SU467280A1 - Method for measuring electrical and non-electrical quantities - Google Patents

Description

The invention relates to the field of measurement technology, mainly to the field of digital measurements of electrical and non-electrical quantities.

Methods are known for measuring electrical and non-electrical magnitudes based on converting an algebraic sum of measured and reference values into an intermediate signal.

The proposed method differs from the lime in that it periodically changes the value of the reference magnitude and measures the transmission of the intermittent signals received by xT about and after this change.

These distinctive features make it possible to increase the measurement accuracy without switching the measured magnitude.

The complexity of the described method is as follows. The equation for converting the quantity x to an intermediate quantity L can be represented as А К (хо + х), where Xo is the value of the support quantity, / С is the steepness of the transformation.

The measurement of the magnitude A makes it possible to unambiguously determine the value of the measured value, however, the accuracy of the measurement is not high enough because of the influence of the instability of the steepness and transformation on the measurement result.

This effect is eliminated by the well-known multiplicative correction methods,

they provide for switching of a measurable value, which is impossible or difficult in some cases.

Let NMR: the weft signal before changing the nominal value of the reference value is:

L, K (PHO -f L).

and after the change

A K (HR (, + x).

Then the result of the measured ratio of the first intermediate signal to the second one does not depend on the steepness of the transformation / C, and consequently, on its instability.

The drawing shows a functional diagram of a voltage meter that implements the proposed measurement method, where 1 is the source of the measured nanometer; 2, 3 - - input terminals of the meter; 4 - key; 5, 6 - resistors; 7 - reference voltage source; 8 - voltage converter - frequency; 9 is a measure of the ratio of two frequencies separated in time.

The meter works as follows.

In the nerve measurement cycle, the key 4 is open, and the converter 8 has a voltage equal to the algebraic sum of the measured voltage and the part of the supporting voltage, determined by its ratio of resistors 5 and 6. The frequency A, corresponding to this

the voltage goes to the meter 9, and the result, iproportional AI, is recorded in its memory.

In the second cycle, the key 4 is closed, and the converter 8 operates with the algebraic sum of the measured and supported parameters. Frequency / b is fed to the meter 9, which issues a code proportional to the ratio A, l A ,.

Thus, an increase in the measurement accuracy of the proposed method of drying has been achieved; without commutation of the measured value.

Subject invention

A method of measuring electrical and non-electrical values, based on converting an algebraic sum of measured and reference values into an intermediate signal, characterized in that, in order to improve the measurement accuracy without switching the measured value, periodically change the value of the reference value and measure the ratio of intermediate signals, received before and after this change.