SU1718370A1 - Univibrator - Google Patents

Abstract

The invention relates to a pulse technique and can be used to form time intervals in automation and telemechanics. The purpose of the invention is to increase the size of the formed time intervals. The mono-vibration comprises a trigger 1, an input bus 2, an integrating circuit 3 consisting of resistors 4, 5 and a capacitor 6, a threshold element 7, a pulse duration-adding element 8, an output bus 9, diodes 10-13, power buses 14, 15, power supply terminals 16.17 of the threshold element 7 and output buses 20-22. The goal is achieved through the use of an integrating circuit 3, both as the timing of the master circuit and as a circuit, providing a change in the power of the threshold element 7, synchronous with the input signal, increasing or decreasing it so that the input signal is within acceptable limits. . The increase in the duration is due to the use of a part of the recovery time for recharging the time of the master capacitor 6. 2 Il.

Description

The invention relates to a pulse technique and can be used to form time intervals in automation, telemechanics.

The aim of the invention is to increase the size of the formed intervals, time by using an integrating circuit as a time-setting. and as a circuit providing changes in the power supply of the threshold element.

In FIG. 1 is a schematic diagram of a single vibrator; in FIG. 2 - stress diagrams explaining the work.

The one-shot contains a trigger 1, the installation input of which is connected to the input bus 2, integrating an RC circuit 3, consisting of resistors 4 and 5 and a capacitor 6, the inputs of which are connected to the outputs of the trigger 1, and the connected terminals of the timing resistor 4 and additional resistor 5 to the input of the threshold element 7, the output of which is connected to the reset input of the R-trigger 1, the pulse duration summing element 8, the inputs of which are connected to the inverse output of the trigger 1 and the output of the threshold element 7, and the output to the output bus 9 of the one-shot, pr why four diodes 10-13 are connected between the power buses 14 and 15, the cathodes of the diodes 10 and 11 and the anodes of the diodes 12 and 13 are connected to each other and to the power outputs 16 and 17 of the threshold element 7, and the connected terminals of the diodes 10, 11 and 12, 13 - with the output of the RC circuit 3.

If necessary, current-limiting resistors 18 and 19 can be included in the power circuit of the threshold element 7. The single-vibrator also has output buses 20-22.

One-shot works as follows.

In the initial state, a log is set on the inverse output of trigger 1. 1, and direct - a log. A. The capacitor 6 is charged almost to the supply voltage E. The supply current of the threshold element 7 passes through the diodes 10 and 13.

With the arrival of the triggering pulse to the input bus 2, the trigger 1 switches to the opposite state, the capacitor 6 starts to recharge through the resistors 4 and 5. and at the output of the pulse summing element 8, the formation of the output signal begins.

At the moment of switching the trigger 1, a negative voltage jump is formed at the output of the integrating circuit 3, which goes directly to the input and through the diode 12 to the power output 17 of the threshold element 7. The diode 13 is closed.

When the voltage across the capacitor 6 reaches the value of U _n ¹ perceived by the threshold element 7, as a log. 1. At the output of the threshold element 7, a log is set. 0. This signal is fed to the reset input of trigger 1, switches it to its original state, and the capacitor 6 begins to recharge to its original state.

At the time of switching the trigger 1 at the output of circuit 3, a positive voltage surge is formed, which goes directly to the input and through the diode 11 to the output 16 of the power supply of the threshold element 7. The diode 10 is closed. When the voltage at the output of circuit 3 decreases to a value and _n °, perceived by the threshold element 7, as a log. 0, at the output of element 7, a log is set. 1. In this case, the formation of the output signal at the output of the summing element 8 ends.

The resistor 5 is necessary so that the voltage at the input of the threshold element 7 in absolute value is always slightly less; than at its power output, which is always true if Rs ~ 0.1 Rd.

When the voltage on the capacitor 6 reaches the supply voltage, the device will return to its original state.

The use of an inverter as a threshold element 7 makes it possible to provide logical voltage levels at its output (Fig. 2), independent of the voltage! at the output of circuit 3. At the time when the voltage at the output of circuit 3 exceeds the supply voltage (terminal 16) or negatively (terminal 17), a corresponding log is installed at the inverter output. 0 and 1 ”.

Claims (1)

Claim A one-shot, containing a trigger, to the direct and inverse outputs of which are respectively connected the first conclusions of the timing resistor and capacitor. two series-connected inverters, the input of the first of which is connected to the other terminal of the timing resistor. and the second output has a trigger reset input, the installation input of which is connected to the start bus, and the first diode, the anode of which is connected to the other output of the time-setting capacitor, characterized in that, in order to increase the value of the generated time intervals, a summing element is introduced into it, one the input of which is connected to the output of the first inverter. and the other with an inverse trigger output, an additional resistor connected between the other terminals of the time-varying resistor and capacitor, and three diodes, which together with the first form a serial circuit connected between the power supply buses of a single-shot. moreover, the cathodes of the first two and the anodes of the second two diodes are connected respectively to each other and to the power leads of the first inverter.