RU2006954C1 - Signal detector - Google Patents

Abstract

FIELD: automatic control. SUBSTANCE: device has three-wire communication line, thyristor 5, selecting units 4₁-4_n, each having resistor 6, diode 7, resistor 8, capacitor 9, optocoupler 10. Detector operates as follows: supplying clock pulse over wires 1, 2 of communication line and passing current through third line 3 of communication line turns on thyristor and charges capacitor 9₁. Optocoupler 10₂ of second unit 4₂ is OFF since photodiode 10₁ is not excited. Upon arrival of next clock pulse over wires 1, 2, while circuit of gate electrode is de-energized, optocoupler 10₂ is driven in conduction and capacitor 9₂ charges. Length of clock pulse is selected to be sufficient for charging capacitor 9 of conducting unit 4 and discharging capacitor 9 of preceding unit 4 and length of space is comparable with OFF-time of optocouplers 10₁-10_n. EFFECT: improved reliability. 1 dwg

Description

 The invention relates to automation and telemechanics and can be used to control sequentially switched objects.

 A device for receiving signals containing a three-wire communication line and series-connected election nodes, each of which contains a thyristor, diode, resistors and capacitors [1].

 Low intrinsic safety is a disadvantage of this device.

 The closest in technical essence to the proposed one is a device for receiving signals, containing a three-wire communication line and series-connected election nodes, each of which contains a thyristor, diode, resistors and capacitors and a transistor [2].

 Low reliability is a disadvantage of this device (low reliability is caused by complexity, a large number of elements, devices).

 The aim of the invention is to increase functional reliability.

 The drawing shows a circuit diagram of the proposed device for receiving signals.

The device contains a three-wire communication line with wires 1-3, nodes 4 ₁ -4 _n election, thyristor 5, resistor 6, diode 7, resistor 8, capacitor 9 and optocoupler 10 with a photodiode and LED in the election site.

 A device for receiving signals operates as follows.

The device is controlled by wires 1 and 2, to which the advance clock pulses of constant voltage are supplied sequentially in time: "Plus" to wire 1, "Minus" to wire 2. In the initial state, thyristor 5 and all optocouplers 10 ₁ -10 _n are closed, and capacitors 9 ₁ -9 _{n are} discharged.

In the presence of a constant voltage pulse on wires 1 and 2 and a current in the control circuit of the thyristor 5, it opens. In this case, the capacitor 9 ₁ is charged through the diode 7 ₁ and the resistor 8 ₁ . During a pause between clock pulses, the thyristor 5 closes. The capacitor 9 _{1 is} discharged along the circuit: the upper capacitor plate according to the scheme 9 ₁ , the resistor 8 ₁ , the optocoupler photodiode 10 ₁ , the resistor 6 ₁ , the lower plate according to the capacitor circuit 9 ₁ . In this case, the LED of the optocoupler 10 ₁ is excited.

With the arrival of the next clock pulse, the optocoupler 10 _{2 of the} second election node 4 _{2 is} turned on and the charge of the capacitor 9 _{2 of the} second election node 4 ₂ starts. During a pause between clock pulses, the optocoupler 10 ₂ closes. With the arrival of the next clock pulse, the elements of the third node 4 ₃ elections are likewise switched, etc.

The duration of the clock pulse is selected sufficient to ensure the charge of the capacitor 9 of the included node of the election and discharge of the capacitor 9 of the previous node of the election, and the duration of the pause is comparable with the time off the optocouplers 10 ₁ -10 _n .

 The high reliability achieved by simplifying the circuit is the advantage and advantage of the proposed technical solution compared to the prototype. (56) Copyright certificate of the USSR N 1026150, cl. G 08 C 19/16, 1983.

 USSR author's certificate N 1260991, cl. G 08 C 19/16, 1985.

Claims (1)

 A device for receiving signals, containing the first, second and third communication lines and election nodes, each of which consists of a first resistor shunted in series by a diode, a second resistor and a capacitor, the first output of the first resistor is connected to the second wire of the communication line, a thyristor, the anode of which connected to the first wire of the communication line, the controlled electrode is connected to the third wire of the communication line, the cathode is connected to the second terminal of the first resistor of the first election node, characterized in that, in order to increase In terms of functional reliability, an optocoupler LED is connected to each election node parallel to the diode, a photodiode of each optocoupler is inserted into the subsequent election node, the anode of which is connected to the first wire of the communication line, the cathode is connected to the second terminal of the second resistor.

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