SU1182633A1 - Pulser - Google Patents

Abstract

YUSHULSOV GENERATOR containing the first transistor of the first conductivity type, the collector of which is connected to the base of the second transistor of the first conductivity type and through the first resistor is connected to the power supply bus, the emitter of the first transistor is connected to the common bus, the capacitor, the first output of which is connected to the source bus through the second resistor power supply, the third resistor is an adjustable voltage source, the first of which is connected to a common bus, characterized in that, in order to improve the weight and size parameters behind the expense of increasing the capacity utilization of the chassis capacitor capacitor capacitor capacitor IS, the third transistor of the second type of conductivity, the first and second diodes, the second power source, the reference element, the second capacitor, the first output of which is connected to the common bus through the first diode, are additionally introduced into it. the second diode is with the emitter of the third transistor and the collector of the first transistor, the base of the third transistor of the second conductivity type is connected to the base of the first transistor and to the BTOpbD i output of the first capacitor, call the third transistor is connected to the second terminal of the second capacitor and via the third resistor to the bus of the second power source, the collector of the second transistor is connected to the first input of the reference element and to the first output of the first capacitor, the second input of the reference element is connected to the adjustable voltage source, and the output of the element Comparison is connected to the output bus.

Description

one

The invention relates to a pulse technique and can be used in devices where it is required to generate pulses with a high duty cycle and short duration.

The aim of the invention is to increase the utilization rate of the capacitance capacitor capacitor with a simultaneous increase in manufacturability and pulse duty cycle due to the fact that the duration of the pause between pulses is equal to the charging and discharging time of the driving capacitor.

The drawing shows a circuit diagram of a pulse generator.

The pulse generator contains power sources 1 and 2, an adjustable voltage source 3, transistors 4, 5 and 6, capacitors 7 and 8, resistors 9-11, an output load resistor 12, a reference element 13 having inputs T4 and 15 and output 16 , diodes 17 and 18.

Comparison element 13 can be performed, for example, on two transistors 19 and 20, Power sources 1, 2 provide the necessary voltages on the electrodes of the transistors, source 3 of the control voltage sets the threshold. The transistor 4 of the first conductivity type is connected to the base of the transistor 5 of the second conductivity type, its emitter is connected to a common bus, and the collector is connected to the base of the transistor 6 of the second conductivity type. The emitter of transistor 6 is connected to the common bus and the collector is connected to the first plate of the capacitor 7, the second obkadka of which is connected to the bases of transistors 4 and 5. One plate of the capacitor 8 is connected to the collector of transistor 4 and to one of the terminals of the resistor 9, the second output connected to the source 2, and the resistor 10 is connected to the collector of the transistor 6 and the power source 1. Resistor 11 is connected to power supply 1 and the base of transistor 6. Resistor 12 is connected to a common bus and is a load element.

Comparison element 13 comprises an input 14 connected to a collector of a transistor 6, an input 15 connected to a voltage source 3, and an output 16 connected to a load resistor 826332

torus 12. Diodes 17 and 18 are connected in series, the cathode of diode 17 is connected to a common bus, and the anode of diode 18 is connected to the emitter of transistor 4, and the middle

5 the connection point of the diodes 17 and 18 is with the second capacitor plate 8. The comparison element 13 also contains a transistor 19 of the second conductivity type, the emitter of which is connected to

About the input 15, the base with the input 14, and the collector with the base of the transistor 20 of the second conductivity typeJ the emitter of this transistor is connected to the memory source 1, and the collector with the resistor 12.

The pulse generator works as follows.

Since the end of the discharge capacitor 7 and lock the transistor

0 6 starts charging the capacitor 7 from the voltage source 1 through the resistor 10 and the base-emitter junction of the transistor 5. With the charging current of the capacitor 7, the transistor 5 is saturated and the transistor 6 is locked. Transistor 4 is also locked because a blocking voltage is applied to its base, equal to the voltage drop at the junction of the collector-emitter of transistor 5. At the output 15 of the comparison element 13, there is no voltage, because the voltage at the input 14 is less than the voltage at its input 15.

As the capacitor 7 is charged, the voltage at the input 14 of the reference element 13 increases. When the voltage on the capacitor 7 approaches the voltage level of source 3,

d input 14 (base of transistor 19) of the element 13 flows a current, as a result of which at the output 16 of the comparison element 13 a pulse is formed that is equal in duration to the presence time

5 of the input current through the input 14. The additional voltage increase at the capacitor 7 stops due to the flow of the current of the resistor 10 through the input 14 of the comparison element 13.

Due to the cessation of the flow of the charge current of the capacitor 7, the transistor 5 closes and the current of the resistor 11 begins to flow into the base of the transistor 6, the collector current of the transistor 6 begins to flow and the discharge of the capacitor 7 through the collector-emitter junction begins

transistor 4. The emitter current of transistor 4 is the sum of the discharge currents of capacitor 7 and the collector current of transistor 4. This current reduces the base current of transistor 6 and due to the deep feedback formed, the charge current of the capacitor 7 is linearized, becoming almost independent of gain transistors. This ensures a long and stable discharge time of the capacitor 7. In connection with the opening of the transistor 6, the voltage at the base of the transistor 19 decreases, which leads to its locking and the formation of the output pulse at the output 16 of the comparison element 13.

The duration of the output pulse is almost independent of the capacitance of the capacitor 7.

During the time of the discharge of the capacitor 7, a current flows through the collector of the transistor 4, which creates a certain voltage drop across the resistor 9 and the voltage 1826334

The capacitor 8 is reduced due to its discharge through diode 17. At the moment when the capacitor 7 stops discharging, transistor 4 is locked and capacitor B begins to charge from source 2 through resistor 9, diode 17 and resistor 11. With increasing voltage drop The resistor 11 transistor 6 is backed up and the capacitor 7 starts charging again from source 1 through resistor 10, the base of transistor 5, and then the processes are repeated. The capacitance of the capacitor 8 must

15 to be much less than the capacitance of the capacitor 7, since it is necessary for providing for a short time the latching of the transistor 6 at the time of the decrease (cessation) of the discharge current of the capacitor 7,

The time between pulses is equal to the charging and discharging time of the capacitor 7, which makes it possible to obtain a much longer time between pulses with the same capacitor capacitance.

Claims (1)

PULSE GENERATOR, containing the first transistor of the first type of conductivity, the collector of which. connected to the base of the second transistor of the first type of conductivity and through the first resistor connected to the bus of the power source, the emitter of the first transistor is connected to a common bus,. a capacitor, the first output of which is connected through the second resistor to the bus of the power source, the third resistor, an adjustable voltage source, the first terminal of which is connected to a common bus, characterized in that, in order to improve the overall dimensions by increasing the coefficient of utilization of the capacity of the timing capacitor , it additionally introduced a third transistor of the second type of conductivity, the first and second diodes, a second power source, a comparison element, a second capacitor, the first output of which is through the first the iodine is connected to the common bus, and through the second diode to the emitter of the third transistor and the collector of the first transistor, the base of the third transistor of the second type of conductivity is connected to the base of the first transistor and to the second output of the first capacitor, the collector of the third transistor is connected to the second output of the second capacitor and through the third resistor - with the bus of the second power source, the collector of the second transistor is connected to the first input of the comparison element and to the first output of the first 'capacitor, the second input of the comparison element is connected nen with an adjustable voltage source, and the output of the comparison element is connected to the output bus. 00 bz Ώ GO GO 1 182633