DE3203678A1 - Common-frequency radio network - Google Patents

Abstract

A common-frequency radio network with stationary and mobile radio stations (MS) and relay stations (R), the transmitters (Sf1) of which operate in common-frequency mode. In a region with a large area, radio traffic is to be made possible on a single common radio channel. For this purpose, the relay stations (R) of several adjacent radio networks have transmitters (Sf1) and receivers (Ef2) for a pair of frequencies (f1/f2) common to all radio networks and additionally in each case a simplex transceiver (Sf3, Ef3) suitable for common-frequency radio, via which radio signals received by means of the receiver (Ef2) are transferred to the adjacent radio networks. Delay sections (LAG) are connected into the connecting lines between the transceivers, in such a manner that the transmitters (Sf1) of all adjacent radio networks radiate synchronously. <IMAGE>

Description

Single-frequency radio network

The invention relates to a single-frequency radio network according to the preamble of claim 1 as it is, for. B. from DE-OS 26 45 901 is known.

From DE-OS 29 23 265 it is also known in a single-frequency radio network to provide the relay stations with an additional radio device via which the Relay points on a single frequency or a single frequency pair with each other and, if necessary, be in contact with a control center. The relay points exchange short data telegrams via the additional radio device via the respective Reception quality from mobile stations. The telegrams are among each other compared and. on the basis of the result, the relay station takes over with the best reception quality only the connection to the other relay points and to the control center.

Aus.der DE-OS 29 31 923 a single frequency radio network is known at which the connection from the relay stations to a control center is also on a single frequency takes place. The transmission power for this connection is in the relay points regulated as a function of the reception level originating from a mobile station. In the control center, the RF suppression effect results in a receiver selection the relay point with the highest level.

The well-known single-frequency radio networks are all only for a limited use Area coverage suitable.

The object of the invention is to create a single-frequency radio network. which allows single-frequency radio coverage of larger areas with little effort. The invention is described in claim 1. The subclaims include advantageous developments or developments of the invention.

The invention allows single-frequency radio coverage of an area the size of several conventional radio networks, roughly the area of an average large administrative district. The application is particularly in the area of the authorities and organizations with security tasks (BOS). where a unified call channel or a supra-local management channel is required.

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

FIG. 1 and FIG. 2 show two embodiments of relay points according to the invention.

FIG. 3 shows a section from a single-frequency radio network according to the invention.

The so-called "small" laisstelle according to FIG. 1 has a radio for a frequency pair kl / £ 2, which is common to the entire radio network, the extends over the area of several conventional single-frequency radio networks.

Mobile or fixed radio stations, e.g. B. control centers, send on the frequency 2.. The broadcasts are from all available relay points with the receiver Ef2 recorded, switched to the transmitter Sf1, and in the common wave radio emitted again. The transmitters Sfl are with a high-precision frequency standard FN stabilized. Since the radio receives and transmits at the same time, it is an antenna splitter W necessary. The relay station also contains an intercom with antenna relay, for a frequency f3. The signals recorded with the receiver Ef2 are also fed to the transmitter Sf3, radiated via the common antenna, and from all neighboring relay points with the receiver Ef3 added, provided that this is not also send with Sf3 Of course, the two radios can also be used separately Antennas instead of the one shown in FIG. 1 shown coupler to the common antenna be connected. Feedback within the radio network is due to the antenna relay excluded on the additional radio. The signals picked up by the receiver Ef3 are fed to the transmitter Sfl and synchronized with the directly receiving relay points sent out. Two more conditions must be met for this. 1. The transmitters Sf3 must also work in single-wave operation. You will preferably use the same frequency standard FN stabilized. 2. Between receiver Ef2 and transmitter Sfl a delay element LAG must be switched. This compensates for the following runtime: the running time in the transmitter Sf3, plus the running time in the receiver Ef3. plusf a mean for the HF runtime between two adjacent relay points.

The so-called "large" relay point according to FIG. 2 contains in addition to the already described radios yet another duplex walkie-talkie as a radio feeder from and to a control center. In a radio network with such "large" relay points all connections run through control centers. Those picked up by receivers Ef2 or Ef3 Signals are fed to the transmitter Sf4 and to the control center in the form of single-frequency radio transmitted. There is according to DE-OS 29 31 923 about the RF suppression effect a receiver selection is made and the signals are then transmitted on frequency 5 sent to all relay stations in the area of the control center in question. From the relay points is in turn emitted with the transmitter Sfl.

and - if the receiver Ef3 has not responded - with the sender Nf3 into the neighboring areas. The transmitter Sf4 is also with the frequency standard FN stabilized.

LAG term elements are the same as the various possible routes away. so that all transmitters Sfl transmit synchronously in the entire radio network.

The antennas of the feeder and / or the two-way radios Sf3 / Ef3 can optionally be designed as directional antennas.

According to a development of the invention are in the relay points Signal tone evaluator SA1 or SA2 provided via which the two-way radios Nf3 / Ef3 can only be switched on by audio signals or coded signals when required1 z. B. from a control center.

FIG. 3 shows a section from a single-frequency radio network according to the invention with relay stations R, control stations Legt and mobile radio stations MS.

A mobile station MS in the left area of the figure transmits on the Frequency £ One or more relay stations R receive this transmission with the receiver Ef2 and forward them via the transmitter Sf4 to your responsible control center Leit. This sends with Sf5 to all relay points in its area. There the shipment arrives via the receiver Ef5 to the transmitters Sfl and Sf3. It will be in the neighboring areas Received by the receivers Ef3, arrives via the feeder (on the frequencies f4 / f5) to the corresponding control centers and again intalle relay points of these Areas where it is broadcast synchronously via the transmitter Sfl. The broadcast can thus received by mobile stations MS in the entire radio network with a receiver Ef1 will.

The operating frequencies fl to f5 can be freely selected and if necessary also be switchable.

Claims (5)

Claims 1.Single-wave radio network with stationary and mobile Functions as well as relay points whose transmitters work in single-frequency mode, characterized by the following features: - the relay points (R) of several neighboring ones Radio networks have transmitters (Sf1) and receivers (Ef2) that are common to all radio networks Frequency pair f1 / f2 on; - The relay points (R) also each have one for single-frequency radio suitable two-way radio (Sf3, Ef3) via which with the receiver (Ef2) received radio signals are forwarded to the neighboring radio networks; - in the relay points (R) are in the connection lines = between the radio devices Delay elements CLAG) switches in such a way that the transmitters (Sf1) of all neighboring Broadcast radio networks synchronously. 2. single frequency radio network according to claim 1, characterized in that the relay points (R) another duplex radio device suitable for single-frequency radio (Sf4, Ef5) as radio feeder to control centers (control), and that all connections run through the control centers (Leit). 3. single frequency radio network according to one of claims 1 or 2, characterized characterized that the antennas of the further duplex radio devices (Sf4, Ef5) and / or the two-way radios (Sf3, Ef3) are directional antennas. 4. single frequency radio network according to one of the preceding claims, characterized characterized in that the relay points (R) have signal tone evaluators (SA1, SA2), via which the two-way radios (Sf3, Ef3) can be switched on or off. can be switched off. 5. single frequency radio network according to one of the preceding claims, characterized characterized that all transmitters (Sf1 'Sf3, Sf4) a relay point (R) with a common frequency standard (FN) are stabilized.