SU269997A1 - DEVICE FOR MONITORING THE CONDITION AND CONDITION OF TELEPHONE CHANNELS - Google Patents

Description

The invention relates to telecommunications technology and can be used in communication nodes of automated control systems for monitoring the state of standard telephone channels occupied by voice and digital information signals, as well as for switching these channels in order to provide the preferred source of information channel when damage main.

Devices for signaling and switching channels are known that are designed to serve several independent directions of communication, each of which consists of one main and one backup.

The known devices have disadvantages due to which they are not widely used, namely: control of the channel’s quality characteristics — residual attenuation, duration of short-term nepebiBOB communication, and noise level — is not ensured; when the data transmission service is used over one channel, it is not possible to use another channel of the same direction for transmitting information signals of a secondary importance; the possibility of monitoring the main channel and operation of the equipment on the backup channel is not guaranteed; There is no possibility to control the channels involved in signaling, voice and digital

information; the possibility of automatically turning on pilot signals into monitored channels is not provided. The purpose of the invention is to eliminate

these disadvantages, increasing operational and reliability, efficiency and use of communication channels in automated control systems, as well as expanding the field of application of equipment for

control

The goal is achieved by a combination of the following technical solutions. Consistently in value of the transmission and reception of the main and backup channels, the game filters are included.

Parallel to the main and backup channel receive circuits, band-pass filters are connected. In the master stage of the signal frequency generator, the frequency modulator is turned on. Successively in the signal frequency receiving circuit from the main and backup channels, a variable extension is switched on at the filter output. Parallel to the main and backup channel reception circuit, a noise level control device in the channel is connected to the output of the silencing filter; it consists of a tonal range amplifier, a rectifier circuit and a threshold device. In the receiver of the signal frequency at the output of the rectifier circuit, one after another, and parallel to the frequency discriminator. A time relay is introduced into the switching unit, the contacts of which are included in a section of the signal frequency transmission circuit and information signals of an unprivileged source in the channel occupied by this source. A relay is inserted into the switching unit, the contacts of which are included in the section on the transmission of information signals from a preferred source to a channel occupied by this source, and a removable jumper is connected in parallel with these contacts. A relay is inserted into the switching unit, the contacts of which are included in the cut of signal transmission to the drop, occupied by the transmission of information from the privileged source, and removable jumpers are connected in parallel with these contacts. The combination of these technical solutions is the essence of the invention. FIG. 1 is a block diagram of the control equipment for one direction of communication; pas figs. 2 is a block diagram of a sigal frequency receiver; pas figs. 3 - a skeleton diagram for transmitting information signals and a signal frequency over the main and backup channels. Control equipment (see Fig. 1) works as follows. The equipment is included in the section of the four wired paths of the main and backup channel 30: the transmitting parts of the livery source of information and transmission are connected to the station outputs / and 2, respectively, the receiving ones to outputs 3 and 4, and the transmission paths of the main and backup channels are connected to the linear the outputs 5 and 6, the reception paths of the main i backup channel to the inputs 7 and 8, respectively. Consistently in the value of iriem and transmission of information sources, the fencing filters are included 9. Parallel reception of information sources from the station outputs 3 and 4 include the noise level control units 10. Parallel to the price of receiving the main and backup drip. 45, on the side of the 7nS line outputs, includes a signal frequency receiving circuit, each of which consists of a series-connected band-pass filter 11, a variable extension cable 12, and a signal frequency iriemia 13. In parallel, the information transfer nostchikov circuits connect the signal frequency transmission circuits consisting of a signal frequency generator 14 and a signal frequency power splitter 15, the output 16 of the latter being connected to the preferred source transmission circuit, and the information output 17 signaling the switching channel 18. The control device, located in the receiving part of the source of privileged information, is connected to block 18 by control circuit 19, through which block 18 receives a channel alarm signal occupied by the source of privileged information. 5 10 15 20 50 55 60. The receiver 13 is connected to block 18 by a circuit 20, through which block 18 receives a channel alarm signal, which is supplied by a source of privileges. Another terminal 13, occupied by an unprivileged source of information, is connected to block 18 of control circuits 21, 22 and 23: an alarm signal was dropped through circuit 21, an alarm signal was received, at a price of 22, the receiver 13 received the prohibition of switching on the signal frequency to the channel, circuit 23 The receiver 13 receives a switch-on signal at the drop-in frequency, occupied by a source of unsolicited information. Block 10, which controls the noise level in the channel, and is the source of preferred information, is connected to block 18 at the cost of signaling 24, through which block 18 receives a signal exceeding the noise level of the norm. A similar signal from the block W, which controls the drops, provided by the source of unprivileged information, enters block 18 via the signaling circuit 25, block 18 outputs the following signals to the external display system: via the circuits 26 and 27, the primary and backup channels, respectively; but value 28 is a turn-on signal for an activated source of IIP and a redundant channel; but chains 29 and 30-- sigals of overestimation of the noise level mainly on the backup channels, respectively; on chains 31 and 32 - sigpaly busy transfer information of the main and backup channels. The signal frequency terminal consists of the following elements connected in series (see Fig. 2): amplifier 33, rectifying circuit 34, threshold device 35 and time relay 36. When the signal frequency level is lower than the threshold, the threshold device issues a crash signal to the time relay , and if the latter lasts longer than the pervasive norm, the time relay issues a switching signal to the switching unit at price 20 (21). If the time relay input signal prohibits the signal from being turned on via circuit 22, then the time relay issues a signal to the switching unit at a value of 21, regardless of the signal level at the receiver input. If, in the time relay of the receiver, the signal from the switching unit of terminal 23 is turned on, then the time relay stops generating a channel alarm at a value of 21 regardless of the signal level at the input of the receiver. Depending on the method of monitoring a channel occupied by a source of information and privileged information, the equipment monitoring the terminal stations is simultaneously included in one of three main modes of operation: mode I — autonomous control; mode II - external control, mode III - combined control. Depending on the method of switching the control signals into the channels, the control equipment of the terminal stations is included in one independent connection; Mode B - receipt mode. Moreover, if the control equipment of a single station is included in mode A, then the corresponding station station will always go into mode B. In mode A, the control signals are included in the transmission path of each channel and are dependent on the state of the reception path of the same channel. The order of switching on the control signals is 3 channels for all the main modes one and the same: first in the A-B channel, occupied-6 with a source of privileged information, then response inclusion in the B-A path of this channel, and only after that in the AI path - The channel occupied by the station and the terminal: -informed and then responding to the channel B-A of the same channel. The transmission of information signals of a moderated A and B source source is carried out along the circuit (see fng. 3): from station input 1, through the fencing filter 9, jumper 37-38, 39-40, then through the contacts 41 to linear output 5 or 6 (in the main or backup channel transmission circuit). Transmission of information signals of an unprivileged source in mode A and B i-ozodizdits along the circuit (see Fig. 3): from station 2 of run 2, through filter 9, relay contacts 4 /, contacts 42 to linear output 6 or 5. Signal frequency in mode A and B is fed to the channel transfer graph, which is occupied by the source of 1prvvilelirovaya information on the zerp (see Fig. 3): from the output 17 through the code 43 in parallel to the transmission circuit of the information signal. The subject of the invention A device for monitoring the state of switching telephone channels, comprising a signal frequency generator, a signal frequency power splitter, signal frequency receivers, filters, and a 1C.SHIOR and backup channel commutation unit, characterized in that, in order to increase operational reliability, parallel to Receiving information from each information source includes a device for monitoring the noise level and the receiving frequency of the signal frequency, consisting of a detector, a threshold element and a time relay, and The frequency selector is connected allelely to the detector circuit, and the frequency modulator is turned on in the driver cascade of the signal frequency generator, and a switch is inserted into the switching unit, the contacts of which are included in the cut of the information transmission circuit of the preferred source, and the contacts are connected To the chain of transmission of the signal frequency to the channel occupied by the privileged source, the time relay is connected parallel to the indicated contacts, the contacts of which are connected to the open circuit of the circuit. Information of non-lirivyirovy source and sigial frequency.

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