SU444339A1 - Conversion device for telegraph transmission apparatus - Google Patents

Description

one

The invention relates to telegraphy and can be applied on radio telegraph channels for transmitting information, each character of which is transmitted as a separate frequency.

Conversion devices for a telegraph transmitting apparatus are known, comprising a master oscillator, a synchronous DC motor, a photoelectric signal generator, a head that reads a perforated tape, an additional amplifier, 33 tuned circuits and a low-frequency modulator of the output signal for synchronization of the receiving apparatus.

However, the use of low-frequency modulation in known devices reduces the noise immunity of the transmitted signal, and the use of perforated tape requires the installation of each start-stop direct-printing machine with its converter of a five-digit code into a frequency one, which complicates the operation of the telegraph communication system.

The aim of the invention is to improve noise immunity.

To do this, a frequency divider, a control node and a switch are entered into the device, while the second output of the frequency generator is connected via a serially connected frequency divider, a control node and a switch to the frequency synchronizing signal.

to the input of the selection switch, to the combinatorial inputs of which the outputs of the third storage device are connected, to the inputs of the latter, through the first control node, 5 outputs of the second storage device are connected, to the inputs of which the outputs of the first storage device are connected via a second control node connected through diodes with the outputs of additional cells of the electronic start-stop distribution0 tel.

The drawing shows a block diagram of the device.

A conversion device for a telegraph transmitter apparatus comprises

5 electronic distributor 1, first drive 2, two additional cells 3 and 4 of distributor 1, two diodes 5 and 6, control unit 7, second drive 8, frequency switch 9, selection switch 10,

0 control unit 11, frequency divider 12, 34 frequency generator 13.

The device works as follows.

Signals from start-stop

direct printing apparatus and consisting of

5 of each transmitted sign (letter) of seven parcels - one starting, five code and one stop, - are fed to the input of the electronic start-stop distributor 1 and to the inputs of the cells of the first drive 2. Five code pockets are sequentially received

corresponding cells of accumulator 2 unlocked by combinatorial outputs of distributor 1. Starting package starts distributor 1, which after regeneration and distribution of five code packages to cells of storage device 2, out of two additional cells 3 and 4 during a stop package (via diodes B and 6) two consecutive narrow impulses per control unit 7 (with transformer outputs per cells of accumulators 2 and 8), which, having triggered from the first impulse, gives simultaneously all 2 cells of the accumulator 2 pulses to transfer the received signals Dow parcels from drive 2 to the second drive 8, as well as a pulse to the frequency switch 9 connected to the frequency-synchronizing input of the selection switch 10. The frequency switch 9 is used to switch two service audio frequencies (33rd and 34th) to the output of the selection switch 10 is required to maintain synchronous operation of the transmitting and receiving devices in the absence of load.

Frequency switch 9 is driven by narrow pulses with a 6.6 Hz following frequency coming to it through control node 11 (with transformer outputs on drive cells 8 and 14) and control node 7. These pulses are created by frequency divider 12, dividing one of the 34 sound frequencies produced by generator 13. When a load appears, switch 9 is put in an inoperative position by a pulse coming from the control unit 7, and the synchronization of the transmitting and receiving devices is maintained by the signals arising mi on the receiver when changing the frequency in accordance with the transmitted characters.

The parcels from the accumulator 8 are transferred to the third accumulator 14 by means of transfer pulses from the control unit 11, from the accumulator 14 the parcels are fed to the combinatorial inputs of the selection switch 10 powered by a 34 frequency generator 13.

If at the moment of arrival of the first pulse (from the cell 3 of the distributor 1) to the input of the control node 7, the transfer of the code messages of the previous character from the accumulator 8 to the drive 14 has not yet been completed, then the input of the control node 7 is blocked from the control node 11, but he certainly opens up

by the moment the second pulse arrives (from cell 4 of the distributor 1).

Thus, the accumulator 8 with the transfer control node 7 is the matching links between asynchronous links.

the reception of a five-digit code (carried out by the distributor 21 and accumulator 2) and a synchronous transmission by the 32 frequency code, implemented by the control unit 11, the accumulator 14 and the selection switch 10.

The subject of the image.

A conversion device for a telegraph transmitting apparatus, comprising

storage devices, electronic start-stop distributor, whose combinatorial outputs are connected to the inputs of the first storage device, a selection switch, to the control input of which one of the outputs is connected

Frequency generator, characterized in that, in order to increase noise immunity, a frequency divider, a control node and a switch are introduced into the device, the second frequency generator output through a serially connected frequency divider, a control node and a switch connected to the frequency-synchronizing input of the selection switch , to the combinatorial inputs of which the outputs of the third are connected

drive to the inputs of the latter through the first control node connected to the outputs of the second drive, the inputs of which are connected to the outputs of the first drive through the second control node connected via diodes to the outputs of the additional cells of the electronic start-stop valve.

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