DE3735839A1 - Arrangement for transmitting radio signals - Google Patents

Abstract

A spatially limited radio system for simplex communication with simplex frequencies contains a receiver and a transmitter which is AF-connected to the receiver, which in each case exhibit their own leaky-cable antennas, the spacing of the cables or respectively of the transmitter and of the receiver being selected in such a manner that cross-coupling is avoided.

Description

The invention relates to an arrangement for the transmission of Radio signals according to the preamble of the claim.

Arrangements of this type are usually always then used when a radio system on a limited Territory (buildings, ships, underground facilities, such as Tunnels, mines, caves, underground camps or com Mando stands, air raid shelters, underground traffic systems locations (underground stations) etc.) and one direct transmission of radio signals in a conventional way is not possible or is not desired (e.g. from Security reasons, such as protection against eavesdropping, etc.).  

To keep intercommunication between even in these cases mobile subscribers in the radio area and a central office or two-way communication between the mobile subscribers enable each other, are usually in ge entire radio area radiating cable (also slot or Leakage cable called) relocated as a send or receive serve antennas and sent to a transmitting / receiving center are closed. The conventional radio systems work here in duplex or semi-duplex mode. These known systems require two different ones to transmit the radio signals Frequencies what because of the scarcity of free frequencies is causing difficulties in many cases today.

The object of the invention is an arrangement of type mentioned above to create the two-way traffic in simplex mode, d. H. on a single transfer frequency, enables and beyond that the possibility opened, possibly also two-way communication on two transmissions lead frequencies.

The inventive solution to the problem is in the patent saying 1 described. The remaining claims contain partial training and development of the invention Solution and preferred applications of the invention.

The solution according to the invention is that the receiver the control center on the input side as a receiving antenna serving first radiating cable is connected and the Transmitter of the control center on the output side as a transmitting antenna serving second radiating cable. The transmitter is on on the aisle side (preferably NF-style) with the exit of the Connected to the recipient. The transmission of radio signals in The transmitting and receiving parts take place at the same frequency.  

The minimum distance between the receiver and the transmitter first cable from the second cable is chosen so that the degree of coupling of the transmitting and receiving part of the Arrangement is lower than the response threshold of the recipient gers so that the arrangement does not vibrate can be.

In the solution according to the invention, radio signals, which are emitted, for example, by a mobile subscriber who is in the radio area at frequency f ₁ , are received by the first cable serving as the receiving antenna and forwarded to the receiver. The signal is demodulated there in the usual way and then fed via an LF connection (in a preferred embodiment via an LF connection with signal amplifier) to the transmitter and, if appropriate, the communication device of the control center. In the transmitter, the signal of the same carrier frequency f _{1 is} modulated and radiated out via the second cable serving as the transmitting antenna, so that in addition to the control center, other mobile subscribers in the radio area can also receive the signal. Likewise, in a preferred embodiment, signals can be generated in the central communication device, which are likewise fed into the transmitter via an LF connection and are modulated there on the carrier frequency f ₁ and are then broadcast in the radio area via the second cable.

The advantage of the invention over the conventional, in duplex or semi-duplex radio systems is that two-way communication on a single transmission frequency f ₁ or, if desired, also intercom on two transmission frequencies f ₁ and f _{2 is} possible.

The invention is explained in more detail below with reference to the figures described. Show it

Fig. 1 shows the basic shape of the arrangement according to the invention.

Fig. 2 shows an advantageous embodiment of the inventive arrangement for a spatially extended radio area.

Fig. 3-4 two further details of the advantageous embodiment of the arrangement according to the invention for a spatially extended radio area.

Fig. 5 shows a further advantageous embodiment of the arrangement according to the invention, in which the communication device of the central NF is coupled to the transmitting / receiving part of the central NF.

Fig. 6 shows a third advantageous embodiment of the arrangement according to the invention with a further transmitting / receiving part.

Fig. 7 shows a fourth embodiment of the arrangement according to the invention, which is suitable as a single-frequency radio system.

The basic shape of the inventive arrangement shown in Fig. 1 consists of a central receiver 1, the amplifier via a low-frequency connection 10 to the input of a signal 3 is connected, whose output is connected via a wide re NF-connection 20 having a central transmitter 2 is. The receiver 1 is connected on the input side to one end of a radiating cable 4 , the transmitter 2 on the output side to one end of a second radiating cable 5 .

If a subscriber (for example the head office or a mobile subscriber A ) sends out a radio signal on the frequency f ₁ , the signal is received by the first cable 4 and passed on to the receiver 1 , where it is demodulated and via the NF connections and Signal amplifier 3 is fed in an amplified form into the transmitter 2 and modulated there to the same frequency f ₁ and then broadcast again in the radio area via the second cable 5 , so that further radio subscribers B , C can receive the radio signals in this area.

The two cables preferably have the same length L and the same distance, which is slightly larger or the same as a preselected minimum distance D , which arises from the requirement that the degree of coupling from the transmitting and receiving part of the arrangement must be less than the response threshold of the recipient 1 . (With a response threshold of a conventional receiver of approximately 1 µV, a transmitter power of approximately 10 mW, the minimum distance D between the two cables is approximately 2 m). A corresponding minimum distance must also be maintained between transmitter 2 and receiver 1 , but this is generally less than the distance D between the two cables, since both transmitter and receiver are expediently designed to be HF-tight.

In large areas, such as B. multi-storey buildings, with the basic shape of the arrangement according to the invention shown in FIG. 1, excessively long cables 4 and 5 and associated excessively high longitudinal attenuation values of the cables, the higher transmission powers of the transmitter 1 and thus larger minimum distances D between the two cables 4 and 5 or the installation of additional repeaters ( 71-74 in Fig. 4) required.

These difficulties are reduced or avoided with the advantageous embodiment of the arrangement according to the invention shown in FIGS . 2 and 3.

In this embodiment, the two cables 4 and 5 , starting from the receiver 1 or transmitter 2 , are each at least at least one location which can be immediately behind the receiver 1 or transmitter 2 ( FIG. 2) or at one of the receiver 1 or transmitter 2 further away from the cables 4 , 5 ( FIG. 3), by means of distributors 61-64 tree-like branches into several strands ( 41-43 , 51-53 ; 44-46 , 54-56 ), which different sub-areas of the radio area supply. In a multi-storey building, for example, one would expediently supply the individual floors by means of separate cable harness pairs according to FIGS . 2 and 3, three of these cable pairs 41 , 51 ; 42 , 52 ; 43 , 53 are shown. In certain spatial conditions (e.g. in long corridors or tunnels) it may also be necessary to add additional repeaters 71-74 in the individual cable harnesses 47-49 , 57-59 as shown in FIG. 4 to compensate for the longitudinal attenuation in the cables to install.

Fig. 5 shows an advantageous embodiment of the inventive arrangement, in which the center with its communication device 8 (z. B. microphone / loudspeaker device) does not, as in the previous case, in the same way as the mobile radio subscriber sends signals and / or receives. In this preferred embodiment, the communication device 8 is expediently directly connected to the receiver 1 or transmitter 2 of the control center via NF connections 10 , 20 , so that additional modulation / demodulation processes in the communication device 8 are omitted.

(Eg. If a cable breaks) to increase the availability of the device in case of malfunctions, it may be advantageous, as shown in FIG. 6, the free ends 40, 50 of the cable bundles 4, 5 by means of further receivers 12, further AF lines 102, 202 to connect further signal amplifiers 32 and further transmitters 22 to one another. For reasons of redundancy, these further transceivers 22 , 12 can be connected to the communication devices 82, for example from other centers.

Fig. 7 finally shows a fourth embodiment of the arrangement according to the invention, which is suitable as a single wave radio system.

Two unbranched cables 4 and 5 are shown here by way of example, each of which is connected at its two ends to a transmitter 21 and 22 (cable 5 ) or to a receiver 11 and 12 (cable 4 ). The receivers 11 , 12 are connected on the output side via LF connections 101 , 102 to a receiver selection device 9 , which in turn is connected via a signal amplifier 3 to the inputs of the two transmitters 21 and 22 . The connections 103 , 201-203 are NF connections. The communication device 8 of the control center is connected in the manner already discussed above ( FIG. 5) via NF connections 103 , 201-203 to the receiver selection device 9 and also to transmitters 21 , 22 .

The two transmitters 21 and 22 work in the same wave technology on the radiating cable 5 serving as the transmitting antenna, which doubles the longitudinal range of the radiating cable (with the same longitudinal attenuation values). The receiver selection means 9 selects in a known manner according to predetermined criteria, such as signal / - noise ratio, etc., the gnale in the transmission of Funksi to be involved receiver 11 or 12 from.

It is understood that the solution according to the invention with professional knowledge trained and developed or for the different applications can be modified without that this should be explained in more detail here.

So it is z. B. possible that the communication device against the head office and / or the communication facilities further centers of the arrangement according to the invention Lich with at least one other arrangement for transfer radio signals is connected.

The two arrangements expediently work with different transmission frequencies f ₁ and f ₂ .

This opens up the possibility of several of each other the independent limited radio areas to each other couple.

It is also possible not only to branch the two cables in a tree-like manner, but also to bring the individual strands of the branches together again in the form of meshes. Finally, it is conceivable that the intermediate amplifier to be additionally connected to compensate for the longitudinal attenuation in the cables is not designed as a one-way amplifier as in FIG. 4, but rather as a two-way amplifier, and thus reduces the number of intermediate amplifiers by half compared to the embodiment according to FIG. 4.

Claims (21)

1. Arrangement for the transmission of radio signals in alternating voice traffic between mobile subscribers and a central office and / or in intercom between the mobile subscribers with one another, with a transmitter, a receiver and a communication device containing the central unit and with radiating cables connected to the central unit as a transmission / Receiving antennas, characterized in

• - That the receiver ( 1 ) of the control center is connected on the input side to a first radiating cable ( 4 ) serving as a receiving antenna;
• - That the transmitter ( 2 ) of the control center is connected on the output side to a second radiating cable ( 5 ) serving as a transmitting antenna;
• - That the transmitter ( 2 ) is connected on the input side to the output of the receiver ( 1 );
• - That the transmission of the radio signals in the transmitting part ( 2 , 5 ) and receiving part ( 1 , 4 ) of the arrangement takes place at the same frequency;
• - That the minimum distance of the receiver ( 1 ) from the transmitter ( 2 ) or the minimum distance ( D ) of the first cable ( 4 ) from the second cable ( 5 ) are selected so that the degree of coupling from the transmitter part ( 2 , 5th ) and receiving part ( 1 , 4 ) of the arrangement is lower than the response threshold of the receiver ( 1 ).

2. Arrangement according to claim 1, characterized in that the first cable ( 4 ) starting from the receiver ( 1 ) or the second cable ( 5 ) starting from the transmitter ( 2 ) at least one point in several strands ( 41- 43 , 51-53 ; 44-46, 54-56 ) branches like a tree. 3. Arrangement according to one of claims 1 or 2, characterized in that at one or more points of the two cables ( 47-49 , 57-59 ) a Zwischenver stronger ( 71-74 ) is installed. 4. Arrangement according to one of claims 1 or 2, characterized in that the distance between the two cables ( 4, 5; 41 -49 '; 51-59 ) is slightly greater than or equal to the preselected minimum distance ( D ) of the two cables ( 4 , 5 ; 41-49 ; 51-59 ). 5. Arrangement according to one of claims 1 to 4, characterized in that at the not connected to the receiver ( 1 ; 11 ) or transmitter ( 2 ; 21 ) of the control center free ends ( 40 and 50 ) of the two cables ( 4th , 5 ) each have a further receiver ( 12 ) and transmitter ( 22 ) connected to the cables ( 4 , 5 ) in the same way as the receiver ( 1 ; 11 ) and transmitter ( 2 ; 21 ) of the control center. 6. Arrangement according to one of claims 1 or 5, characterized in that the receiver ( 1 ; 11 ) and the transmitter ( 2 ; 21 ) of the center or the further receiver ( 12 ) and transmitter ( 22 ) each via a signal amplifier ( 3 ; 31 , 32 ) are interconnected and that the respective connections are LF connections ( 10 , 20 ; 101 , 201 ; 102 , 202 ). 7. Arrangement according to one of claims 1 or 5 to 6, characterized in that the communication device ( 8 ; 81 ) of the control center is connected on the input side to the output of the receiver ( 1 ) and on the output side to the input of the transmitter ( 2 ) of the control center and that the connections are NF connections ( 10 , 20 ; 101 , 201 ). 8. Arrangement according to one of claims 5 to 7, characterized in that further communication devices ( 82 ) with their input to the output of one of the further receivers ( 12 ) and with their output to the input of the respective further receiver ( 12 ) associated further transmitter ( 22 ) are connected and that the connections are respectively NF connections ( 102 , 202 ). 9. Arrangement according to claim 5 in its training as a single-frequency radio system, characterized in that all receivers ( 11 , 12 ) are connected on the output side to a receiver selection device ( 9 ), that the receiver selection device ( 9 ) via a signal amplifier ( 3 ) with all transmitters ( 21 , 22 ) and that the connec tions are NF connections ( 101-103 ; 201-203 ). 10. Arrangement according to one of claims 1 or 7 to 9, characterized in that the communication device ( 8 ; 81 ) of the center or the further communication devices ( 82 ) is / are additionally connected to at least one further arrangement for transmitting radio signals. 11. The arrangement according to claim 10, characterized in that the two arrangements with different transmissions frequencies work. 12. Arrangement according to one of claims 1 to 11, characterized is characterized by its application in buildings or factories reverberate. 13. Arrangement according to one of claims 1 to 11, characterized is characterized by its application in ships. 14. Arrangement according to one of claims 1 to 11, characterized is characterized by its application in underground systems. 15. An arrangement according to claim 14, characterized by its Use in tunnels. 16. The arrangement according to claim 14, characterized by its Mining application.   17. The arrangement according to claim 14, characterized by its Use in caves. 18. Arrangement according to claim 14, characterized by its Use in underground storage. 19. Arrangement according to claim 14, characterized by its Use in underground command stands. 20. Arrangement according to claim 14, characterized by its Use in air protection devices. 21. Arrangement according to claim 15, characterized by its Use in underground traffic systems.