SU650239A1 - Multichannel duplex system for transmitting and receiving binary signals - Google Patents

Description

one

The invention relates to communications and can be used in multi-channel time division channel communication systems.

A known multichannel duplex system for transmitting and receiving binary signals contains channel and group transmission distributors on the transmitting side, to the phasing inputs of which the outputs of the corresponding clock signals are connected, and on the receiving side channel and group receiving distributors to whose control inputs are connected receiver outputs clock signals, the inputs of which are connected respectively to the phasing outputs of the channel and group receive distributors, as well as the clock regenerator Frequencies, the input and output of which are connected respectively with the information and clocking inputs of the receive channel distributor .1.

However, the known system has a low bandwidth, since in the group-wide signal entering the communication channel, in addition to the information bits of channel group signals and sync combinations, service signals are transmitted that carry information about the difference between channel and group distributors.

according to which the channel group signals are restored at the reception.

The aim of the invention is to increase the capacity of the system.

To do this, in a multichannel duplex system for transmitting and receiving binary signals, containing a channel and a transmission distributor on the transmitting side, to the phasing inputs of which the outputs of the corresponding clock signals are connected, and on the receiving side channel and group receiving distributors, to the control inputs of which connected to the outputs of the receiver sync signals, the inputs of which are connected respectively to the phasing outputs of the channel and group distribution valves, as well as a clock regenerator frequency, the input and output of which are connected respectively to the information and clock inputs of the channel receive distributor, on the transmitting side, serially connected clock signals and a phase compensator are inputted, the output of which is connected to the corresponding input of the group transfer distributor, the clock input of which is connected to the second input of the phase compensator, the third input which is connected to the input of the receiver of clock signals and through the communication line with the output of the channel distributor of transmission, on A control unit and a series-connected adder and an asynchronous binary signal input unit are input to the output side, the output of which is connected via a communication line to the input of the receive channel distributor, whose phase output through the control unit is connected to the control input of the corresponding clock receiver, and the clock distributor of the group distributor transmission is connected to the clock input of the asynchronous input unit of dual signals, the output of the corresponding clock receiver is connected the first input of the adder, and the group receiving the distributor output connected to the adder input, the clock regenerator output connected to the clock input of the distributor channel transmission.

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

A multichannel duplex system for transmitting and receiving binary signals contains channel 1 and group 2 transmit distributors on the transmitting side, to the phasing inputs of which the outputs of the corresponding sensors 3 and 4 sync signals are connected, and receive 6 distributors on the receive side, the control inputs of which are connected to the outputs of receivers 7 and 8 clock signals, the inputs of which are connected respectively to the phasing outputs of the channel 5 and group 6 valves, as well as the regenerator 9 clock clock The inputs and outputs of which are connected respectively to the information and clocking inputs of the channel distributor 5. On the transmitting side there are also serially connected receiver 10 clock signals and a phase compensator 11, the output of which is connected to the corresponding input of the ground distributor 2, the sync input of which is connected to the second input of the phase compensator 11, the third input of which is connected to the input of the receiver 10 and through the communication line 12 with the output of the channel distributor 1, on the receiving side - the control unit 13 and the series-connected adder 14 AND block 15 of asynchronous input of binary signals, the output of which through the communication line 16 is connected to the input of the channel distributor 5, the phasing OUTPUT of which through the control unit 13 is connected to the control input of the corresponding receiver 7, while the clock output of the group distributor 2 is connected to the synchronization input of the unit 15, the output of the corresponding receiver 8 is connected to the nerve input of the adder 14, and the output of the group distributor 6 is connected to the input of the adder 14, and the output is re generator 9 is connected to the clock input of the channel distributor 1.

The system works as follows. The channel distributor 1 converts and combines the binary signals from various sources, as well as sanatoriums from sensor 3. As a result, a binary signal of the channel group is formed with a time cycle depending on the number of sources and the type of sync pattern,

Above the communication line 12, the channel group signal is fed to the phase compensator 11,

intended to eliminate from the incoming signal of the channel group the sync combining phasing of loops, which is carried out with the help of receiver 10, n for matching the transformed

the signal with the cycle of the group distributor 2, which is produced with the help of the sensor 4 connected to the phase compensator AND, while the clock frequency coming from the channel distributor 1

the signal and clock frequency of the group distributor 2 transmissions are synchronized as follows.

The signal from the output of the group distributor 6, corresponding to the signal received from the phase compensator G1, is added to the adder 14 with synchronization from the receiver 8. The received signal having a certain cycle is overwritten by the asynchronous binary signal input unit 15 to the frequency of the group distributor 2. Consequently, the signal arriving after the communication line 16 to the channel distributor 5, has a clock frequency of the group distributor 2. This frequency is allocated by the regenerator 9 and it clocks both channel aspredelitel 5 and 1. As a result, the frequency of the signal supplied to the communication line 12 from the channel distributor 1 also

synchronous with the clock frequency of the ground distributor 2.

The signal converted to the frequency of the group distributor 2 is fed to one

from its inputs, to its other inputs signals from other sources of information. To organize a group cycle, one of the inputs of the group distributor 2 receives a clock signal from sensor 4.

At the receiving side, the group distributor 6, using the receiver 8, separates the signals into channel groups.

After the communication line 16, the regenerator 9 allocates the frequency at which the channel distributor 5 operates, which by means of the receiver 7 performs the separation and conversion of the source signals.