SU752197A1 - Transformation coefficient meter - Google Patents

Description

one

The invention relates to the field of electronic measurements and can be used to measure the transformation ratio of transformers used in various electronic devices.

A device for measuring the transformation ratio is known, whose operation is based on the principle of compensating the output voltage of a transformer in modulus and phase, containing serially connected indicator zero, a variable voltage divider, phase compensator. And measuring a transformer 1

However, such a device provides a low measurement accuracy when the edges are compensated for being compensated or compensated with ignals, since in this case it is impossible to achieve complete compensation of the output voltage of the transformer.

When working with this device, it is necessary to compensate the output voltage of the measured transformer by two napcU-ieTram: modulo and phase, which reduces labor productivity.

Closest to the proposed transformation ratio meter, containing a measuring generator connected to a variable voltage divider and a measured transformer, the outputs of which

5 are connected to an input switch connected in series with an amplifier, an amplitude detector, an output switch, and a zero indicator 2.

The measurement of the transformation ratio of this device is based on the principle of alternately amplifying and rectifying signals from the measured transformer and variable voltage divider, with subsequent compensation and comparison of these signals. The sequence of amplifying, rectifying, and connecting signals to the zero indicator is provided by synchronous input and output switches.

However, the accuracy of measuring the transformation ratio of such a device is affected by the accuracy of the switches. The scatter of switch parameters causes nonsynchronous switching and the inequality of the time intervals of the switches in opposite states.

30 Even insignificance is insignificant.

leads to a large measurement error. The inequality of these intervals leads to the inequality of the time intervals for connecting the indicator zero to the sources of the compared signals, which is also a measurement accuracy. Accuracy (measurement also depends on the choice of the switching frequency of the switch on the oscillators. This frequency should be many times Smaller than the frequency of the measuring generator, which is not always; aa is satisfiable by the condition of the precise operation of the zero indicator.

In addition, for the determination of the polarity of the windings, the use of special additional elements which are not related to the determination of the transformation coefficient is required. This is a short-term comparison unit, included in front of the input switch, which produces a short-term comparison of the instantaneous values of the compared signals, and a polarity indicator, turned on at the output of the amplitude detector., Used to record the results of the short-term comparison of instantaneous values. signals. The operation of the short-term comparison unit in determining the polarity of the windings occurs even though short moments, but still requires a certain length of comparison time intervals, the value of which affects the accuracy of the transformation ratio. Thus, the process of determining the polarity of the windings introduces an error in the accuracy of the transformation ratio .

The purpose of the invention is to simplify and improve the accuracy of measurement of the transformation ratio.

This goal is achieved by the fact that, in a transformation ratio meter containing an amplifier, an indicator zero, a measuring generator connected to the inputs of the measured transformer and a variable voltage divider, whose outputs are connected to the short-time comparison inputs, the driver of which is connected, the driver input connected to the output of the measuring generator, and the output of the short-term comparison unit is connected via an amplifier to the zero indicator.

Connecting the Shaper input to the measurement generator allows you to synchronize the operation of the driver with each half-wave square wave oscillation of the measurement generator; a.

Synchronization of the pulses of the imager allows you to include a block of short-term comparison and to make a comparison of signals at time points, corresponding to the average

parts of the half-wave of the compared signals, that. makes it possible to compare signals by their amplitude values, reduce the errors introduced by distorted signal edges, and compensate the signals with greater accuracy, as well as determine the polarity of switching on the currents of the measured transformer. The use of rectangular oscillations as a measuring generator makes it possible to eliminate the measurement error from the phase shift of the compared signals caused by the phase error of the measured transformer. Performing a meter without switches also improves measurement accuracy and simplifies the device.

In the drawing, shows a structural diagram of the measuring instrument of the coefficient of transformation.

The device contains measuring oscillator 1 of rectangular oscillations, measured transformer 2, for example, step-down with two windings - primary and secondary, variable divider 3 voltage, short comparison unit 4, driver 5, amplifier b, indicator 7 zero, containing a pointer device with zero in the middle of the scale.

The meter works as follows.

When the measured transformer 2 is correctly switched on, when the marking of the device clamps corresponds to the beginnings and ends of its corresponding windings, from its output, the voltage is applied to the short-term comparison unit in phase with the voltage of the measuring generator 1, coming through the variable voltage divider 3. At the output of the short-term comparison block switched on by the shaper 5, the signal is absent if the amplitudes of the compared signals are equal. When these signals are not equal, the output of the short-term comparison unit appears to be more intense, equal to the difference of the cpaBHHsaei QJX signals. The former generates pulses to control a short-term comparison unit, the duration of which is several times shorter than the duration of the measuring generator, and the midpoints of the generated pulses correspond to the midpoints of the measuring generator of one specific polarity.

Thus, the shaper 5 includes a block 4 of short-term comparison in short periods of time, corresponding to the middle parts of the half-waves of rectangular oscillations of the measuring generator 1. At the same time, the phase deviation of the compared signals, obtained by the phase

Claims (1)

Claim Transformation coefficient meter containing an amplifier, a zero indicator, a measuring generator • connected to the inputs of the measured transformer and an alternating voltage divider, the outputs of which are connected to the inputs of the short-term comparison unit, to the control input of which a shaper is connected, characterized in that, in order to simplify and increase accuracy of measurement, the input of the driver is connected to the output of the measuring generator, and the output of the short-term comparison unit is connected through an amplifier to the indicator zero .