SU1094122A1 - Differential rectifier - Google Patents

Abstract

DI FERENTIAL RECTIFIER, containing two input sources, two transistors, the collectors of which are connected to opposite terminals of a load resistor and a capacitor connected in parallel to it, the base of the first transistor connected via a series-connected first resistor, a potentiometer and a second resistor with a base of the second transistor, the middle output of a potentiometer connected to a common bus, characterized in that, in order to increase stability, dBa operational amplifiers are introduced into it, the power source and the third and fourth resistors, with the output of each operational amplifier connected to its own inverse input and through the corresponding third or fourth resistor to the emitter of the corresponding transistor and to the first output of the corresponding input source, the second output of which is connected to the non-inverse amplifier, (L the power supply inputs of the operating amplifiers are connected to the corresponding power supply outputs, the middle output of which is connected to the common busbar

Description

The invention relates to automation and can be used to determine the amplitude of a pulse signal. A device is known that contains two diode bridges and an adder l. The disadvantage of the device is its low stability. It is also known a device containing two sources of input signals, two transistors, the collectors of which are connected to opposite terminals of a load resistor and a capacitor connected in parallel to it, the base of the first transistor is connected via a series-connected first resistor, potentiometer and second resistor to the base of the second transistor connected to the common bus, the emitters of the transistors are connected via a corresponding input source to the common bus 2. The disadvantage of the device is its low stability. The aim of the invention is to increase stability. The goal is achieved in that a differential rectifier containing two input sources, two transistors, the collectors of which are connected to the opposite phase terminals of the load resistor and a capacitor connected in parallel to it, the base of the first transistor connected through the series-connected first resistor, potentiometer and the second resistor The base of the second transistor is connected to the common bus; two operating amplifiers, a power source, the third and fourth fourth The sources, each output of the operational amplifier is connected to its own inverse input and, via a corresponding third or fourth resistor, to the emitter of the corresponding transistor and to the first output of the corresponding input source, the second output of which is connected to the non-inverted input of this operational amplifier. connected to the corresponding power supply terminals, the middle output of which is connected to the common bus. The drawing shows a block diagram of a differential rectifier. The differential rectifier contains power supply 1, sources 2 and 3 of input signals, operational amplifiers 4 and 5, transistors b and 7, resistors 8-11, potentiometer 12, load resistor 13 and capacitor 14, with collectors of transistors 6 and 7 connected to antiphase pins of a resistor 13 and a capacitor 14 connected in parallel to it, the base of the transistor b is connected via a series-connected resistor 8, potentiometer 12 and resistor 9 to the base of transistor 7, the middle terminal of potentiometer 12 is connected to a common bus, the output of amplifiers 4, 5 are connected en inverted inputs respectively, and through resistors 10 and 11 - with the emitters of transistors 6, 7 and the first terminals of the sources 2 and 3, the second terminals of which are connected to the noninverse input amplifiers 4 and 5 respectively. The device works as follows. When the supply voltage is connected to the amplifiers 4.5 and the signals from sources 2 and 3 are fed through the base resistors 8 and 9 and potentiometer 12, currents flow (in half a period corresponding to the open state of the transistors) proportional to the input voltage and inversely proportional to the nominal value of the resistors 10 and 11. In the other half period, transistors b and 7 are locked. Since the amplifiers 4 and 5 are converters of input voltage to current, and this current does not depend on the values of resistors in the base circuit of transistors 6 and 7, this means the emitter-base voltage of transistors b and 7 is stable and does not depend on temperature the environment. Consequently, the voltage on the capacitor 14 tends to a value of Y10g: 5d & 2M & 5 ,. where Ugji, is the output voltage of the device; voltages at the base collectors of the transistors b and 7; J (5, is the base current of transistors b and 7; resistances in the circuits of the bases of transistors 6 and 7. It is assumed that the difference in magnitudes, taken in parentheses, tends to zero, it is easy to determine the magnitude of the transfer coefficient of the differential rectifier. It is equal to. What follows is that the magnitude of the transfer coefficient in the rectifier is the ratio of the values of the resistors in the base circuit to the resistors in feedback. This value can be selected from 10-1000. Thus, the output signal of the proposed differential rectifier does not depend on temperature and other vozm -rotating impact and, c; 1edovatelno significantly increased stability differential rectifier.

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Claims (1)

A DIFFERENTIAL RECTIFIER containing two input sources, two transistors, the collectors of which are connected to opposite terminals of the load resistor and a capacitor connected in parallel to it, 'the base of the first transistor connected through the first resistor, the potentiometer and the second resistor connected to the base of the second transistor, the middle output a potentiometer connected to a common bus, characterized in that, in order to increase stability, it is introduced Dea operational amplifier, power source, tr the third and fourth resistors, the output of each operational amplifier being connected to its own inverse input and through the corresponding third or fourth resistor to the emitter of the corresponding transistor and to the first output of the corresponding input signal source, the second output of which is connected to the non-inverse $ g input of this operational amplifier, the operational inputs of the operating amplifiers · ^ pey are connected to the corresponding terminals of the power source, the middle terminal of which is connected to a common bus