SU1322423A1 - Multivibrator based on cmos elements - Google Patents

Abstract

The invention relates to a pulse technique and contributes to the expansion of the functionality of the device. The multivibrator contains inverters 1 ... 3, the time setting the KS circuit, which includes resistor 4 and capacitor 5, / and diode 8. Introduction of resistor 7 simplifies frequency control at a constant duty cycle, determined by the ratio of resistors 9 and 7. 2 sludge. (L with V with y to to y with FIG.

Description

The invention relates to a pulse technique and is intended for use in radio engineering devices for various purposes.

The aim of the invention is to enhance the functionality by simplifying frequency control at a constant duty cycle.

The goal is achieved by introducing into the multivibrator the time of the setting resistor, the first output of which is connected to the power bus, and the second output is connected with the time by the setting capacitor and through an additional resistor is connected to the input of the first inverter.

Figure 1 images; and a functional diagram of the multivibrator; in FIG. 2, time diagrams of the operation of the multivibrator (A is the potential at point A, B is the potential at point B, C is the potential at point c).

The multivibrator contains series-connected inverters 1-3, the time of the master circuit consisting of series-connected resistors 4 and a capacitor 5, the second terminal of which is connected to the input of the inverter 3. The first terminal of the resistor 4 is connected to the power supply Kashin 6, the second terminal is connected to the first output of the capacitor 5 and through a resistor 7 is connected to the input of the inverter 1. the output of inverter 3 and the input of inverter 1 include a circuit consisting of a series-connected diode 8 and a resistor. 9. The input of the inverter 3 is connected to the output bus 10 of the multivibrator.

Multivibrator works as follows.

When power is turned on

at time t, the multivib resistor 4 circuit and assume that for KJ lon

-e S rator is set to

wherein at the outputs of inverters

1 and 3 there is a high voltage level, at the output of the inverter 2 and at the output bus 10 there is a zero potential. At this moment, diode 8 is locked,

and the capacitor 5 begins to charge .. through a resistor 4. When the voltage at points A and B reaches the switching level of the inverter 1 -S, the output voltage of the multivibrator is set to high voltage, capacitor 5. through the inverter's internal switches

2 is connected to the bus 6 of the power and voltage at points A. and B in the boom increase to the level: E +. Through the delay time, the inverter 3 switches, the diode 8 opens and the output cells of the logic unit are approximately equal to the supply voltage: E, and the output 45 voltage of the logic zero is OB,

The following relationships can be written;

 RC-ln RCIn

.

 - b - E

where T is 55

With the duration of the pause between pulses on the output bus 10 of the multivibrator; pulse duration on the output bus 10 of the multivibrator;

capacitor capacitance value 5.

ten

25

22423-2

with a voltage divider consisting of resistors 9 and 7. The voltage at point B decreases abruptly, but remains above the switching level of inverter G. The capacitor 5 begins to discharge through resistor 4. When the voltage at point A decreases to level E, and at point B, respectively, the inverter 1 switches and a low voltage level is set at the output of the multivibrator. In this case, the capacitor 5 is connected to the common bus and the voltages at points A and B abruptly decrease. After switching time of 15 PIA of the inverter 3 and locking the diode 8, the divider from resistors 9 and 7 is turned off and the voltage at point B increases abruptly to the level of voltage at point A, which is lower than the level. 20 Condenser 5 begins to charge after 4, and the self-oscillating process repeats.

For stable operation of the multivibrator, the following condition must be met:

 +,

where the value of g is determined by the form

mule

where Rg R, € (R7)

° Rg

resistance value

9j resistor

resistance value

resistor 7. If the condition

R 4 "R.

rc

40 where R 4 is the resistance value

elements, the output voltage of the logical unit is approximately equal to the supply voltage: E, and the output 45 voltage of the logical zero is OV,

The following relationships can be written;

RC-ln RCIn

.

 - b - E

where T „

With the duration of the pause between pulses on the output bus 10 of the multivibrator; pulse duration on the output bus 10 of the multivibrator;

capacitor capacitance value 5.

31322423

Taking into account that, for CMOS elements, the F about one switching level is approximately equal to half ani voltage, then, as the value changes from E to E +, the parameters are pulsed within

 Yo -

About T, RC 1P

tsddin kspod time inddin dan chasti pery oper the first chain

ABOUT

Ty

This shows that when the EO value changes from E to E +, the pulse duty cycle varies from two to one. Thus, in the proposed multivibrator, the pulse duty cycle is determined only by the ratio of resistors 9 and 7, and the frequency can be adjusted by resistor 4 and capacitor 5.

to

Editor N.Lazarenko

Compiled by A. Bliznyuk

Tehred I.Popovich Proofreader L. Patay

Order 2875/52 Circulation 901 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, Projecto st., 4

0

five

0

p m u l a and 3 about b p e t-e n i

 A multivibrator on CMOS elenents, containing three inverters connected in series, a master clock circuit, to the output of the second inverter is connected the first capacitor terminal of the master circuit time, the output of the third inverter is connected via a serially connected diode and resistor to the input of the first inverter. so that, with the goal of expanding the functionality by simplifying the frequency control at a constant duty cycle, the first pin of the resistor is the time of the master circuit connected to the power bus, its second pin is connected It is not connected with the second output of the capacitor and is connected through an additional resistor to the input of the first inverter.

FIG. g

Claims (1)

'A multivibrator on CMOS elements containing three series-connected inverters, a timing RC circuit, the first output of the timing-circuit capacitor connected to the output of the second inverter, the output of the third inverter through a series-connected diode and resistor connected to the input of the first inverter, characterized in that, with In order to expand the functionality by simplifying the frequency adjustment at a constant duty cycle, the first output of the time-delay circuit resistor is connected to the power bus, its second output is connected to the second output of the capacitor and through an additional resistor connected to the input of the pen inverter.