SU1188860A1 - Flip-flop based on operational amplifier - Google Patents

Abstract

TRIGGER ON OPERATING AMPLIFIER, containing an input bus, a differential operational amplifier whose output is a device output, a first resistor, the first terminal of which is connected to a non-inverting input of a differential operational amplifier and the first terminal of a second resistor, the second terminals of the first and second resistors are connected to a common bus and the output of the device, characterized in that, in order to expand the scope of application, the third, fourth, fifth and the sixth resistors, the first output of the third and the second output of the sixth resistors are connected respectively with inverted. the main and non-inverting inputs of the differential operational amplifier, the common connection point of the fourth and fifth resistors are connected to the input bus of the device, the common connection point of the fifth and sixth resistors is connected to the drain of the field-effect transistor, the source of which is connected to the common bus, and the gate is connected to the anode of the first transistor diode, (L common point of connection of the third and fourth resistors connected to the drain of the second field-effect transistor, the source of which is connected to the common bus and the gate is connected to the cathode of the second diode Which anode is connected to the cathode of the first diode 00 and vyho00 00 Od home device, a second resistor and first and second diodes are shunted by capacitors.

Description

one

The invention relates to a pulse technique and can be used in various automation and computing devices.

The purpose of the invention is to expand the field of application by controlling the device with pulses of one polarity.

The goal is achieved by introducing field-effect transistors, making connections, the switching-on of the transistors has allowed creating such switching conditions for an operation of an on-amp amplifier, in which the trigger control becomes: possible pulses of one polarity.

The drawing shows an electrical schematic diagram of a trigger on an operational amplifier.

The trigger on the operational amplifier contains a differential operational amplifier 1, the output of which is the device output 2, the first resistor 3, the first terminal of which is connected to the non-inverting input of the amplifier 1 and the first terminal of the second resistor 4, the second terminals of resistors 3 and 4 are connected respectively to the common bus 5 and output 2, serially connected third 6, fourth 7, five and six sixth resistors, the first output of the third 6 and the second output of the sixth 9 resistors are connected respectively to the inverting and non-inverting input ohm amplifier. 1, the common connection points of resistors 7 and 8 are connected to the input bus 10, the common connection point of resistors 8 and 9 are connected to the drain of the field-effect transistor 11, the source of which is connected to the bus 5, and the gate is connected to the anode of the first diode 12, the common connection point of resistors 6 and 7 are connected to the drain of the second field-effect transistor 13, the source of which is connected to the bus 5, and the gate is connected to the cathode of the second diode 14, the anode of which is connected to the cathode of diode 12 and to output 2, resistor 4 and diodes 12 and 14 are bridged by capacitors 15, 16 and 17 respectively.

The trigger on the operational amplifier works as follows.

After turning on the power, due to deep positive feedback, the output of the trigger is set to a voltage equal to 602

not the saturation voltage at each stage of the amplifier stage 1.

Let the positive voltage Ugrp be set at the output of the trigger.

In this case, the field-effect transistor 13 with the channel is closed, (the resistance of the channel of the transistor is large, we take R 00), and the field-effect transistor

11 with the n-type channel open (the resistance of the transistor channel is small, let's take r 0) - From the output of amplifier 1, the signal B comes to its non-inverting input, and ogre, where P,

 R3 IIR9 (R4 + R3 V R9), which keeps the amplifier in its original state. The first positive control pulse UBX is larger in amplitude than signal 3i.

resistors 6 and 7 only to the inverting input of amplifier 1, since the non-inverting input of the amplifier through resistor 9 and the low resistance of the open transistor channel 11

(glo) is connected to bus 5. In this case, the sum differential signal at the input of operational amplifier 1

8 P - Uov O (1)

 R

the amplifier 1 is switched and a negative voltage 1) is set at the trigger code, equal to the voltage of the amplifier output signal. To improve the dynamics of the switching process, a forcing capacitor 15 is introduced into the circuit, as well as capacitors 16 and 17. Dividing diodes G2 and 14 are introduced.

so that the opening voltage is not applied to the gates of the field effect transistors 11 and 13. At the end of the switching process of the trigger, the transistor 13 opens and connects the inverting input of amplifier 1 through a resistor 6 to bus 5. The non-inverting input of the amplifier receives the signal UO, P, where / Ь з (R8 + R9) / |; R4 R3 + (D4 + KZ) (R8 + R9) J,

which keeps the trigger steady. The next control pulse through resistors 8 and 9 is fed to the non-inverting input of the amplifier with a coefficient

transmissions to R4 R3 / rR4 short circuit +

+ (R4 + R3) (R8 + R9) and summed with the ogre signal. In this case, if the signal at the differential input 31 of the amplifier is 1 + ft. Ug, p O (2), the trigger switches and a positive voltage Ut is established at its output. Thus, when a trigger of control pulses of one polarity is supplied to the trigger input with an amplitude sufficient to satisfy the conditions for triggering 1 604 (1), (2 ), the trigger switches from one stable position to another, and a sequence of bipolar pulses is formed at its output, the amplitude of which depends on the saturation levels of the output stage Yes of amplifier 1 with a peride twice as large as the period of control pulses.

Claims (1)

A TRIGGER ON an OPERATIONAL AMPLIFIER, comprising an input bus, a differential operational amplifier, the output of which is the output of the device, a first resistor, the first output of which is connected to a non-inverting input of the differential operational amplifier and the first output of the second resistor, the second terminals of the first and second resistors are connected respectively to a common bus and the output of the device, characterized in that, in order to expand the scope of application, jth, third, fourth, fifth and sixth are connected in series resistors, the first terminal of the third and second terminal of the sixth resistor are connected respectively to the inverting and non-inverting inputs of the differential operational amplifier, the common connection point of the fourth and fifth resistors is connected to the input bus of the device, the common connection point of the fifth and sixth resistors is connected to the drain of the field-effect transistor, the source of which is connected with a common bus, and the gate § is connected to the anode of the first diode, the common connection point of the third and fourth resistors is connected to the drain of the second field o transistor, the source of which is connected to a common bus, and the gate is connected to the cathode of the second diode, the anode of which is connected to the cathode of the first diode and the output of the device, the second resistor and the first and second diodes are shunted by capacitors. SU „, .1188860