DE2166972A1 - Satellite transmission system for TV and radio - supplies certain ground area with signals received from ground station - Google Patents

Abstract

A satellite transmission system for radio and Tv is signals includes a ground station which beams its signals to the satellite which amplifies them and re-radiates them through its antenna to the ground area to be served. The signal frequency is transposed one, twice or several times in the satellite. The satellite position is coarsely stabilised, and its antenna or the beam is in addition finely stabilised. More than three stations (St1-St6) are distributed over the ground service area (F), each of which can transmit through the satellite (S). Each of them has equipment monitoring satellite sending power. A central evaluation station which receives the measurement results and derives a control signal, is preferably a station which can send signals to the satellite. The control signal is used for fine adjustment of the satellite antenna or its beam with an accuracy of 0.1 deg.

Description

Munich, February 16, 1976 Jae 13 Shy 2166972

File number: 20 ¥ (pat) 42/73

(P 21 55 101.9-35) VPA 71 / 6701b

Satellite communication system

^{P 2}

^{21 53}

The invention relates to a satellite communication system, consisting of a certain area of the earth's surface with information, for example radio and television signals, serving satellites, and at least one radio relay communicating with the satellite Ground station at which the satellite received from the ground station the received information is amplified and radiated via its transmitting antenna in the direction of the coverage area, optionally using a single, double or multiple Implementation and in which the satellite is roughly stabilized in its target position and with regard to its transmitting antenna or whose beam is also finely tracked.

In satellite communication systems with usually In orbiting satellites, it is important that the satellite and its antenna always have sufficient accuracy is aligned with the area of the earth's surface to be supplied with information. Through the reference "Telekommunikation Technical reports (NTF) "Vol. 32, 1967, pages 88 to 92, are various ways of stabilizing the position of a communications satellite. In addition to fully active stabilization, a passive earth stabilization with additional fine control of the antenna specified. This additional fine control is implemented in in this case necessary because a passive earth stabilization of a satellite allows only a rough alignment of the satellite axis to the center of the earth, whereby the error angle can be up to + 10 °.

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Regional satellite systems, as they are "for example in the Journal "Funktechnik", 16 (1971) Issue 1, pages 8 to 10 have been described, are for example for the supply of narrowly limited areas of the earth's surface with television programs. The illumination narrow limited areas through the satellite antenna is just for Europe through the different languages and the different Frequency norms enforced. The same applies to satellites, which are used to provide regional coverage to be provided with radio programs. In order not to disturb neighboring areas on the one hand and on the other hand To be able to use sharply bundling antennas to save on satellite-side transmission power, it is It is necessary to set the half-width of such satellite transmitting antennas in the order of 1 °. So that the Directional beam of such a transmitting antenna rigidly connected to the satellite does not migrate on the earth's surface, is one extremely good attitude and position stabilization of the satellite in the order of 0.1 ° required.

As relevant studies have shown, these high requirements mean an extremely high technical level Expenditure on resources for fully active attitude and position stabilization of the satellite.

The invention is based on the object for a satellite communication system of the type described in the introduction, a solution for stabilizing the position and position of the Specify satellites, with the help of which the required precise alignment of the satellite transmission antenna with relatively little effort or whose transmission beam can be guaranteed to the coverage area.

This object is achieved according to the invention in that more than three distributed over the supply area

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Stations are present, each of which may have one can be broadcast earth station via the satellite and each of these stations with a locally received transmission energy of the satellite monitoring measuring device is equipped, that also a central, the measured values for the derivation a control signal evaluating evaluation point on one of the Ground stations, preferably a broadcast ground station, is provided and that by means of this control signal via the existing remote control system away from the transmitting antenna of the fully active stabilized satellite or its beam for precise alignment with the coverage area in the

»The order of magnitude of 0.1 ° is finely tracked.

In the invention it is assumed that in numerous applications for regional satellite services within the limited area to be supplied with information by the satellite, for example the Federal Republic of Germany, several ground stations mn distributed over this area are present and thus these existing stations are extremely advantageous for the extraction of the control signal to be derived for the fine tracking of the satellite antenna or its transmission beam can also be used. The weight of the satellite can be reduced because a measuring and evaluating device on the satellite side can be dispensed with.

The conditions are particularly favorable if the stations distributed over the supply area at least are arranged in the predominant number in the edge area of the supply area.

If the satellite S is a television satellite, it will generally be a stationary satellite. is the satellite intended for sound and radio transmission, so that he

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.If.

could work in the VHF range, then the satellite could too be an orbiting satellite, because no directional antennas are common and not common for sound broadcast reception in the coverage area are necessary. The smaller distance of the satellites on subsynchronous orbits reduces the radio propagation loss and thus the transmission power required in the satellite is considerably reduced. Equatorial orbits come into question, everyone Enable reception one or more times a day at the same time.

It is useful to derive the control signal by comparison the measured values delivered by the various stations in the central evaluation point excluded such measured values, either as fluctuations in the transmission energy of the satellite or as atmospheric disturbances, in particular localized atmospheric disturbances can be detected.

In a preferred embodiment, in addition to the measuring devices, rain display and rain measuring devices working together with these measuring devices are provided on the individual stations, with the help of which the measured values of the field strength fluctuations due to local rain are either not passed on to the central evaluation point at all or can be derived from the rain intensity Correction to be provided.

Furthermore, it is particularly advantageous if the remote control system for the satellite and the central evaluation point arranged in a ground station representing the central station are and the other stations distributed across the coverage area via communication channels with the Central station in communication «,

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If the satellite lim is a television satellite, intended for the transmission of two or more television programs in a given coverage area then it can be useful to use the satellite's transmitting antenna, which is equipped with fine tracking, as a group of two or more individual antennas for different frequency ranges to design. The transmitting antenna of the satellite can also consist of a group of two or more individual antennas but there are different coverage areas for the same frequency range. All that is required is all To arrange individual antennas with correspondingly different alignment on a common carrier, the is movable relative to the actual satellite via the fine tracking device.

In the figure, S denotes the satellite whose transmitting antenna A, which can also be a receiving antenna, is connected to the actual satellite via an adjustment device Er. The arrows attached to the right and left within the satellite S shown as a rectangle are intended to indicate that the satellite orbit is slightly subject to disturbances which result in a change in position of the satellite forwards and backwards and upwards and downwards. The surface of the earth is indicated by the area framed in a wavy line and marked with an E. The directional beam emanating from the transmitting antenna A covers the service area F, over which six stations St1 to St6 are arranged. Of these stations, station St1 takes on the function of a central station. It is connected to the other stations St2 to St6 via unspecified communication channels. In the figure, the supply area F ^{f is also} drawn in broken line, which is detected when the directional beam of the transmitting antenna A moves slightly out of its target position.

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Each of the six stations is equipped with a field strength measuring device which continuously transmits its measured values to the central station St1. The measured values are evaluated together with the measured values of the measuring device arranged on the central station in a central evaluation point, for example a computer, in order to derive a control signal which is designed so that the transmitting antenna A of the satellite S when the antenna beam drifts out of the prescribed service area F, for example, according to F ^f , is realigned to the desired coverage area by means of fine adjustment via the existing remote control system. The control signal Ss sent from the central station to the satellite is indicated in the figure by an arrow shown in broken line. As has already been indicated, practically no significant effort needs to be made on the satellite side for the criterion of fine-tuning the antenna, because the telemetry receiver present in the satellite can easily take over the control of the setting device Er of the transmitting antenna A.

For example, if the coverage area is the Federal Republic of Germany, then the different Recruiting stations from the television studios spread across the Federal Republic who, in their capacity as terristic network or via satellite service channels anyway have the necessary connections with each other, so that apart from that from the central evaluation point, only the mentioned measuring devices in the different studios would have to be set up. The effort for these measuring devices is kept in this case low limits, because every studio has a monitor receiver to control the data it transmits to the satellite Broadcasts must be equipped.

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As has already been stated, fluctuations in the field strength not only occur at the location of the various stations then on when the antenna beam wanders out of the coverage area. Field strength fluctuations due to fluctuations the transmission energy of the satellite S can be recognized very easily and thus for their evaluation to derive a Exclude the control signal because this type of fluctuation appears in the same way on all stations. The situation is different with field strength fluctuations that are caused by atmospheric disturbances and if they occur briefly, for example rain showers, are locally limited. The derivation of a faulty

However, the control signal can also be prevented here with a high degree of probability by a correlation method when evaluating the measured values arriving from the various stations at the central station, provided that, as indicated in the exemplary embodiment according to the figure, more than three stations, preferably not less than five stations , are available as measuring points. In addition, the derivation of a faulty control signal due to local field strength drops caused by rain can be prevented in a simple manner by arranging rain indicators or rain measuring devices in front of the stations, with the help of which it is possible to measure the field strengths due to rain.

to detect fc break-ins.

7 claims
1 figure

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Claims (7)

Claims Satellite communications system consisting of a specific area of the earth's surface with information such as radio and television signals supplying satellites and at least one ground station connected to the satellite via directional radio, in which the satellite amplifies the information received from the ground station and in the direction of its transmitting antenna radiates onto the coverage area, if necessary using a single, double or multiple implementation, and in which the satellite is roughly stabilized in its nominal position and with regard to its transmitting antenna or its beam is additionally finely tracked, characterized in that over the supply area (F) distributed across more than three stations (St1 ... St6) available are, of which, if necessary, each can be a ground station capable of transmitting via the satellite (S) and each of these Stations are equipped with a measuring device that monitors the locally received transmission energy of the satellite, that also a central evaluation point evaluating the measured values for the derivation of a control signal on one of the Ground stations, preferably a broadcast ground station, is provided and that by means of this control signal via the the existing remote control system away from the transmitting antenna (A) of the fully active stabilized satellite or its beam is finely tracked in the order of 0.1 ° for precise alignment with the supply area (F). 2. Satellite communication system according to claim 1, characterized in that the stations (StL., St6) distributed over the supply area (F) are arranged at least in the predominant number in the edge area of the supply area. VPA 71 / 6701b 7 09815 / 04U - r- 3. Satellite communication system according to claim 1 or 2, characterized in that that for the derivation of the control signal by comparing the ones delivered by the different stations (St1 ... St6) Measured values in the central evaluation point such measured values are excluded, which either as fluctuations in the transmission energy of the satellite (S) or as atmospheric disturbances, especially localized atmospheric disturbances Faults are recognized. 4. Satellite communication system according to claim 3, characterized in that on the individual stations (St1 ... St6) apart from the measuring devices, rain indicators that work together with these measuring devices and rain measuring devices are provided and that the measured values of the field strength fluctuations due to local rain either not forwarded to the central evaluation point at all or with one from the Rain intensity derivable correction are provided. 5. Satellite message transmission system according to one of the preceding claims, characterized in that that the remote control system for the satellite (S) land the central evaluation point in a central station representative ground station (St1) are arranged, and that the rest are distributed over the service area Stations (St2 ... St6) are in communication with the central station via communication channels. 6. Satellite communication system according to one of the preceding claims, characterized in that the equipped with a fine tracking Transmitting antenna (A) of the satellite (S) from a VPA 71 / 6701b 709815 / (KU Group of two and more individual antennas for different ones Frequency ranges. 7. Satellite communication system according to one of claims 1 to 5 »characterized in that that the transmitting antenna (A) of the satellite (S), which is equipped with fine tracking, is from a group of there are two or more individual antennas for the same frequency range but different coverage areas. VPA 71 / 6701b 709815/0414