SU1401499A1 - Signal transmission arrangement - Google Patents

Abstract

The invention relates to telemechanics and can be used to control dispersed -objects. The aim of the invention is to increase the reliability of signal transmission. To achieve this goal, diodes, resistors and a thyristor optocoupler are inserted into each signaling unit, as a result of which the sensor contacts are connected to the information line only at the moments of sensor polling, thereby separating signals in time and eliminating signal distortion . 1 il.

Description

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WITH

with

The invention relates to a telemechanic and can be used to control dispersed objects.

The purpose of the invention is to increase the reliability of signal transmission.

The drawing shows a diagram of the device.

The device for transmitting signals contains signaling units 1–3, thyristors 4–6, capacitors 7–9, diodes 10–21, resistors 22–21 first 28 and second 29 power lines, information link 30, lines 31–33 connection, output 34, sensor contacts 35-37, thyristor optocouplers 38-40, resistors 41-46.

The device works as follows.

The device is controlled by the first 28 and second 29 power lines, to which the dc clock voltage pulses are successively received over time, with the polarity of the voltage in the power lines changing in each successive clock pulse.

To memorize the on state of this signaling unit, a capacitor 7.8 or 9 of the next signaling unit is used, which during the pause between clock pulses maintains the current through the control electrode of the thyristor.

If there is a positive potential in the first power supply line 28 and the current in the control electrode circuit of the thyristor 4, the latter opens. The anode current of the thyristor 4 flows through the information line 32, the diode 17, the control electrode of the thyristor 5 and then through the diode 14 to the second power line 29, which at this time has a negative potential. In this case, the capacitor 8 is charged, and its thyristor 5 is prepared for switching on. When a positive potential appears in the second power line 29, this thyristor is turned on and prepares to turn on the thyristor 6 of unit 3. The anodism current of each thyristor is flowing through a series-connected in the forward direction emitting diode of an optocoupler 38, 39 or 40 diode 19, 20 or 21 and a resistor 41, 42, or 43. In this case, the emitting diode excites a photothyristor, which acquires conductive properties.

Thus, when switching the power line, the thyristor on state is shifted and current flows selectively through the circuits (contacts) of the sensor 35, 36 or 37 served by this block 1.2 or 3 signaling.

Lines 31,32 or 33 of communication between adjacent signaling units provide for the passage of the command for preparation of switching on the corresponding election cell, and information line 30 for transmitting signals from the monitored sensors to the receiving half (not shown).

Assume that at this time the thyristor 4 is turned on and thyristors 5 and 6 are disconnected. In the case of the closed contact state of sensor 35, the information line 30 is supplied with voltage and current from the output of the thyristor, indicating the corresponding indication of the sensor state, which can be further reflected in the control and display system. At the next time point, as a result of the switches, the thyristor 5 is turned on and the state of the sensor 36 is monitored, etc.

The proposed device has a higher reliability, since it does not distort the transmitted signals even with repeated damage to the electrical circuits of the sensors. Suppose that as a result of damage, point a was connected to the ground in the first block, point b in the second block, and point c in the third block. In this case, the signals are not distorted, since there is no mutual influence of the sensor circuits on each other. In the dark mode of the optocoupler pair, the sensor circuits are isolated from the information line, and in the light mode only one sensor is monitored at a given time instant.

Claims (1)

Invention Formula A device for transmitting signals containing signaling units, each of which has an thyristor anode of an odd signaling unit on the thyristor, is connected to the first power line, the thyristor anode of the even-numbered unit is connected to the second power line, parallel to the thyristor is connected u the diode of the polarity opposite the polarity of the thyristor, the cathode of the T1 sensor through the second diode is connected to the first contact of the sensor, the cathode of the third diode through the first resistor is connected to the control electrode of the thyristor, the connection point of the cathode of the third diode and the first resistor through the second resistor connected in series and the capacitor is connected to the thyristor cathode, the thyristor cathode of the previous alarm unit is connected to the anode of the third diode of the subsequent signaling unit, the anode of the third diode of the first signaling unit ii is a control input of the device, the cathode of the thyristor last alarm unit is vy9 A device and an information link, characterized in that, in order to reliably transmit signals, a fourth diode, a third and a fourth rubbed resistors and a thyristor optocoupler, a thyristor cathode are inserted into each signaling unit fourth diode, third resistor and The LED of the thyristor optocoupler is connected to the second power line in odd and in the first power line in even-numbered signaling units, the second sensor contact is connected to the information line, parallel to the control electrode and the photothyristor cathode, the fourth resistor is connected through the photo thyristor of the optocoupler.