SU875593A1 - Pulse generator - Google Patents

Description

The invention relates to pulsed technology, in particular to generators, and can be used in various devices of electrical engineering, automation, computer engineering.

Known pulse generator, which contains an optocoupler, transistors, potentiometers, resistors, capacitor (1]. ....... ₀

A pulse generator is also known,, ^and which contains series-connected inverters, a transistor whose collector is connected to the input of series-connected inverters, 'a potentiometer, one fixed contact is connected to the base of the transistor, the base of the transistor is also connected to the capacitor plate, the second lining of which is grounded, the second -. with a constant resistor connected 20 to the output of the second inverter, counter-diodes are connected between the fixed contacts and the potentiometer motor, cathodes to the motor, there is a circuit between the output of the second inverter and ground 25, consisting of two resistors and a potentiometer, the motor of which is connected to the emitter [ 2].

However, in known pulse generators, the range of independent frequency and duty cycle adjustment is small.

The purpose of the invention is the expansion of the range of independent adjustment of the period and duty cycle of the generated pulses ..

This goal is achieved by the fact that a pulse generator containing series-connected inverters, a capacitor, one of the plates of which is connected to the fixed contact of the potentiometer, two on-board diodes, the connection point of which is connected to the potentiometer engine, and the anodes to the fixed contacts of the potentiometer and two resistors, a pulse generator with adjustable parameters of the output voltage, an optocoupler, a field effect transistor and a reference diode are introduced, and the drain of the field effect transistor is connected to the input in series of inverters, the source is connected to the connection point of one of the resistors and the reference diode, the cathode of which is connected to a common bus, the second output of the resistor is connected to the power bus, the gate of the field-effect transistor is connected to the connection point of the fixed contact of the potentiometer and the capacitor plate, the second

875593 'the masonry of which is connected to the output of the first inverter, the optocoupler photoresistor is connected between the second fixed contact of the potentiometer and the output of the second inverter, the optocoupler LED is connected in series with the second resistor between the output of the pulse generator with adjustable parameters of the output voltage and the common bus.

The drawing shows a structural electrical diagram of the proposed generator.

The pulse generator comprises a field effect transistor 1, a resistor 2, a reference diode 3, inverters 4-6, a capacitor 7, diodes 8 and 9, a potentiometer 10, an optocoupler 11, a resistor 12 and a pulse generator 13 with adjustable output voltage parameters.

The pulse generator operates as follows.

In the initial state, the capacitor 7 is charged with a positive potential on the upper plate, then the transistor, 1. opens, and at the output of inverter 4 - high potential, at the output of inverter 5 - low potential, there is a process of recharging the capacitor 7 along the circuit: plus a power source, the output of the inverter 4, capacitor 7, diode 8, the right (according to the diagram) part of the potentiometer 10, photoconductor optocoupler 11, the output of the inverter 5, minus the power source. The capacitor is recharged discretely, at times when the output of the generator 13 has a high positive potential, at that time the resistance of the photoconductor photoconductor 11 is much less than the value of the resistor 10, and therefore the photoconductor does not affect the process of recharging the capacitor 7 when the photoconductor 11 is large, the capacitor 7 is not recharged and the circuit retains its state.

As the capacitor 7 is recharged, the voltage at the gate of the field-effect transistor 1 decreases to a threshold value, closing. At this moment, as a result of an avalanche-like process, the field-effect transistor 1 suppresses the negative voltage at the gate, the low potential is set at the output of the inverter 4, and the high potential at the output of the inverter 5.

Discrete, begins the process of reverse charge capacitor ·? along the circuit: plus a power source, inverter output 5, optocoupler photoresistor 11, diode 9, left side of potentiometer 10, capacitor 7, inverter 4 output, minus the power source. The voltage at the gate of the field effect transistor 1 increases. After the gate voltage of the field-effect transistor 1 reaches a threshold value, the generator as a result of an avalanche-like process returns to its original state.

The recharging of the capacitor 7 occurs through the right or left part of the potentiometer 10. Since the constant recharging at zero value of the photoconductor optocoupler 11 is determined only by the value of the capacitance of the capacitor 7 and the magnitude of the part of the potentiometer 10 through which the recharging takes place .a increase the resistance of one of the parts of the potentiometer 10 causes the same decrease in resistance of the second part of the potentiometer, which means that the pulse repetition period does not depend on the position. potentiometer engine 10, i.e. from duty cycle.

The use of a field-effect transistor with circuits defining its mode eliminates the influence of the transistor on the processes of recharging the capacitor 7 and, thus, increases the frequency when adjusting the duty cycle.

The technical and economic advantages of the proposed generator compared to the known ones lie in the possibility of independent adjustment of the frequency and duty cycle over a wide range.

Claims (2)

1. Author's certificate of the USSR 615594, cl. H 03 K 3/26, 1978. 2. Radio ferucsehen elektronik, 1976, 24, p. 815 (prototype).