SU1167530A1 - Meter of parameters of complex impedance - Google Patents

Abstract

MEASURING PARAMETERS OF COMPLEX RESISTANCE, containing a power source, the output of which is connected to series-connected, an exemplary resistor and one of the terminals for connecting the measured impedance, the first converter of phase difference of alternating voltages into a digital code, the signal input of which is connected to one of the terminals to connect the measured impedance, the other of which is connected to the common bus, and the reference input is connected to the output of the power source, the computing unit, one of the inputs of which is connected to the output of the first transformer of the phase difference of alternating voltages into a digital code, characterized in that, in order to increase the measurement accuracy by eliminating the error caused by the instability of the amplitude of the output voltage of the power source, it provides the second transducer of the phase difference of variables g voltages (L digital code, the signal inputs of which are connected to two terminals of the reference resistor, the reference input is connected to the output of the power source, and the output is connected to the second input computing unit.

Description

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SP

The invention relates to electrical measuring equipment, in particular to the measurement of parameters of complex alternating current values. The aim of the invention is to improve the accuracy of measurement of the parameters of the impedance by eliminating the error caused by the instability of the amplitude of the output voltage of the power source. FIG. 1 shows a functional diagram of the device; in fig. 2 is a vector diagram of voltages in the measuring circuit of the device. The impedance meter contains a power source (sinusoidal voltage generator) 1, the output of which is connected in series by the resistor 2 and the measured impedance Z.-To the resistance 3 and resistor 2 are connected the signal inputs of the first 4 and second 5 transducers of the difference phases of variable voltages in a digital code. The reference inputs of converters 4 and 5 are connected to the output of source 1. The outputs of converters .4 and 5 are connected to the inputs of the computing device 6. The principle of operation of the device is as follows. When the measuring circuit is powered from alternator 1 by alternating voltage with amplitude Up on sample resistor 2 and measuring complex impedance 3, voltage drops U and and respectively v.vi are created: i and i, where Ujj and i are the amplitudes of complex voltages and Uj, tp are the phase angles of the vectors Ujj and U relative to the vector U (Fig. 2). It is obvious that "xy". The impedance is equal to ZRR (1 X Uoo Ufl where R is the resistance of the reference resistor 2. The impedance parameters Zj, for example, J is its modulus 7, and the phase angle 9 (Z; (), as seen from (1), is equal to Z - R - Y-S-Zx-RO n; 0 (|,. (2) As can be seen from Fig. 2, the angle 0 is equal to S ×, 4 Cf (3) where Cf, (pp and output values of the converters 5 and 4. The module is integrated resistance, as follows from (2), is equal to Y 0 sinq-z as from AAOO (Fig. 2) according to the sine theorem U "/ Uo sinif, / syntfzCp, and {jp converters 4 and 5 according to expressions (3) and (4). If you need to measure other parameters of the impedance, such as its active and reactive I..Z ... components. CH 1 -. Vffe cos (c, .c ,.), V (, the calculation program changes the computing device without changing the analog part of the meter. Since in the proposed device the output values of converters 4 and 5, which are used to calculate the required parameters of the complex resistance, are proportional to the difference phase variables for example s on the signal and the reference inputs and not zavisutt amplitudes of these voltages, the instability of these amplitudes, amplitude instability induced voltage source 1, the accuracy of measurement does not affect. Compared to prior art devices, the proposed method allows to measure the impedance parameters with higher accuracy. Reduced stability requirements of the voltage amplitude of the power supply allow the simplified sinusoidal voltage generators to be used in the proposed meter and make it possible to use the proposed device to accurately measure the dependence of the object impedance parameters on the amplitude of the applied voltage.

to it. AC voltage as well as to measure the impedance parameters in the frequency range.

Claims (1)

COMPLEX RESISTANCE METER, containing a power source, the output of which. connected to series connected. exemplary resistor and one of the terminals for connecting the measured complex resistance, the first converter of the phase difference of the alternating voltages into a digital code, the signal input of which is connected to one of the terminals for connecting the measured complex resistance, the other of which is connected to a common bus, and the reference input is connected to the output a power source, a computing unit, one of the inputs of which is connected to the output of the first converter of the phase difference of the alternating voltages into a digital code, characterized in that, with In order to improve the measurement accuracy by eliminating the error caused by the instability of the amplitude of the output voltage of the power source, it is equipped with a second phase difference converter of variable voltage to digital code, the signal inputs of which are connected to two terminals of the reference resistor, the reference input is connected to the output of the power source, and the output is disconnected with the second input of the computing unit. 1167530 A '1167530