SU824328A1 - Pulse generator - Google Patents

Description

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The invention relates to automation and is intended to generate rectangular pulses of infra-low frequency in various software control devices.

Known pulse generator containing a thyristor, capacitors, resistors, unijunction transistor 11.

A disadvantage of this device is the limited adjustment of the pulse duty ratio and the impossibility of switching the load of an alternating current.

The purpose of the invention is to expand the range of the registration of the elimination of the duty ratio of pulses and the cochputation of the AC load.

The goal is achieved by the fact that a pulse generator containing a thyristor with a first resistor in the anode circuit, the anode of which is connected through the first capacitor to the emitter of a single junction transistor, which. through the second resistor is connected to. the plus terminal 4 "of the constant voltage source, one base of the unijunction transistor is connected via a third resistor to the negative terminal of the constant voltage source, and

through a second capacitor — with a thyristor control electrode, a diode and a fourth resistor, the thyristor anode is connected to the positive terminal of a constant voltage source through a first resistor connected in series and a chain of connected in parallel the fourth resistor and diode. A triac, a capacitor, a zener diode, a second diode and a source of alternating voltage are connected to the generator, to which a load is connected through the triac, and a zener diode is connected to the connection point through which the thyristor cathode is connected via a diode; connected to the control electrode of the triac.

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The drawing shows a circuit diagram of a pulse generator.

It contains a thyristor 1 with a resistor 2 in the anode, a switching and one5 temporarily driving capacitor 3, a single junction transistor 4, a resistor 5, a constant voltage power source formed by a power capacitor 6 through which to an AC network (terminals

7 and 8) Zener diode 9 is connected, diode 10, filter capacitor 11, triac 12, to the output of which (terminals 13-14) the load is connected (potentiometer 15, diode 16, resistors 17-19 and capacitor 20),

The generator works as follows.

When the power is turned on through the rheistor 2, the opening of the transistors 4 and the resistor 17, it charges the capacitor 3 to the voltage on the capacitor of the filter 11. At the same time, a voltage pulse is generated on the resistor 17, which through the capacitor 20. reaches the control electrode the triac cathode control electrode 12 and the resistor 2 flow a direct current, holding the thyristor 1 in the open state and unlocking the triac 12. The load connected to the terminals is turned on. The capacitor 3 begins to recharge through the resistor 3 and the open thyristor 1. When the voltage on the capacitor 3 reaches the voltage unlocked by the transistor 4, it is unlocked again, and the capacitor 3 is again recharged through the transistor 12, the diode 16 and the resistor 2 to the voltage across the capacitor 11. When recharging capacitor 3, thyristor 1 is locked, i.e. the capacitor 3 performs the role not only of the time of the master, but also of the momentum capacitor. For reliable locking of the thyristor 1, it is necessary that the time constant of the RS circuit formed by capacitor 3 and resistor 2 be significantly higher than the time constant of circuit formed by resistor 2 and capacitor 20. The pause time is determined by the discharge time of capacitor 3 through resistor 2 and the span of the control electrode cathode of the sielestor 12 to the resistors 5 and 19. When the capacitor 3 is discharged by an amount equal to the unlocking voltage of the transistor 4, the latter opens, the capacitor 3 is recharged and due to the pulse the current flowing through the capacitor 20 is unlocked by the thyristor 1. The load is turned on and the operation of the generator is repeated.

The duration of the pulses is varied by a resistor 5. The threshold of the transistor 4 is adjusted by a potentiometer 15. To change the pause length without changing the pulse duration, i.e. change the duty cycle of the pulses, serves as a resistor 19. Through the diode 16 a current flows holding the thyristor 1 in the open position.

The square pulse generator is characterized by simplicity and high stability of the frequency and duration of the generated pulses, high output power and reliable operation.

Claims (1)

1. A pulse generator containing a thyristor with a first resistor in the anode circuit, the anode of which is connected through the first capacitor to the emitter of a single junction transistor,. which through the second resistor is connected to the positive terminal of a constant voltage source, one base of the unijunction transistor through 5, the third resistor is connected to the negative adhesive of the constant voltage source, and through the second capacitor to the control electrode of the thyristor, diode and the fourth resistor. characterized in that with In order to extend the range of regulation of the duty cycle of the pulses, the thyristor anode is connected to the positive terminal of a constant voltage power source through a series-connected first resistor and a chain of fourth-resistor and diode connected in parallel. 2, The generator according to claim 1, characterized in that, for the purpose of 0 switching the load of an alternating current, a triac, a capacitor, a zener diode, a second diode and an alternating voltage source, to which the load is connected through the triac, and 5 through an injected capacitor - zener diode, to the point of connection of which the thyristor cathode is connected via a diode, the anode of which is connected to the control electrode of the triac through the first resistor and diode. Sources of information taken into account in the examination 1. USSR author's certificate In 573824, cl. H 01 H 47Vl8, 04/05/76 - (prototype).