was solved by processing the horizontal and vertical signals of a satellite separately so that they are combined and present at the output of the converter, taking into account the available frequency range. This means that the

The available reception levels are used to select the programs in packages that are of interest to the market on which the converter is to be offered and to position them accordingly in the output frequency range of the converter using an oscillator frequency assigned to the package. The following example serves to further clarify this.

Fig. 1 shows the schematic structure of a corresponding converter:
The receiving element (1) is aligned so that the vertical transponders of the satellite are received. The input frequency range is usually 11.7-12.75 GHz. The received signal is amplified by the low-noise amplifier (2) and fed to the input of the mixer (3). This is also connected to the oscillator (4), which in our example oscillates at a frequency of 10.6 GHz. A subtractive mix is carried out in the mixer (3). The output of the mixer therefore has a frequency range of 1100 MHz - 2150 MHz. The subsequent bandpass (5) filters out only the area of the vertical plane that is of interest to the market. In the example, a frequency range of 1500 - 2150 MHz is available at the output of the bandpass. This is fed to the input of the collector field (6). The horizontal signals from the satellite are received by the receiving element (7) and fed to the input of the mixer (9) via the low-noise amplifier (8). This is connected to the oscillator (10), which oscillates at a frequency of 10.8 GHz. The input of the mixer (9) has a frequency range of 11.7 - 12.75 GHz. The output of the mixer, which performs a subtractive mix, has a frequency range of 900 ■■ 1950 MHz. The frequency ranges of interest to the market are filtered out via the bandpass filter (11). A frequency range of 950 - 1400 MHz is available at its output, which is fed to the input of the collector field (6). In the collector field (6), the signals from the two inputs are combined to form a common output signal, so that a frequency range of 950 - 2150 MHz is available at the output of the collector field (6). This signal can be distributed to the receiving devices without complex switching matrices. It is even possible to distribute it using a cable by looping the signal from one receiving device to the next.

Claims (1)

Converter for processing horizontally or vertically polarized signals in DVB mode from satellite reception antennas so that they are present at the output as a packet, characterized in that this converter contains two or more oscillators and two or more bandpass filters.