SU741418A1 - Pulse generator - Google Patents

Description

(54) PULSE GENERATOR The invention relates to a pulse technique and can be used in an automatic coatrol system. A pulse generator is known that contains a pulse and auxiliary relay connected in series with each other and connected to a power source via series-connected control switch and opening contacts of an auxiliary relay, the winding of which is shunted by time by the driving capacitor. Two adjustment resistors are introduced into the generator, one of which is connected to the power supply circuit between the executive and auxiliary relays, and the other is connected through the opening contacts of the executive relay to the winding of the auxiliary relay ytj. In this generator, it is not possible to adjust the pause time and the pulse duration over wide limits, since an increase in the resistance of the regulator; a supply voltage between the actuator and the auxiliary relay leads to an inoperative executive relay, and an increase in the resistance of the regulator, resist paralynally winding of the auxiliary relay becomes ineffective. A pulse generator is known that contains two relays, the windings of each of which are bridged by a capacitor-and connected to a power source, the winding of the first relay being connected to the power source through a chain of resistors connected in series and the normally closed contact of the second relay, and the winding of the second relay connected to the power source through series-connected another resistor and normally open contact of the first relay. Resistors in the power supply of the winding of the first and second relays are shunted by additional normally open contacts of the first and second relays, respectively 2. In this generator, it is also not possible to adjust the pulse pause time over wide limits, since an increase in the resistance of the resistors leads to a failure of the relay, and the adjustment of the pulse time, by changing the capacitance of the capacitors, simultaneously leads to a change in the pause time.

Of the known pulse generators, the closest in technical essence is a pulse generator containing an electromagnetic relay, two capacitors, the first terminals of which are connected to the first terminal of the winding of the electromagnetic relay and one of the power rails and resistors. The second capacitor leads are connected to another power bus through series-connected break contacts of the electromagnetic relay and resistors, the second winding lead of the electromagnetic relay is connected through a resistor and the closing contact of the electromagnetic relay to the second lead of one of the capacitors, and through a diode to the second lead of another capacitor, in parallel to which through the closing contact of the electromagnetic relay resistor Z is turned on.

In this generator it is not possible to adjust the duration of the pause and the duration of the pulses over a wide range upwards. An increase in the resistance of the variable resistor installed in the charge circuit of the capacitor leads to a failure of the relay. An increase in the resistance of the variable resistor in the capacitor discharge circuit causes the discharge current flowing through the relay coil to be inadequate to keep the relay in the active state and the relay releases without time delay.

The purpose of the invention is to expand the range of adjustment of the pulse duration.

The goal is achieved by the fact that two capacitors, the first terminals of which are connected to the first terminals of the two-winding relays with self-hold and one power bus, shunt diodes, a discharge resistor, two regupping resistors, are inserted into a pulse generator containing a self-holding two-winding relay with self-holding and two zener diodes, one winding of a self-holding two-winding relay connected to the second power bus through the first thyristor and

two break contacts, and the other winding through the second thyristor and two closing contacts} of one hundred of the same groups of contacts, the control electrode of the first T1 sensor through the first zener diode on one circuit connected to the output of the first capacitor, and on the other

the circuit through the opening contact and the first adjusting resistor is connected to the second bus pitch, the control electrode of the second thyristor is connected via the second zener diode to the second output of the second capacitor via a second circuit, and to the other circuit via the second contact to the second power bus; This second output of the first capacitor through the closing contact, and the second output of the second capacitor through the opening contact is connected to the discharge resistor.

The drawing shows the scheme of the proposed pulse generator.

The pulse generator contains a two-winding relay with ca-hold with windings 1 and 2, shu {hygiene diodes 3 and 4, capacitor 5 and 6, zener diodes 7 and 8, thyristors 9 and 10, control resistors 11 and 12, relay contacts 13, 14, 15 and 16, bit resistor 17.

The pulse generator works as follows ..

When the supply voltage is applied, the capacitor 6 starts charging through the adjusting resistor 12 and the opening contact 14. When the voltage across the capacitor 6 is reached by the breakdown of the zener diode 8, a positive relative cathode voltage is applied to the control electrode of the thyristor 10. The thyristor 10 is turned on and the positive voltage through the thyristor 10, the opening contact 15, the opening contact 16 is fed to the winding 2 of the relay. The relay triggers to switches its contacts 13, 14, 15 and 16. When the contacts are switched, the load of the thyristor Yu is turned off and the thyristor is turned off. The capacitor 6 is discharged through the closing contact 14 and the discharge resistor 17. Simultaneously, the capacitor 5 begins to charge through the adjusting resistor 11 and the closing contact 13.4

Claims (3)

Upon reaching the voltage across the capacitor 5 of the zener diode 7, a positive voltage is applied to the control electrode of the thyristor 9 y). The thyristor 9 is switched on and a positive voltage is applied through the thyristor 9, the closing contact 15, the closing coaxact 16 arrives at the winding 1 of the relay. Turnips work and switch their contacts. The thyristor 9 is turned off, the capacitor is depleted 5 times through the opening contact 13 and the discharge resistor 17. The capacitor 6 begins to charge, Later on, the c. the pattern is repeated. From the diagram it can be seen that the washing of the relay windings occurs through the thyristors, mine adjusting resistors. Increasing the resistance of the resistors does not affect the current flowing through the relay coils. The magnitude of the resistances of the adjusting resistors is limited only by the minimum control current of the thyristor. Therefore, the resistance of the adjusting resistors of the proposed pulse generator can be significantly increased compared with the known known adjusting resistors, which makes it possible to adjust the length of the pause and the pulse duration over a wide range in the direction of increase,. Formula of the invention The pulse generator containing two winding relay with self-holding, two capacitors, the first terminals of which are connected to the first terminals of the windings of a self-holding two-winding relay with a single power bus, bypassing Diodes, a discharge resistor and two adjusting resistors, characterized in that, with whole expansions; 18 widths of adjusting the pulse duration and pause, two thyristors and two zener diodes are inserted in it, with one winding of a two-winding relay with self-driving connected to a second bus power supply through the first thyristor and two parallel contacts, and P5 ute winding through the second thyristor and two closing contacts of the same groups of contacts, the control electrode of the first thyristor through the first zener diode along one circuit connected to the second the output of the first capacitor, and the other circuit through the opening contact and the first control resistor to the second power bus, the control electrode of the second thyristor is connected via the second zener diode to the second output of the second capacitor, and through the other circuit via the second contact - with the second power bus, while the second lead of the first capacitor is connected via a closing contact, and the second lead of the second capacitor is connected to the discharge resistor via a break contact. Sources of information taken into account during the examination 1. USSR author's certificate 425316, cl, H 03 K 3/00, 1972, 2.Avtskoe certificate of the USSR 488318, cl. H 03 K 3/00, 1973. 3. USSR Author's Certificate of Application No. 2397682 / 18-21, l, H 03 K 3/02, 1977,