SU1431020A1 - A.c. to d.c. voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used to accurately convert an alternating voltage to a constant proportional to the average values of the signals that have ELECTRONIC and dynamic frequency ranges. The purpose of the invention is to improve the accuracy of preg formation in the lower frequencies. The device contains resistors 2,3 connected between the input terminal 1 and the electron key, for example, diodes 4,5, which are connected to the output point of the capacitors 8.9, connected by a capacitor 7 to the output of the operational amplifier 6. The inverting input of the amplifier 6 free pins connected respectively to the anode of diode 4 and cathode of diode 5. Thanks to the negative feedback circuit at a point, the capacitor connections 8.9 are close to zero, there are constant voltages across the resistors 2, 3 five capacitors odinakovsh current passes and the input portion of the device is symmetrical. As a result, the error of the total AC current and the output DC voltage is fully compensated. 1 hp f-ly, 1 ill. (L

Description

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 The invention relates to electrical engineering and can be used in devices that require accurate conversion of alternating voltage into a constant proportion to the average rectified value of signals having large dynamic and partial ranges.

The purpose of the invention is to improve the accuracy of conversion to lower frequencies.

The drawing shows the scheme of the proposed device

The variable voltage to DC converter contains an input pin 1, to which some BblBOV

Dami 2.3 connected resistors, connected respectively with electronic switches, such as diodes 4,5o. The output of the operational amplifier 6 is connected via a capacitor 7 to the common connection point of the diodes 4.5. The inverting input of the operational amplifier 6 is connected to the common connection point of capacitors 8.9, the free terminals of which are connected, respectively, to the anode of diode 4 and the cathode of the diode -Sj and also to the output 1-sh output No. 1 10 and 1 1 o. with a common OUTPUT 111 12.

The converter works as follows.

Let the electronic switches 4 and 5 be semiconductor diodes, with the cathode of the first 4 to the anode of the second 5 diode switches connected to the capacitor 7, and the first and second resistors 2 and 3, as well as the first and second capacitors 8 and 9 have the same value. Due to the negative feedback circuit of the operational amplifier at a common point of the first and second capacitors 8 and 9, a voltage having a voltage close to zero is maintained. With medium and high frequency input signals, alternating voltages on the first and second capacitors 8 and 9 can be considered equal to zero. Consequently, the first and TWO resistors 2 and 3 have an input alternating voltage and alternating current flows through these resistors. Due to the negative feedback circuit of the operational amplifier, this alternating current passes through diodes 4 and 5, where the indicated current is rectified. Some current half-cycles pass through the first resistor 2, and others through the second resistor 3, creating output constant voltages on these resistors.

With a low-frequency input signal on the first and second capacitors 8 and 9, there may be a significant voltage ripple. The variable components on the capacitors 8 and 9 have

0 is exactly the opposite, because the common point of the capacitors 8 and 9 has zero potential and the same current flows through these capacitors and the input part of the converter is symmetrical.

Thus, the error of the total alternating current, and consequently, the output constant eg. marriages are fully compensated.

In order to achieve the smallest sensitivity of the transducer's transfer ratio to the ratio of resistors 2 and 3, it is advisable to take the output voltage off between the second

5 pins of these resistors.

Formula inventions

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Claims (2)

1. AC to DC converter containing input, output, and common terminals, respectively, the first and second resistors, each of which is connected to the input terminal by one output, connected first and second diodes in series, free views of the anode and cathode, respectively which are connected to the free voltages of the first and second resistors, respectively, three capacitors, of which the first is connected to the anode of the first diode by one, the second is connected to the cathode of the second diode by one, and the third one is connected to the common point of connection of these diodes, and the operational amplifier, the non-inverting input of which is connected to the common output, and its inverting input and output are connected respectively to the free terminals of the second and third capacitors, and the cathode of the second diode is connected to the output output, differing in that, in order to increase the accuracy of the conversion at lower frequencies, the free output of the first capacitor is connected to the inverter's inverter input. five 0 .j14310204 2. The converter according to claim 1 of which is formed by the first resistor, which is supplemented by the fact that the common point is the output terminal. anode connections of the first diode with