SU617854A1 - Arrangement for remote monitoring of regenerators - Google Patents

Description

one

The invention relates to transmission systems with pulse code modulation (PCM) and can be used, in particular, in systems using optical communication lines.

A device for remote control of regenerators is known, comprising a multivibrator, a forward direction modulator and a transmission, a series-connected detector and a forward transmission direction amplifier, a reverse transmission modulator, and a serially connected detector and a reverse direction amplifier 1.

However, this device does not provide for the possibility of remote control of regenerators in the absence of a current-carrying live communication system between regenerators, through which the control information could be transmitted to the terminal station.

The aim of the invention is to provide the possibility of remote control of regenerators in the absence of conductive cable cores between them.

For this, a device for remote control of regenerators containing a multivibrator, a forward direction modulator, a series-connected detector and a forward amplifier

transmission direction, reverse transmission modulator and serially connected detector and reverse transmission amplifier; a service combination decoder and three AND elements are entered, the first inputs of the first and second service inputs And the decoder input of the service combination are connected to the output of the forward transmission direction amplifier, the output of the reverse transmission amplifier is connected to the first input of the third element I, the second input of which is combined with the second input of the first element I n through multivib A rator whose second output is connected to the second input of the second element I is connected to the output of the decoder of the service combination, the output of the first element I is connected to the input of the forward direction modulator, and the outputs of the second and third elements I are connected to the input of the reverse direction modulator.

The drawing shows a structural electrical circuit of the proposed device.

The device for remote control of the regenerators comprises a multivibrator 1, a direct transmission modulator 2, successively connected detector 3 to an amplifier 4 for direct transmission, a modulator 5 of the reverse direction of transmission, serially connected detector 6 and amplifier 7 of the reverse direction of transmission, a decoder 8 combinations and three elements AND 9-I, while the first inputs of the first and second elements AND 9 and 10 and the input of the decoder 8 are connected to the output of amplifier 4, the output of amplifier 7 is connected to the first input the third element And And, the second input of which is combined with the second input of the first element And 9 and through the multivibrator i, the second output of which is connected to the second input of the second element And 10, is connected to the output of the decoder 8, the output of the first element And 9 is connected to the input of the modulator 2, and the outputs of the second and third elements And 10 and 11 are connected to the input of the modulator 5.

The device works in the following way.

During operation in the mode of information transmission, signals at the input of the regenerator, pass w; and not in the forward direction, are detected in detector 3, amplified in amplifier 4 and converted into light signals in modulator 2. At the same time, the level of the signal arriving at AND 9 , corresponds to the level of logical units. Similarly, through the detector 6, the amplifier 7, the element 11 and the modulator 5 passes the signal in the opposite direction.

When working in the control mode, the transmission of information signals nreckras, ggs. Instead of the information signal, a pilot signal is iodized, in the reception of which the decoder 8 is triggered, the output of which produces a pulse, the triggering multivibrator 1. The pulse duration produced by the multivibrator 1 is determined by the parameters of the multivibrator 1. It is selected depending on the monitored reliability . The signal taken from one of the outputs of the multivibrator 1, prohibits the passage of the signal from the outputs of amplifiers 4 and 7 to the corresponding modulators 2 and 5. The signal taken from the second output of the multivibrator 1 gives permission to pass

signals from the output of amplifier 4 through element 10 of modulator 5. Thereby, a loop is formed which is closed by the control circuits of the regenerator.

The proposed device provides the ability to remotely control the operation of regenerators by measuring the reliability of transmission at the output of individual regenerators in cases when there is no possibility to transmit control signals but separate conductors between regenerators.

Form m} l a and 3 o b ete n i

A device for remote control of regenerators, comprising a multivibrator, a forward direction modulator, a serially connected detector and a forward directional transmission amplifier, a reverse transmission modulator, and a serially connected detector and a reverse transmission amplifier, characterized in that remote control of regenerators in the absence of conductive cable cores between them, the decoder of the service combination and three And, the first inputs of the first n of the second elements I and the decoder input of the service combination are connected to the output of the forward direction amplifier; the output of the reverse transmission amplifier is connected to the first input of the third element And, the second input of which is combined with the second input of the first element And through a multivibrator, the second output of which is connected to the second input of the second element I, is connected to the output of the decoder of the service combination, the output of the first element I is connected to the input of the modulator in the forward direction transmitting, and the outputs of the second and third And elements are connected to the input of the reverse transmission modulator.

Sources of information taken into account during the examination 1. USSR Author's Certificate No. 559411, cl. H 04J 3/14, 1975.