SU836787A1 - Pulse generator - Google Patents

Description

(54) PULSE GENERATOR

I

The invention relates to a pulse technique and can be used in automation devices for generating polarized pulses.

The known devices, which provide for shaping of different polarity pulses, are characterized by high complexity 1.

Closest to the proposed pulse generator, containing dynistors, resistors, diodes, capacitor and load resistance 2.

A disadvantage of the known technical solution is the inability to generate different-polar pulses.

The purpose of this invention is to enhance the functionality of the generator by generating different polarity pulses.

The goal is achieved by the fact that in a pulse generator containing the first and second dynistors connected respectively by anodes through the first and second resistors to the power supply bus, a capacitor connected between the anodes of the first and second dynistors, the load resistance and two diodes, the first and second terminals load resistances are connected

respectively, with the cathodes of the first and second dinistors and, respectively, through counter-connected first and second diodes — with the first and second terminals of the capacitor, with one of the terminals of the load resistance connected to the common bus.

FIG. 1 shows the basic electrical circuit of the proposed pulse generator; in fig. 2 - the form of the output signals of the generator.

The pulse generator contains dynistors 1, 2, collator 3, resistors 4 and 5, diodes 6 and 7, load resistance 8. Resistors 4 and 5 are connected to the power supply bus 9, and load resistance 8 is connected to the common bus 10.

The pulse generator works as follows.

When a positive potential is applied to the supply source 9, one of the dynisters is turned on. Suppose that, due to the variation in the switching times of the dynistors, dynistor 1 will turn on first. After its

0 switching on the voltage on the dynistor 2 will be determined by the voltage on the switching capacitor 3, which is charged along the circuit: power supply bus 9, resistor 5, capacitor 3, dynistor 1, common number 10. Upon reaching voltage on the capacitor 3 The switching of dynistor 2 is turned on, and dynistor I is turned off, as it will be under negative voltage. Capacitor 3 will begin to discharge along the circuit: dynistor 2, load resistance 8, diode 6. At the same time, a positive polarity pulse is generated at load resistance 8 with an amplitude approximately equal to the switching voltage of dynistor 2 (the residual voltage of dynistor 2 is not taken into account and diode 6).

At the end of the discharge, the capacitor 3 will begin to charge, but in the opposite direction, i.e. along the circuit: resistor 4, capacitor 3, dynistor 2- and load resistance 8. When the capacitor 3 reaches a voltage equal to dynistor switching voltage 1, it turns on, and dynistor 2 turns off. The discharge of capacitor 3 will go through the circuit: dynistor 1, load resistance 8, diode 7. At the same time, a negative polarity pulse is generated at load resistance 8. After discharge, capacitor 3 will begin to recharge along the circuit: resistor 5, capacitor 3, distor 1. The generation processes will then be repeated.

The durations of the leading edges of the output pulses (see Fig. 2) are determined by the switching times of dynistors 1 and 2, the duration and shape of the pulses falling are the times of discharge of the capacitor 3, and the amplitude of the positive polarity pulse does not decrease to zero after the discharge of the capacitor 3. The value of the residual voltage is determined by the resistance of the resistor 5.

Thus, this device allows to generate different polarity pulses.

Claims (2)

Invention Formula The pulse generator containing the first and second dinistors connected by anodes through the first and second resistors to the source bus, a capacitor, connected between the anodes of the first and second dinistors, the load resistance and two diodes, characterized in that, in order to expand the functionality by generating different polarity pulses, the first and second terminals of the load resistance are connected to the cathodes of the first and second dynodors, respectively, and respectively through included the first and second diodes - with the first and second terminals of the capacitor, and one from the load resistance pins connected to the common bus. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 327576, cl. H 03 K 3/02; 1970. 2. USSR author's certificate № 3 1387, cl. H 03 K 3/335, 197J (prototype).