SU744369A1 - Complex resistance component stroboscopic meter - Google Patents

Description

This is achieved by the fact that, in a stoooscopic meter, the components of the com- munor resistance consist of a reference generator, a reference resistor, one of the conclusions of which is via a switch:, ;-; a strobe and a converter and an onsraciation amplification unit. 11C, and the other is connected to one input terminal and to the signal channel of the stroboscopic converter, the first terminal is connected to the operational amplifier, the input divisor divider, two two-way divider, two two-way input divider, two separate connectors; two amplifiers: I am unsigned, a video amplifier and a calibrator of sustained voltage, and the on-off generator is connected to a controllable divider, the output of which is connected to a low-duty load, the other output of which is Connected to the common bus and other input terminal of the device and to the reference resistor, the DC voltage calibrator is connected to the first and second differential comparator, the second input of the first of which is connected to one input terminal, and its output is connected to the first through the output terminal another input of the controlled divider, the second input of the second differential comparator is connected directly to the input of the computing device and through the video amplifier with the output of the signal channel of the stroboscopic converter verters, and its output via a second amplifier nekompeisatsii connected to the control input of video amplifier.

The drawing shows a structural diagram of a stroboscopic meter for the components of the impedance.

The stroboscopic impedance component meter contains a reference generator 1 connected to a controlled divider 2, the output of which is connected to a low-impedance load 3 to the reference channel of the stroboscopic converter 4 and through a reference resistor 5 to the input terminals for connecting an unknown impedance 6, as well as to a differential the comparator 7 and to the signal channel of the stroboscopic converter 4, the constant voltage calibrator 8 is connected to the first 7 and second 9 differential comparators, the output of the first 7 of which is connected via the first non-compensation amplifier 10 to another input of the controlled divider 2, the output of the second differential comparator 9 is connected via the second non-compensation amplifier 11 to the control input of the video amplifier 12, its second input is connected to the output of the signal channel of the stroboscopic converter 4, and the output is connected to the differential comparator 9, the operational amplifier 13 and the computing unit 14, the second

the KOTopojij input is connected to the output of the opera; ioi amplifier 13, in addition, the output of the reference channel of the i-core converter 4 under; lx: -1en to another} - lixo the operational amplifier 13.

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controversial generator 1, comes through y; ra: 5 lm: th divider 2 and a chain, consisting of one standard of the resistor 5 and from:; er elgo impedance 6.

L.1L1 tudio-phasic ratio of b: low-frequency 11apr: cap1 th. separated by a reference resistor o and 1 of the measured impedance, are transferred by the stroboscopic transducer 4 and the fixed frequency of the reference signal. And

the transfer coefficient of the converter must be equal to one. In the operational amplifier 13, a component is formed and an injector 1Lb is separated from the reference resistor.

Knowing the amplitude of the n phase between the two voltages V ,,, it is not difficult to determine in the computing device 14 the components of the complex resistance. However, in the signal channel of the stroboscopic converter, there is a significant incidence of a change in the constant charging time of the capacitor with an open bridge assembled on the diodes at the time of gating with a wide change in the measured resistance.

To eliminate this error, the input high-frequency signal is fed to the differential comparator 7, krskme

moreover, it is supplied with a constant voltage, taken from the output of the DC voltage calibrator 8. In the case of the inequality of these voltages, the non-compensation voltage, amplified by the amplifier 10,

is applied to the control input of unit 2. As a result, the amplitude of the voltage across the measured impedance changes until full compensation occurs. In this case, the amplitude of the high-frequency signal allocated at impedance 6 will be equal to the constant voltage taken from the calibrator 8. This same constant voltage goes to the second differential comparator 9,

which is compared with the converted intermediate voltage of a low fixed frequency. If these voltages are not equal, a non-compensation voltage arises at the output of the comparator 9,

which is amplified by amplifier 11 and affects the ratio of the video amplifier to full compensation. In this case, the conversion error is determined by the error of the differential

comparators.

Claims (1)

Claim A stroboscopic complex resistance component meter containing a reference generator, a reference resistor, one of the outputs of which is connected to an operational amplifier through the reference channel of the stroboscopic converter, and the other is connected to one input terminal and to the signal channel of the stroboscopic converter, the computing unit, the first input of which is connected to the output of the operational amplifier, characterized in that, in order to increase the accuracy of measurement, a controlled divider, two differentials are introduced into it a social comparator, two non-compensation amplifiers, a video amplifier, a constant voltage calibrator, and the reference oscillator is connected to a controlled divider, the output of which is connected to a low 5th load, the other terminal of which is connected to a common bus and another input terminal and to a reference resistor, a constant voltage calibrator connected to the first and second differential 10 comparators, the second input of the first of which is connected to one input terminal, and its output through the first non-compensation amplifier is connected to another the input of the controlled divider, the second input of the second 15 differential comparator is connected directly to the input of the computing device and through the video amplifier to the output of the signal channel of the stroboscopic converter, and its output through the second non-compensation amplifier 20 is connected to the control input of the video amplifier.