SU1054914A1 - Device for checking light-guide communication line - Google Patents

Abstract

A DEVICE FOR THE CONTROL OF LIGHTWATER TIES OF COMMUNICATIONS, containing at each intermediate point of LIVIA a generator of code combinations, the output of which is connected to one of the unit's Ibsods, the other input of which is connected to the output of the integrator, characterized in that control, at each intermediate point of the communication line, an error rate meter and a prohibition element in series and an OR element, whose output is connected to the input of the optical Transmitter, are monitored about the control of the communication line, while the input of the error ratio meter is connected to the control unit of the regenerator of the controlled direction of the line of communication, and the output is connected to the input of the integrator, another Evod of the OR element is connected to the output of the AND element, the signal input of the prohibition element is connected to the information (L the output of the mentioned regenerator, and the upstream input is with the output of the integrator.

Description

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The image refers to the ecgrsv can be used in communication systems with (i-code-code modm PCM) on cables with metal and ultra-fiber conductors.5

There is a link monitoring facility containing on the transmitter. station generator, pulse test. sequences connected via a switch to a modulator connected to the generator, pulses and one wire of the line, the other wire of which is connected to the indicator via a comparator connected to the generator on the controlled repeater J5

serially connected detector, bandpass filter and ij loop

A disadvantage of the known device is that an additional service path is used to determine the number 20 of the faulty regenerator and its working capacity, which greatly complicates the device.

The closest to the proposed by the technical drying is a device for controlling the light line, / containing at each intermediate point of the communication line a code generator, the output of which is connected to one of the inputs 9L1 of the I terminal, the other input of which is connected to the output of the integrator, the input of which It is connected through a filter with the information output of the regenerator of the controlled direction of the communication line 35, and the output of the element I through an additional optical transmitter-St.. Wed w / light distributor, installed in other Corner direction of the line sv - zi. Detection of a faulty ToreO torus in these devices will be accomplished by sequentially polling each regenerator from the terminal station in one of the transmission directions (the information signal is disconnected from path 45 at both end stations). By / response signal transmitted from the regenerator in the opposite direction to. requesting sgashsu.sua about correct

This regenerator; 2j. Short of 50 A known device is that if a fault occurs in only one direction of transmission (which is the most), both directions are subject to disconnection, which leads to useful information that could have been transmitted via a healthy transmission direction. This reduces accuracy.

control and increases the detection rate of a faulty link generator. )

The goal of the isophenenia is to increase the accuracy of control by comparing the time it takes to detect a faulty line regenerator.

The goal is achieved by the fact that a device for controlling a light guide line, containing at each intermediate point of the communication line a code combo generator, the output of which is connected to one of the codes of the I element, the other input of which is connected to the output of the integrator, at each intermediate point of the line connection, an error rate meter and series-connected prohibition element and an OR element, the output of which is connected to the input of the optical transmitter of the monitored direction of the communication line, are inserted; one meter of the error rate is connected to the control output of the regenerator of the controlled direction of the communication line, and the output is connected to the input of the integrator, another input of the element OR is connected to the output of the element AND, the signal input, of the prohibition element is connected to the information output of the specified regenerator, and .Selling input- with the integrator output.

The drawing shows a block diagram of a device for monitoring a light guide wire.

The device contains an error ratio meter 1, an integrator 2, a generator of 3 code combinations, an AND 4 element, a prohibition element 5 and an OR element, whose output is connected to the input of the optical transmitter 7 of the controlled direction of the communication line, and the error ratio 1 meter / n control output of the generator. 8, connected to the frequency selector 9 and the optical receiver 10 connected to the light guide 11.

The device works in the following way.

The occurrence of a malfunction in the regenerator or in the area preceding the regenerator is detected by the error rate meter 1, connected to the control output of the regenerator 8 (for example, by violation of the code properties in the information signal). Error pulses from meter 1 are sent to integrator 2. When the error ratio | ic is exceeded of a certain value (for example), a signal is generated at the output of integrator 2 that opens element I 4, to the second input of which is connected the output of generator 3 of code combinations. The prohibition element 5 is also emitted by the same signal by means of / signaling to its forbidden code. The direct vvsod of the prohibition element 5 receives an information signal from the output of the regenerator 8. As a result, the information signal is disconnected and connected to the line in the same direction of transmission through the AND 4 element, the OR 6 element and the optical transmitter 7 of the generator 3, the code combination of which carries information about the number of this intermediate point-. At the final station, the signal is decrypted and sent to the light display panel, on which B1 flashes the number of the regenerator's malfunction .; 10 144 Thus, in the event of a malfunction in any direction of transmission or with a significant deterioration in the quality of work in this direction, only the faulty direction, and the continuation of continuation, can be switched off. This reduces the loss of information. At the same time, the device operates in automatic mode, which allows to increase the efficiency with localization of faults on the line, and this is especially important for trunk lines. The absence of a fiber-optic splitter and an additional 1I1 transducer results in an improvement in the characteristics of the linear transmission path, namely, an increase in the allowable length of the regeneration section, an increase in reliability, and a decrease in the cost of the intermediate linear path equipment.

Claims (1)

54) DEVICE FOR CONTROL OF A FIBER LINE OF COMMUNICATION, containing at each intermediate point of the communication line a code combination generator, the output of which is connected to one of the inputs of the And element, the other input of which is connected to the output of the integrator, characterized in that, with a circuit for reducing information loss during monitoring , at each intermediate point of the communication line, an error coefficient meter and series-connected prohibition element and an OR element, the output of which is connected to the input of the optical 'transmitter of the controlled a communication line, while the input of the error coefficient meter is connected to the control output of the regenerator of the controlled direction of the communication line, and the output is connected to the input of the integrator, the other input of the OR element is connected to the output of the And element, the signal input ® of the inhibit element is connected to the information output of the said regenerator, · ζ and the inhibitory input - with the output of the integrator *. *