SU1150741A1 - Generator of twin pulses - Google Patents

Abstract

A FORMATOR OF BOILED-OUT PULSES containing a control closing contact connected by one output to a positive power source, a polarized relay, the first winding output of which is connected to the anode and cathode of the first and second diodes, the cathode and anode of which are respectively connected via the first and second variable resistors to the the second terminal of the winding of the polarized relay and through time the driving capacitor - with the negative terminal of the power supply and with the cathode of the thyristor, the control electrode of which is connected to The output terminal of the first resistor and the parallel connected second resistor and the closing contact of the polarized relay are connected to the thyristor cathode, characterized in that, in order to increase speed, a transistor, an additional resistor, a diode and a capacitor are inserted into it, and the positive power supply bus is connected to the collector of the transistor and through an additional resistor - with the base of the transistor, the cathode of the additional diode and the anode of the thyristor; the emitter of the transistor is connected to the first terminal of the winding polarized About the relay and additional anode (O 9 diode, the control electrode of the thyristor is connected via an additional capacitor to the second terminal of the first resistor and to another terminal of the control closing contact. / / E CL II about 4;

Description

The invention relates to a pulse technique, is intended to convert an input pulse into a pair of output pulses, and can be used in automation systems to control a register of a dial pad. A paired pulse driver is known, which contains a switch and a relay, the winding of which is connected by one output through time, which sets the capacitor to the negative pole of the power source, and the other output, via the closing contacts of the switch, to the positive pole of the power source and to the negative pole of the source pitak 1. The disadvantage of the known driver is that the closing time of the closing contact of the switch must be not less than the time required to charge the capacitor to a voltage sufficient to operate the relay. Otherwise, there is a malfunction in the shaper, since after the end of the pulse at the first shaper output, a pulse does not appear at its second output due to the fact that the discharge current of the capacitor does not reach a value sufficient to reactivate the relay. Another disadvantage of the known former is the dependence of the duration of the second pulse on the duration of the closed state of the closing contact of the switch. The closest to the proposed technical entity is a paired pulse shaper containing a control closing contact connected by one output to a positive power supply source, a polarized relay, the first one, the winding terminal of which is connected to the anode and cathode of the first and second diodes, cathode and anode which, respectively, through the first and second variable resistors are connected to the second output of the polarized relay, and through time the driving capacitor is connected to the negative output of the power source, a resistor whose cathode is connected to a negative power supply source, the control electrode of the thyristor is connected to the first terminal of the first resistor and through a parallel connected second resistor and the closing contact of the polarized relay is connected to the cathode of the thyristor, another terminal of the control closing contact is connected to the first winding terminal relay 2. The disadvantage of this driver is that the second pulse cannot be generated before the end of the input pulse, which reduces speed shaper. The aim of the invention is to increase the speed of the coupler pulse former. The goal is achieved by the fact that, in a paired pulse shaper containing a control closing contact connected with one output to a positive power supply bus, a polarized relay, the first winding output of which is connected to the anode and cathode of the first and second diodes, the cathode and anode of which are respectively the first and second variable resistors are connected to the second output of the winding of a polarized relay, and after a time the driving capacitor is connected to the negative output of the power source and to the thyristor cathode, The leading electrode of which is connected to the first terminal of the first resistor and through a parallel connected second resistor and the closing contact of the polarized relay is connected to the thyristor cathode, a transistor, an additional resistor, a diode and a capacitor are inserted, the positive source of the power source being connected to the collector of the transistor and through an additional the resistor - with the base of the transistor, the cathode of the additional diode and the anode of the thyristor; the emitter of the transistor is connected to the first terminal of the winding of the polarized relay and anode will complement ceiling elements diode, a control electrode of the thyristor via a further capacitor is connected to a second terminal of the first resistor and the other terminal of the control switching contact. FIG. 1 shows a circuit diagram of a generator of paired pulses; in fig. 2 - time diagrams of his work. The shaper contains a control closing contact 1 connected by one output to the positive bus of power supply 2 and a polarized relay 3, one winding terminal of which through time the driving capacitor 4 is connected to the negative bus of power supply 2 connected to the cathode of the thyristor 5, the control electrode of which shunted by the closing contact 6 of the relay 3, the transistor 7, the collector of which is connected to the positive terminal of the power supply 2, and the emitter to another output of the relay 3 winding and the anode of the additional diode 8, the cathode The latter is connected to the anode of the thyristor 5, the control electrode of which is connected through an additional capacitor 9 and the first resistor 10 connected in parallel with another output of the control closing contact 1, and the base of the transistor 7 connected through an additional resistor 11 with a positive power source 2. The outputs of the imaging device are the closing contacts 12 and 13 of relay 3. The adjustment of the duration of the output pulses is carried out by correction circuits consisting of diodes 14 and 15 and variable resistors 16 and 17. Setting the operation mode of the thyristor 5 is carried out using a second resistor 18. In FIG. Figure 2 shows the time diagrams of the operation of a paired pulse former. Position 19 represents the closure of the control closing contact 1 for a time shorter than the duration of the first pulse (position 20). Position 22 depicts the closure of the control closing contact 1 for a time longer than the first pulse (position 23). Positions 21 and 24 denote the second pulse. Shaper paired pulses works as follows. In the initial state, the control closing contact 1 is open, contacts b, 12, 13, relay 3 are open, the time specifying the capacitor 4 is charged before the voltage of the power source 2 due to opening at the moment the power of the transistor 7 is turned on; winding relay 3 is de-energized. When the control closing contact 1 is closed, the charging current of the capacitor 9 flows through the control electrode of the thyristor 5, as a result of which the thyristor 5 opens and the discharge time of the driving capacitor 4 begins: the positive side of the driving capacitor 4, the winding of the relay 3, the open thyristor 5, the negative plate is the time of the setting capacitor 4. As a result of the flow of the discharge current of the capacitor 4, the relay 3 is activated and its output contact 12 is closed, which corresponds to the formation of the first pulse in a series of two pulses. As a result of opening the thyristor 5, the transistor 7 closes due to the connection of the base of the transistor 7 to the negative pole of the power supply 2 through the low resistance of the open thyristor 5. The open state of the thyristor 5 remains until the discharge current time of the driving capacitor 4 becomes smaller the value of the thyristor disconnecting current 5. After closing the thyristor 5, the transistor 7 is opened due to the flow of part of the charging current, the time of the driving capacitor 4 through the additional resistor 11 and emitter junction of transistor 7. As a result of the flow of charge current, the time of the driving capacitor 4 triggers relay 3 and its contacts 6 and 13 are closed, which corresponds to the formation of the second pulse in a series of two pulses. The magnitude of the current flowing through the resistor 11 in the open state of the thyristor 5 should not exceed the value of the tripping current of the thyristor 5, as the sum of the discharge current through the time of the driving capacitor 4 and the current flowing through the additional resistor 11 flows through it. yes additional capacitor 9 with open control contact 1, i.e. to prepare the driver for subsequent launch. The magnitude of the current flowing through the resistor 10 should not exceed the magnitude of the switching current of the thyristor 5. The closing contact 6 of relay 3 serves to prevent the thyristor 5 from opening by the control contact 1 during the formation of the second pulse in a series of two pulses. Thus, an increase in the speed of the paired pulse generator occurs, since its operation does not depend on the duration of the input pulse, and the second pulse in a series of two pulses is formed immediately after the end of the first pulse. The presence in the driver of a transistor whose collector is connected to the positive power supply bus, and the emitter to another output of the relay coil and the anode of the diode, the cathode of which is connected to the thyristor anode, the control electrode of which is connected through a parallel capacitor and the first resistor the closing contact, and the base of the transistor, connected through the second resistor to the positive pole of the power source, ensures the formation of the second pulse in a series of two pulses directly After the end of the first pulse, and regardless of the moment of the end of the input pulse, as a result, the time taken to use the common buffer register of remote control dialers of control consoles is reduced and there is no need to install additional registers of remote control dialers of control consoles when they operate on a common communication channel of control consoles with peripheral automation system equipment in order to increase its throughput.

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Claims (1)

COUPLED PULSE SHAPER, comprising a control closing contact connected to the positive bus of the power source by one terminal, a polarized relay, the first winding of which is connected to the anode and cathode of the first and second diodes, whose cathode and anode are connected through the first and second variable resistors to the second terminal windings of a polarized relay and through a timing capacitor with a negative output of the power source and with the cathode of the thyristor, the control electrode of which is connected to the first the output of the first resistor and through the parallel connected second resistor and the make contact of the polarized relay is connected to the cathode of the thyristor, characterized in that, in order to improve performance, a transistor, additional resistor, diode and capacitor are introduced into it, and the positive bus of the power source is connected to the collector of the transistor and through an additional resistor - with the base of the transistor, the cathode of the additional diode and the anode of the thyristor, the emitter of the transistor is connected to the first output of the polarized relay winding and by the node of the additional diode, the thyristor control electrode is connected via an additional capacitor to the second terminal of the first resistor and to the other terminal of the control closing contact. Figure 1 741