SU1580580A1 - Double-sided regenerator - Google Patents

Abstract

The invention relates to communication technology and can be used in the construction of two-wire paths of digital transmission systems. The purpose of the invention is to simplify the regenerator and reduce its energy consumption. The regenerator contains a receiver, a clock synchronization unit, a decision unit, a control unit, a transmitter, a delay unit, and three switches. The control unit contains a key, a frame alignment unit and a clock counter. 2 Il.

Description

The invention relates to communication technology and can be used in the construction of two-wire paths of digital transmission systems.

The aim of the invention is to simplify the regenerator and reduce its energy consumption.

FIG. 1 shows the structural electrical circuit of the regenerator j in FIG. 2 is a structural electrical circuit of the control unit.

The regenerator contains a receiver 1, a clock synchronization block 2, a decision block 3, a control block 4, a transmitter 5, a delay block 6, first, second and third switches 7-9. The control unit 4 comprises a key 10, a frame synchronization unit 11 and a clock counter 12.

Bilateral regenerator works as follows.

When transmitting in the forward direction (in Fig. 1 from left to right), all three switches 7-9 are in the position where the third and first terminals are connected, and the third and second terminals are disconnected. In this case, the signal passes the switch 7, the receiver 1 acts on the clock synchronization unit 2 and recovers its form in decision block 3. The unit 11 of the frame synchronization of the control unit 4 (Fig. 2) senses the synchronization sequence of the signal from the output of the unit (for the operation of the unit 11, the frame synchronization requires clock pulses, which are received from the output of unit 2). From the output of block 4, the control signal goes to the switches 7-9, confirming their position. In addition, the control signal opens the key 10 at the input of the counter 12 and the latter starts counting the clock pulses.

From the output of the decision block 3, through the switch 8, the signal goes to the transmitter 5 and then through the switch 9 to the output of the regenerator and then to the adjacent regenerator (or end point).

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After the end of the transmission in the forward direction at the output of the counter 12 of the control block A, a control is generated; A simple signal arriving at the switches 7 to 9 and the closing key 10 at the input of the counter 12. The control signal translates the switches 7 to 9 to the second position, wherein pins 3 and 2 of all switches are connected, and pins 3 and 1 are disconnected.

After this, the transmission starts in a fraternal direction. The signal of the reverse direction passes the switch 9, the receiver 1 and acts on the unit 2 clock synchronization. Next, the signal in decision block 3 recovers its shape and through switch 8, delay block 6, transmitter 5 and switch 7 is directed to the adjacent regenerator on the left (or end point). The delay unit 6 is necessary for the timing of the reverse signal with the pulses of the clock synchronization unit 2 of the neighboring regenerator (or end point).

Claims (1)

Claims. Bilateral regenerator, containing-. transmitter and serial connection five 0 5 The receiver, clock synchronization unit, decision unit and control unit, the output of the clock synchronization unit are connected to the second input of the control unit, and the receiver output is connected to the second input of the decision unit, and , in order to simplify the regenerator and reduce its power consumption, the first, second and third switches and the delay unit are introduced, the first output of the first switch is connected to the input of the receiver and to the first output of the third switch, the second output of which is connected to the output The switch, the third terminals of the first and third switches are the input-output and the output-input of the regenerator, the output of the control unit is connected to the control inputs of all switches, the first output of the second switch is connected to the input of the transmitter, its second output is connected to the input of the delay unit, the output of which is connected to the input of the transmitter, and the output of the decision block is connected to the third output of the second switch,