DE2703165A1 - Noise monitor for branched communication network - checks coincidence of incoming TDM signals against local sync. generator and rejects non-coincident ones - Google Patents

Abstract

A communication system with multiple access and a branching line network with twin lines has an exchange with a central device which monitors incoming lines for interference and switches out the lines generating noise. The exchange branching unit (20) comprises a monitoring unit (21) and controllable switches for each sub-network (23, 24). In order to operate in time-division-multiplex mode, a synchronisation generator (22) is also provided. The monitoring unit scans all incoming lines (25, 27) for interference and switches out with controllable switches (23, 24) noisy sub-networks. For this purpose, the monitoring unit includes a device which tests the coincidence of the incoming signal with the synch. generator and rejects as noisy non-coincident signals.

Description

Message system with multiple access and a tree ladder

network The present invention relates to a message system with Multiple access and a construction conductor network of double lines in opposite directions of transmission.

Von Schenkel was part of the "1974 International Zffrich-Seminar on Digital Communicaticnno tree ladder network with time division multiplex transmission technology described in which each double line of each network branch in a transmission line and a receive line with opposite transmission directions divided is and each subscriber station with the transmit and receive line of its network branch is connected, with the outgoing messages only on the transmission line sends out and receives the messages addressed to them only from the receiving line. In NTZ 27 (1974) No. 8, pages 283 to 291, Schenkel also described measures with which transmission disruptions can be eliminated. Such disturbances can occur in a station as well as in line interruptions and both with a centralized as well as with a decentralized control of the message flow appear. They can also affect the other stations in the communications network. Schenkel sees monitoring devices distributed in the communications network to solve this problem before.

The present invention is based on the object in communication systems with multiple access and a tree ladder network of double lines opposite Direction of transmission with centralized or decentralized control of the message flow to monitor occurring faults by a central facility and such to be eliminated, since as small a part of the network as possible fails in the event of a fault.

To solve this problem, the invention proposes that the tree ladder network divided into subnetworks originating from a branching device in a control center and that a central monitoring device is provided in the control center, which monitors all incoming lines for the occurrence of faults and Detection of a fault switches off the relevant subnetwork.

The division of the tree ladder network into subnetworks can be in such Way that each subnet includes such a number of stations that their simultaneous failure due to a fault can just be tolerated. the The invention can be applied to a network in which the individual stations Subscriber stations are like on a network in which the individual stations are the stations are at a different network level.

These are to be referred to here as concentrator stations.

When using the invention in a communication system with time division multiplex technology the synchronization generator required for this is preferably also located in the control center intended. The monitoring device then expediently comprises a device the coincidence of the time frames available on the incoming lines that checks the synchronization generator.

Can the fault affect a station or, for example, the internal line network a concentrator station can be a limitation of the shutdown be done on this station.

For this purpose, controllable changeover switches are provided in the stations allow the station to be bridged.

In the event that there is a cable break in the subnetwork under consideration is detected behind a station, a limitation of the shutdown can also take place. For this purpose, a synchronizing reflex device is in each of the stations Connection with a controllable switch provided. These switches enable es, the lines coming to the station and leading to the control center from the station and instead the line coming from the control center via the Synohroniserreflexeinrichtung to turn on.

If branches occur in the subnetworks, it is preferred for each line arriving at the branching device, one from the monitoring device Provided in the control center controllable switch through which the line concerned can be switched off by the branching device.

The from the monitoring device to the controllable changeover switches control signals to be routed in the stations or branching devices instead of being transmitted via separate control lines together with the useful signals are, then in the stations and / or branching devices evaluators are to be provided that take the control signals from the common transmission channel and to the individual controllable changeover switches.

If there is a disturbance in a tree ladder network from the central Monitoring device is determined, the affected subnetwork is first switched off by actuating appropriate switching devices in the control center. First after the fault has been eliminated, the sub-network is sent back to the branching facility turned on. At the same time, a further check of the switched-off subnet is required for the purpose of further localizing the fault. If this succeeds, the disturbed one becomes Station bridged. If the ladder is broken between two stations, the Proportion of the sub-network behind the station immediately before the interruption - turned off - apart from the control center. The remaining part of the subnet is switched on again.

In the following, embodiments of the invention are based on the Figures described.

Figure 1 shows a tree ladder network with a control center 1, of which four Sub-networks formed from double lines emanate. One of these subnets that the Stations 6, 7, 8, 9, 10, 11 and 12 failed, there is a branch with one Branch point 2.

Further stations 3, 4, 5, 13, 14, 15, 16, 17, 18, 19 are in the remaining subnets arranged.

As FIG. 2 shows, the control center has a branching device 20, a monitoring device 21 and controllable changeover switches 23, 24 for each the subnets. Since the system shown is a time division multiplex system working system, there is also a synchronization generator in the control center 22 provided.

The monitoring device 21 monitors all incoming lines 25, 27 to the occurrence of faults and switches through the controllable changeover switch 23, 24 the subnetworks affected by malfunctions. To this end, the monitoring device a device that the coincidence of the incoming lines 25, 27 checks the present time frame with that of the synchronizing generator 22 and if there is no Coincidence interprets this as a disturbance and carries out the shutdown mentioned.

FIG. 3 shows one of the stations shown in FIG. Here it can either be a subscriber station or a concentrator station Act. As Figure 3 shows, such a station 34 includes changeover switches 30, 31 and 32, furthermore a synchronizing reflex device 33 and an evaluator 35. 39 and 36 form the connecting terminals of the incoming and outgoing line to the control center. 37 and 38 the connection terminals of the outgoing and incoming line to the im Network next station. The evaluator 35 evaluates the incoming from the center 1 Line present signals on whether a control signal is sent from the control center Actuation of the switchers 30, 31 and 32 is sent out in normal operation all switches 30, 31, 32 are in the switching position shown. A malfunction occurs in the area of the station 34, for example in the internal line network of the station 34 forming concentrator, the switches 30 and 31 are toggled. the Station 34 is thereby switched off and bridged.

If a cable break occurs in the subnetwork behind station 34, which is connected to terminals 37 and 38, it is opposite to the one shown Switching position of the switch 32 switched. This is what happens with terminals 37 and 38 switched on sub-network switched off and the synchronizing reflex device 33 switched on. In the rest of the sub-network in front of the station 34, the operation be maintained.

The changeover can be carried out remotely from the control center as soon as a fault is detected and localized by a test program.

FIG. 4 shows the configuration of a branching device 40.

It in turn includes an evaluator 41, the incoming from the center Line 45, similar to the evaluator 35 in FIG. 3 on incoming Control signals monitored, and depending on this, the controllable changeover switch 42, 43, 44 controls, occurs in one of the connection points 47, 48, 49, 50 or 51, 52 connected branches a disturbance that is not caused by overbraking suppress a disturbed station or shutdown of a sub-branch according to FIG lets, so can be controlled by a control signal from the control center with the help of the Switch 42, 43, 44 the corresponding branch are switched off and the rest Subnetwork to be put back into operation.

If a malfunction occurs at a point in the tree ladder network, it is the monitoring device 21 shown in Figure 2 initially determines in which Subnet this fault has occurred and then switches the relevant subnet with the help of the controllable changeover switch 23, 24. Then the monitoring device further checked whether the error can be narrowed down further. For the purpose of this fault isolation and testing can also be done from the controllable switches in the stations and Branches are used which are switched for this purpose in such a way that that only the line piece to be tested, the station to be tested or the one to be tested Branch is connected to the monitoring device. A narrowing down succeeds a certain station, a line break in a subnet is detected or if the fault is in a branch of a branched subnetwork, then through Actuation of the Emsc'.alter 30, 3 ;, 32 or 42, 43, 44 the corresponding part of the The sub-network is switched off and the rest of the sub-network is now fault-free again the controllable changeover switches 23, 24 are put into operation again.

The system according to the invention is preferred for time division multiplex technology suitable, but can also be used for another multiplex method.

8 claims 4 figures

Claims (8)

Claims 1. Communication system with multiple access and a Tree ladder network of double lines opposite transmission direction, thereby it is noted that the tree ladder network in from a branching device in a central outgoing subnetwork is divided and that in the central one central monitoring device is provided, all incoming lines monitored for the occurrence of faults and, if a fault is detected, the relevant one Subnet switches off. 2. System according to claim 1, characterized in that g e k e n n z e i c h n e t a synchronization generator when using time division multiplex technology in the control center is provided. 3. System according to claim 2, characterized in that g e k e n n z e i c h -n e t, that the monitoring device comprises a device that the coincidence of the The time frame present on the incoming lines with that of the synchronization generator checks. 4. System according to one or more of claims 1 to 3, characterized It is noted that controllable changeover switches are provided in the stations that allow the stations to be bridged. 5. System according to one or more of claims 1 to 4, characterized It is noted that there is a synchronizing reflex device in each of the stations is provided in connection with a controllable changeover switch, which enables light, to disconnect the line coming to the station and leading to the control center from the station and instead the line coming from the central office via the synchronizing reflex device to turn on. 6. System according to one or more of claims 1 to 5, characterized it is not noted that when branches occur in the subnetworks for each line arriving at the branching device, one from the monitoring device in the control center controllable switch is provided through which the line concerned can be switched off by the branching device. 7. System according to one or more of claims 1 to 6, characterized it is noted that the control signals for controlling the controllable Changeover switches in the stations and / or branching devices together with the Useful signals are transmitted and that in the stations and / or branching devices Evaluators are provided which send the control signals to the common transmission channel and forward them to the individual controllable changeover switches. 8. System according to one or more of claims 1 to 7, characterized it is not noted that the monitoring device after detection In the event of a fault, a sub-network is switched off, the exact location of the fault is determined and with the help of the controllable switch in the stations of the branching devices disconnects the disturbed part of the subnet and then the rest of the subnet turns on again.