SU1385314A1 - Device for transmitting telegraph signals - Google Patents

Abstract

The invention relates to telecommunications and improves the reliability of transmission by monitoring current parcels. The device contains the source of information I, control unit 2, load unit 3, short-circuit protection resistor 4, key block 5, current-limiting resistors (TOR) 6-9, power supply 10. Diode II, optroin amplifier 12, TOR 13, voltage limiter 14 (OH), optocoupler (O) 15 are introduced. The optimum value is three. The decision to control the communication channel when the current changes more than 13 times (from 6 to 80 mA) is to introduce an OH 14 consisting of transistors 24-26 (the latter is used in a diode mode). TOR 13 is connected in series with the O 15 LED, which, together with OHG14, allows setting a stable value of the current through the O 15 LED. When the current in the communication channel decreases below the preset limit at the output of amplifier 12, the signal is not. service. If the current increases above the set limit, a fault signal appears at the output of amplifier 12 and at the additional terminal of resistor 4. A malfunction signal at a decrease in current is usually perceived by the equipment in the middle of a current parcel or in the mode "Stop." This is important for unipolar operation of the telegraph relay. 1 il. and sl

Description

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The invention relates to telecommunications and can be used in electronic telegraph devices and data transmission equipment.

The purpose of the invention is to increase the reliability of the transmission by monitoring current parcels.

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

The device for transmitting telegraph signals contains information source 1, control unit 2, load unit 3, short circuit protection resistor 4, key block 5, first, second third and fourth current-limiting resistors 6–9, respectively, power supply 10, diode II, optocoupler amplifier 12, fifth current limiting resistor 13, limiter 14 for example P1, optocoupler 15. The control unit contains the first 16 and second 17 ontrons.

The key block contains the first, second, third, and fourth transistors 18-21, respectively, the first 22 and second 23 diodes. The direction limiter contains the first, second and third transistors 24-26, respectively.

The device works as follows.

Telegraph start-stop parcels come from the source. 1 information on the optocouples 16 and 17 of the input control unit 2. In them, they are converted into the form necessary for switching the transistors 20 and 21 of the key block 5. Thus, for example, under the action of the pulses shown at the outputs of the optocouplers 16 and 17, the transistors 21 and 18 of the key unit 5 are opened, and the transistors 20 and 19 are closed. In this case, the current of the linear battery closes through the resistor 4 is short-circuited, the diode 11, the LED of the optocoupler 15, the resistor 13, the transistors 24-26 of the voltage limiter 14, the collector-emitter transitions of the transistors 21 and 18, the key block diode 23 5 and a load unit 3 connected to the output of the communication line. When the signal levels at the outputs of the optocouplers 16 and 17 are opposite, the specified current flows through the communication line and b, lrk 3 loads in the opposite direction due to unlocking the transistors 20 and 19 of the diode 22 n and locking the transistors 21 and 18 of the diode 23. At the same time, the base current The transistors 18 and 19 are determined by resistors 6 and 7, and the power supply to the optrons 16 and 17 is via resistors 8 and 9.

When the signal levels at the outputs of the optocouplers 16 and 17 of the control unit 2 change, only the current reversal in the load unit 3 occurs. Under actual operating conditions, the current varies widely. From below, this value can be close to zero, and from above it is limited by the short-circuit protection resistor 4. However, such

wide range of current can not be controlled. First of all, if through the LED of the optocoupler 15, the flow of the maximum possible current close to the threshold is allowed, then for comparatively long communication channels (significantly increased ohmic resistances), a disconnection of the communication channel is shown. This is due to the fact that at reduced currents the LED of the optocoupler 15 is closed. If the current value is set via the ontron LED 15 at the boundary of its lower radiation threshold (illumination), then at currents close to the operation threshold, the LED of the optocoupler 15 immediately goes off (lit). Therefore, the most optimal technical solution that allows monitoring the communication channel when the current therein changes by more than 13 times (from 6 to 80 ML) is the introduction of a voltage limiter 14. It consists of transistors 24-26. (the last of the transistors is used in a diode mode). A resistor 13 is connected in series with the LED of the optocoupler 15, which, together with a voltage limiter, allows a stable current value to be set through the LED of the optocoupler 15.

When the current in the communication channel decreases below the preset limit, the output of the optocoupler amplifier 12 causes a fault signal of this communication channel. In the event of an increase in the current above the set limit at the output of optocoupler 12 and with the additional output of the short-circuit protection resistor 4, a fault signal appears. A fault signal of the communication channel when the current decreases through it is usually perceived by the equipment in the middle of the current parcel or in the "Stop. This is especially important for the unipolar operation of the telegraph relay, i.e. when one of the bases of the transistors 20 and 21 is shorted with their emitters.

Claims (1)

Invention Formula A device for transmitting telegraph signals containing an information source, the first and second outputs of which are connected respectively to the first and second inputs of the control unit, the first, second and third outputs of which are connected respectively to the first, second, and third inputs of the key block, the fourth and fifth inputs which are connected to the first terminals of the first and second current-limiting resistors, respectively, the second terminals of which are connected to the first terminals of the third and fourth current-limiting resistors and The output pin of the resistor is short-circuited, the second pin of which is connected to the positive terminal of the power source, the negative pin of which is connected to the third input of the key block, the first and second outputs of which are connected to the inputs of the load block, the fourth and fifth outputs of the control unit are connected to second pins of the third and fourth current-limiting resistors, respectively; the key block contains four transistors and the first and second diodes, the anodes of which are connected to the emitters, respectively; the first and second transistors, the collectors of which are combined, the cathode of the first diode is connected to the base of the first transistor and to the collector of the third transistor, the emitter of which is connected to the emitter of the fourth transistor, whose collector is connected to the cathode of the second diode and to the base of the second transistor, the base of the third transistor, the base of the fourth transistor, the emitter of the third transistor, the base of the first transistor and the base of the second trans0 The resistors are respectively the first, second, third, fourth and fifth inputs of the key block, the first, second and third outputs of which are emitters of the first and second transistors and the collector of the second transistor, respectively, characterized in that, in order to increase the reliability of transmission by controlling current parcels, a diode, a fifth, current limiting resistor, an optocoupler, an optocoupler amplifier, and a voltage suppressor, the first output of which is connected to the first output of the first current limiting resistor and to the anode The diode, whose capacitor is connected to the anode of the LED of the optocoupler and to the input of the voltage limiter, the second output of which is connected to the third output of the key block and to the first output of the fifth limiting resistor, the second output of which is connected to the 0 cathode of the LED of the optocoupler, photodiode which is connected to an optocoupler amplifier. five