SU785776A1 - Measuring ac-to-dc voltage converter - Google Patents

Description

one

The invention relates to electrical measuring equipment and can be used in universal digital voltmeters.

An alternating voltage-to-voltage measuring transducer is known, consisting of a series-connected single-half-wave medium-voltage transducer (PSZ) on the base of an amplifier with rectifying converters and a divider connected in series negative feedback and separate from the amplifier output by a coupling capacitor, a multi-link (3 link) averaging KS filter and a dc amplifier, covered by a serial negative feedback w on voltage, and. the common terminal of the divider and capacitors of the multilink averaging filter for 3 1 and 1.

The closest technical solution to the invention is an AC-DC constant-voltage measuring transducer consisting of a one-half-full-wavelength-value converter (CCD) connected in series. :

On the base of an amplifier with rectifying converters and a divider, included in the series of negative feedback and separators

5 separated from the output and input of the amplifier by dividing capacitors, multi-link (5 links), averaging QC filter, and matching DC amplifier covered by parallel negative voltage feedback, and the common output of the divider and capacitors of the multilink averaging CS is filter grounded 2.

15 The main disadvantage of this measuring transducer is the multiplicative error due to the change in the coefficient of the amplifier of the matching amplifier, caused by the instability of the filter resistors and the resistor in the feedback circuit of the amplifier.

For accurate measurements, precision resistors are used to reduce this error in the filter and the matching amplifier.

It should be noted that if the matching DC amplifier is covered by a parallel negative feedback voltage,

This complicates the circuit of the input device of the voltmeter as a whole, since this type of feedback does not provide a high input resistance of the amplifier and, for example, in the DC voltage measurement mode, it is necessary to change the type of feedback of the amplifier to serial negative feedback, which provides high input impedance voltmeter.

The aim of the invention is to increase the accuracy of the measuring transducer of an alternating voltage into a constant and control of its design.

This is achieved by the fact that the measuring transducer is variable. voltage to a constant, containing a series-wise half-wave converter of mean value on the base of an amplifier with rectifying converters and a divider connected in the negative feedback circuit and separated by an isolating capacitor, a multi-link averaging RC filter and matching amplifier direct current, the common output of the feedback divider and the filter capacitors are connected to the output of the matching dc amplifier.

. The drawing shows; schematic diagram of the device.

The measuring converter of alternating voltage to constant consists of serially connected single-half-transformer. Body 1 mean direct value (PSZ) on the base of an amplifier with rectifier, converter and divider 2, included in the negative feedback circuit and separated from the output and an input of the amplifier by dividing Capacitors, a multi-link average HC-filter 3 and a matching DC-amplifier 4, covered by successive negative feedback to the voltage, Rich general conclusion divider 2 and the multi-link capacitors yukdego averaging RC-filter 3 connected to the output of the matching amplifier d.c. 4.

The measuring transducer of an alternating voltage in a constant manner follows. AC voltage U {is fed to the inverter 1 middle of the wired values, straightened and further averaged with the help of a multilink RC filter 3, the constant voltage from the output of the filter 3 is fed to the input of the matching DC amplifier 4, covered by a deep series negative by feedback on voltage through divider 2 and resistors of RC filter 3, the connection of the capacitors of RC filter 3 to the output of amplifier 4 provides the calculated filter suppression ratio, because amplifier 4 is covered by a deep negative tion feedback, reducing its output impedance to a negligible value. It should be noted that in this measuring transducer of an alternating voltage into a permanent amplifier of a half-wave transducer 1, the average direct value can be captured not only by serial, but also by parallel negative feedback on alternating voltage. In this case, rectifier, separate converters and a divider of a parallel negative feedback circuit must be separated from the output and input of the amplifier by means of coupling capacitors.

The connection of the common output of the feedback divider and the filter capacitors to the output of a matching DC amplifier allowed improving the accuracy of the converter for using DCI as a matching amplifier of a fast-current MDI amplifier with low drift and a balanced input. Since the voltage at the summing point of amplifier 4 is zero, protection of this point with a potential-free screen allows you to eliminate the additional 1ти multiplicative error in the converter in conditions of high humidity caused by leaks to the common rail from the inverting input of amplifier 4. In the converter does not have a multiplicative error caused by a change in the gain of the matching amplifier 4 (due to the instability of the resistors of the feedback circuit divider), due to the fact that in the unit, the divider is not needed. Simplification of the converter design is achieved as a result of the fact that the filter 3 resistors are chosen to be non-precision and cheap (for example, of the MLT type), which will give a tangible economic effect during the serial production of the device, which used this invention

The application of the invention makes it possible to increase: the accuracy of measuring the alternating voltage in a small-sized device to + 0.2%, to simplify the converter and the input device of a voltmeter, to make the device more childlike.

Claims (1)

1. Technical description and operating instructions of the V7-16 I22 / 710 voltmeter, 002. THAT, 1977. 2 .Technical description and. Instructions for operation of GB2. 728.007.TO, 1978.