DE1256711B - Remote control and monitoring system for a communication network - Google Patents

Description

Remote control and monitoring system for a communications network The invention relates to a remote control and monitoring system for a communication network with a number of monitoring and a number of monitored stations.

In such a communication system it is already known to generate monitoring frequencies during the test periods and the respective Measure attenuation on the transmission path. From the measured values indirectly draw conclusions about the operating status of the intermediate stations. This indirect methods require considerable effort on the part of the evaluation. In addition, this method is not very suitable for branched networks.

For a remote control system, it is already known to have one for each measuring point assign a certain frequency. You therefore need one in such a network Number of frequency channels which is at least equal to the number of measuring points.

With a similar arrangement, it is known that each measuring point assigned frequency according to the operating status of the relevant measuring point to change. Here you need special operating channels that are also broadband must be. The object of the invention is to create a remote control and monitoring system of the type mentioned, which manages without special channels and frequencies and the normal ones Transmission channels used.

This object is achieved according to the invention that can be emitted from each at any station pulsewise keyed alternating voltage and thereby the timing of (z. B. t1, t2...) Of the pulses for the information on the location and type of monitoring (. B. temperature at station 2, oscillator frequency of station 5) and the frequency (e.g. f 1, f, = ... ) of the pulsed alternating voltages the information about the condition of the measuring point (e.g. OK - defective ) and at the same time from the entire pulse train of alternating voltage pulses with different frequencies a synchronization signal for the correct assignment of the times of occurrence (t1, t # ... ) of the pulses of a certain frequency to the location and type of monitoring is obtained.

The times of use are in each case during the monitoring periods the impulses of the various stations and monitoring variables according to a fixed Assigned to the program. The synchronization signal for the monitoring program derived in each station. The individual monitoring values are each within the assigned frequency intervals by frequency sampling transfer. You can, for example, the operating status of a generator or the Monitor ambient temperature. Since the individual stations have fixed time intervals are assigned within the monitoring program and since the synchronization of the system using the monitoring signals itself is submitted single transmission channel for the monitoring program. Even in terms of frequency Respect, the requirements are low. Thus, the system according to the invention can be used without restrictions in networks of any size.

Depending on the value levels of the monitoring variables to be transmitted and the code used can be read with two keying frequencies corresponding to a "step" - and "pause" signals work or with several frequencies.

The invention is explained in more detail with reference to the drawing; it shows F i g. 1 a communications network, FIG. 2 shows a block diagram of a transmitting station, FIG. 3 shows the waveform of a transmitted signal, FIG. 4. a block diagram of a receiving station and FIG. 5 shows an example of a code output signal. F i g. 1 shows a communication network with 6 stations 1 ... 6, each of which can be a monitoring station or an intermediate station. All stations are set up for code reception and code transmission. The stations are connected via radio paths or cables 7 ... 11. Within a monitoring program, for example, station 2 sends out a train of pulses at specified transmission times, which is received in all stations 1 and 3 ... 6. Such a train of impulses exists according to FIG. 3 from pulse groups 19, 20, 21, 22, 23 of different frequencies f1, f2, which represent the keying frequencies. According to FIG. 2, each station frequency generators f1 and f2, modulators 14 or 15 for these frequencies and an output line 18. In each case contains the location of the pulse groups 19 ... 23 determines the location and type of monitoring, f1 or f2 whereas the frequency of the pulse group in question the value of the the respective monitoring variable. Within the monitoring program, pulse times are assigned to each station according to a specified scheme.

These code signals are transmitted to and received by all stations via the transmission channels 7 ... 11. F i g. 4 shows a receiving part of each station, which contains detector circuits 26 and 27 for the frequencies F1 and F2 as well as AC / DC converters 28 and 29, to which an isolating circuit 30 for deriving a synchronization signal for the terminal 31 and for deriving the information signal for the Terminal 32 is connected. The synchronization signal consists of impulses to designate the start times of the various impulse groups.

F i g. FIG. 5 schematically shows the form of the synchronizing signal in FIG top line, which consists of signals to identify all pulse groups, as well as in the lower line the form of the message signal, for example made up of step signals a certain keying frequency.

The system according to the invention enables maintenance in a simple manner synchronization in all stations.

Claims (1)

Claim: Remote control and monitoring system for a communication network with a number of monitoring and a number of monitored stations, characterized by the fact that alternating voltages that are pulsed can be sent from each station to each station and that the occurrence in time (e.g. t1, t2 ... ) of the pulses the information about the location and type of monitoring (e.g. temperature at station 2, oscillator frequency from station 5) and the frequency (e.g. f1, f2 ...) of the pulsed alternating voltages the information about the condition of the measuring point (e.g. OK - defective) and at the same time from the entire pulse train of the alternating voltage pulses (19, 20, 21, 22, 23) with different frequencies a synchronization signal for the correct assignment of the times of occurrence (t1, t_ . ..) the impulses of a certain frequency for the location and type of monitoring is obtained. Considered publications: German Patent Specifications No. 1052 464, 10101l1, 954 520, 850 905.