SU1160534A1 - Pulser - Google Patents

Abstract

A PULSE GENERATOR containing a power source, the first transistor whose collector-emitter gap is connected to the charge circuit of the first capacitor from the power source, a dynistor connected to the discharge circuit of the first capacitor on the primary winding of the output transformer, second transistor, second capacitor, diode, first a zener diode, three resistors and a control pulse driver, characterized in that, in order to increase the noise immunity and reliability of operation, a thyristor, a second zener diode and a third condenser are introduced The actor and the power source are designed as a sinusoidal voltage source with a full-wave rectifier at the output, with two circuits parallel to the output of the full-wave rectifier, one of which is formed by series-connected second capacitor and diode, and the other is series-connected first and second resistors, parallel to which are included the base-emitter junction of the second transistor and the third capacitor, respectively, the collector of the second transistor connected to the base of the first t and through the series-connected third resistor and a first zener diode, the thyristor schuntirovan second zener diode and is connected between the point of the third resistor connected to said first Zener diode and the connecting point of the second capacitor with the diode and the input of the thyristor is connected to the output of the control pulses and a secondary winding of the output transformer. (X о СП 00 4 ::

Description

The invention relates to a pulse technique and can be used in devices for pulse width control in transport, in automated control systems, in television. The aim of the invention is to improve noise immunity and reliability. The drawing shows the circuit diagram of the device. The pulse generator contains a power source, made in the form of a sinusoidal voltage source 1 with a full-wave rectifier 2 at the output, the first 3 second 4 transistors, the first 5 and second 6 zener diodes, the thyristor 7, whose input is connected to the output of the driver 8 impulses of control. The collector-emitter gap of the transistor 3 is connected to the charge circuit of the first capacitor 9 from source 1 through rectifier 2. Dinistor 10 is connected to the discharge circuit of capacitor 9 to the primary winding 11 of the output transformer 12. At the output of rectifier 2, two parallel circuits are connected, one of which is formed by series-connected second capacitor 13 and diode 14, and the other - by series-connected first 15 and second 16 resistors, in parallel with which the base-emitter junction of transistor 4 and the third capacitor 17 are included tvetstvenno. The collector of transistor 4 is connected to the base of transistor 3 through a third resistor 18 and a zener diode 5 connected in series. The thyristor 7 is shucked by the zener diode 6 and connected between the connection point of the resistor 18 with the zener diode 5 and the connection point of the capacitor 13 with the diode 14. The thyristor 7 input is connected to one of the secondary windings 19 of the transformer 12. The pulse generator operates as follows. Transistor 4. Zener diodes 5 and 6, capacitors 13 and 17, diode 14 and resistors 15, 16 and 18 form rectangular pulses with a cut-off from full-wave rectified sinusoidal voltage. These pulses arrive at the base of the transistor 3 operating in the mode of the charge current regulator of the capacitor 9. The charging current is set by the resistor 20. As soon as the voltage on the capacitor 9 reaches the switching voltage of the distor 10, the latter switches and discharges the capacitor 9 through the winding 11 of the transformer 12. The pulses removed from the windings 19 are supplied to the output circuits, and also include a thyristor 7, which detects the formation of a single output pulse during the half-period of the supply voltage and limits the duration rectangular pulse at the input of the transistor 3, facilitating the mode of its operation. The transistor 3 is locked and the dynistor 10 is turned off. The delay time of the output pulse is determined by the charge current and the capacitance of the capacitor 9. By applying to the input of the thyristor 7 positive pulses from the output of the driver 8, it is possible to lock the generator according to the required law.

Claims (1)

A PULSE GENERATOR, comprising a power source, a first transistor, the collector-emitter gap of which is included in the charge circuit of the first capacitor from the power source, a dinistor included in the discharge circuit of the first capacitor to the primary winding of the output transformer, a second transistor, a second capacitor, a diode, a first zener diode, three 'resistors and a control pulse shaper, characterized in that, in order to increase the noise immunity and reliability of operation, a thyristor, a second zener diode and a third capacitor are introduced, the power source is made in the form of a sinusoidal voltage source with a half-wave rectifier at the output, and two circuits are connected in parallel with the output of the half-wave rectifier, one of which is formed by the second capacitor and the diode connected in series, and the other by the first and second resistors connected in series, the emitter junction of the second transistor and the third capacitor, respectively, the collector of the second transistor is connected to the base of the first transistor through the pic the third resistor and the first zener diode are connected together, the thyristor is shunted by the second zener diode and is connected between the connection point of the third resistor with the first zener diode and the connection point of the second capacitor with the diode, and the thyristor input is connected to the output of the control pulse shaper and to one of the secondary windings of the output transformer. SU „„ 1160534>