DE4025241A1 - Microwave reception device with antenna dish - has function control data signals fed to antenna dish via antenna cable - Google Patents

Abstract

The reception device has an antenna dish (2) directed towards the transmitter coupled to the reception circuit (8,14) via a HF antenna cable (6) and control lines supplying function control signals for the antenna dish (2). The latter comprise serial digital data signals (D) transmitted along the antenna cable (6). Pref the data signals (D) are held in respective storage locations associated with programme keys, operated to allow the data to be read out and fed to the antenna dish (2). USE/ADVANTAGE - For satellite TV or sound broadcasting. Eliminates need for additional control line.

Description

The invention is based on a microwave receiving system according to the preamble of claim 1. With such Emp interception systems, especially for satellite broadcasting Depending on the station received, switchovers and Controls required. The antenna must, for. B. on the jewei satellites. Besides, in many If a polarity changeover is required to enable the Emp the polarization of the received signal to fit. In general, the antenna is a frequency converter zer assigned, also known as LNC (Low Noise Converter) is drawn. In many cases, the reception area must Such converter can also be switched.

For such switchovers or controls, it is known corresponding switching voltages via separate lines from to transmit the receiver to the antenna.

The invention has for its object the receiving system to train so that for switching and controls the antenna between receiver and antenna no additional Chen lines are required and a variety of differences Licher control commands can be transmitted.  

This object is achieved by the inven in claim 1 solved. Advantageous further training are in the sub claims specified.

In the case of the invention, this is the case anyway for the HF transm cable between antenna and receiver Lich for the transmission of the control commands from the receiver to Antenna used. Use is made of the fact makes a lower frequency range about 900 MHz for the RF transmission from the antenna to the receiver anyway is not required because the RF energy is in the higher frequency Area. The invention enables control of the Antenna from several connected receivers, so that the Control is not limited to a main unit. Through the serial transmission of digital signals for the control function There can be a very large number of independent taxes commands are transmitted. This is particularly beneficial for a precise alignment of the antenna on the respective Channel. An influencing of the HF signal by the digita len control signals do not occur because the transmission of Control signals on the one hand only briefly each time on switch a certain program and also the control signals occupy a different frequency range than the RF signal.

An embodiment of the invention will follow hand of the drawing explained. Show in it

Fig. 1 is a block diagram of the solution according to the invention and

FIG. 2 is a diagram for explaining FIG. 1.

In Fig. 1, the microwave energy coming from a satellite 1 is received by the antenna 2 designed as a dish. The signal generated passes through the Polaritätsum switch 3 , the LNC converter 4 and the switch 5 on the RF cable 6th This is connected to the antenna input 7 of the receiver 8 , which is a television receiver or radio broadcast receiver. In the receiver 8 , the RF signal reaches the adder 9 , the output of which is connected to the actual SAT tuner 10 . The tuner 10 delivers at its output the baseband signal for the signal playback. The circuit described so far is known.

In the receiver 8 , an I2C bus is connected to the input of the encoder 11 . The I2C bus contains control commands for antenna 2, each for a specific program. These commands are contained in the program memory of the receiver and are issued depending on the program that is switched on. The encoder 11 generates a serial digital data signal D, which reaches an input of the adder 9 . The signal D is transmitted from the receiver 8 to the antenna 2 against the direction of transmission of the RF signal via the antenna cable 6 . In the switch 5 , the signal D, which is in the frequency range from 0 to 900 MHz, is frequency-selectively separated and fed to the decoder 12 . The decoder 12 generates control signals for control functions and switchovers on the antenna 2 at its outputs. A first control signal Us 1 controls the actuator 13 , which effects the alignment of the antenna 2 with the respectively received transmitter, ie the respective satellite. For the alignment of the antenna, only the angle to the south is required, since the satellite is syn chron to the earth, z. B. at an altitude of 36,000 km. If the satellite is facing directly to the south, the antenna must be steep, with a greater deviation from the south it should be flatter towards the horizon. This coupling in the alignments is firmly implemented in the antenna mechanism by means of cure washers. A second control voltage Us 2 actuates the polarity switch 3 and adjusts the antenna system to the folarization of the microwave signals 1 received in each case. The third control voltage Us 3 causes the converter 4 to switch the frequency range corresponding to the frequency of the received microwave signal 1 .

In Fig. 1, a second receiver 14 is connected to the HS cable, which also contains an encoder 15 and a SAT-Tu ner 16 . A video recorder 17 is connected to the receiver 14 , with which the received signal can be recorded. When the video recorder 17 is operating in the RECORD mode, a prohibition signal Uv is generated at the terminal 18 . The prohibition signal Uv prevents any switching of the receiving arrangement during the recording operation, which could interrupt the recording operation. The signal Uv, also referred to as "RECORD VETO", can act on the control encoder / decoder 11 in the receiver 8 or also on the control decoder 12 on the antenna 2 .

Fig. 2 (V = H = horizontal vertical) shows three programs for different values for the receiving frequency, for the polarization and different angles for the respective orientation of the antenna. The values shown are stored together with the other values for tuning in the individual memory locations of the program locations. Is z. B. manually selected the program No. 2 on the receiver 8 , it generates the encoder 11 a data signal D, which represents the values shown for reception frequency, polarization and alignment of the antenna and the corresponding controls and switches on the antenna system. The data signal D is thus only briefly transmitted over a period of a few ms each time a particular program is selected and sets the values for the reception frequency, polarization and alignment to the respectively stored values, unless they have already been set on the antenna system.

Claims (4)

1. Microwave receiving system with a directional antenna on the transmitter and a receiving device that is connected via an RF antenna cable and control lines to the antenna via which signals for control functions on the antenna are transmitted, characterized in that Signals are designed as serial, digital data signals (D) which are transmitted via the antenna cable ( 6 ) from the receiving device ( 8 , 14 ) to the antenna ( 2 ). 2. Plant according to claim 1, characterized in that the Data signals (D) in the individual program buttons ordered storage spaces are saved and when Betä a program key. 3. Plant according to claim 1, characterized in that a switching on the antenna ( 2 ) by another receiving device is prevented during reception operation of a receiving device. 4. Plant according to claim 1, characterized in that the control functions in an alignment of the antenna ( 2 ) on the respectively received transmitter, in a switching device of the polarization direction or in the switching of the frequency range of a frequency converter arranged on the antenna ( 4 ).