SU767666A1 - Method for measuring parameters of differential transducers - Google Patents

Description

(54) METHOD OF MEASURING DIFFERENTIAL PARAMETERS

CONVERTERS

one

The invention relates to the field of measuring technology and can be used in automatic control systems and in measuring instruments of universal and special value.

The known method consists in the fact that simultaneously a constant voltage {bridge} containing a differential converter and a spreading function forming device compare the increased voltage of the unbalance of the bridge with the voltage representing the spreading function and the measuring interval from the moment of switching on constant voltage until the moment of equilibrium of the bridge expansion ratio and sweep function, and the measured parameters of the differential are determined by the value of the measuring interval a social converter (l.

. The disadvantages of this method are the impossibility of measuring alternating relative parameter increments, as well as low measurement accuracy due to the instability of the gain factor of the unbalance signal of the bridge and the instability of the elements of the device for developing a spreading function.

The closest technical solution to the invention is a method 5 of measuring the passive parameters of electric circuits, based on the study of a transient process in a measuring circuit containing active and reactive elements, consisting

10 in that a linear-varying voltage is simultaneously applied to the measuring circuit and the resistive voltage divider, the moment of equal stress on the average measuring circuit and the divider is determined, and the time interval proportional to the measured parameter 2 is determined.

The disadvantage of the method is low accuracy and sensitivity of measurement. The measurement accuracy is low due to the dependence of the conversion function on the elements of the resistive divider, the instability, the irregularity of which leads to the appearance of significant

25 errors.

The purpose of the invention is to improve the accuracy and sensitivity of the measurement.

Claims (1)

The goal is achieved by the method of measuring napaMej30 differential transducers simultaneously serving unequal distorting effects on each of the arms of the differential converter, thus forming a diverging raster formed by two output electrical signals of the converter that are not equal to each other in time. and include one or several parameters of disturbance. After a predetermined time interval has elapsed, the parameters of disturbing influences are changed so that the ratio between the above-mentioned derivatives changes to the opposite, and the electrical outputs of the converter form a converging raster, separate the measuring interval from the moment of changing the parameters of the resulting effect to the converter output signals and determine the parameters to be measured by the measurement interval. For capacitive transform; | at . a step-varying current is supplied to the stimulating influence, a step-varying EMF is supplied for an inductive converter, for a resistive converter, a 1-piece piece is supplied: current or voltage. FIG. 1 shows a linear raster formed by two OUTPUTS of the converter signals, in FIG. 2, and the functional diagram of the device that implements the proposed / 1 st method is shown; The 26-d depicts the principle schematics of a number of differential converters. According to the method, each of the arms of the differential converter to an arbitrary one, taken at the beginning of the reference, the time is served by disturbing effects such that the parameters perturbing the spine affecting one of the shoulders are not equal to the parameters affecting the other shoulder. The shape and type of impacting parameters are chosen depending on the differential converter Tp. Perturbing parameters ::, it: effects that set the initial angle of the raster, are the magnitude of the stage or the angle of inclination, respectively for the stage or linearly varying effect. As a result, linearly varying signals (current or voltage) are generated at the outputs of the converter (PO-G4-V fi) -b; where k and kj. - parameters of perturbing actions, and Р (Пд) Р (izgestny functions of measurable parameters of the differential conversion I, I, P, measured parameters, respectively, of the first and second arms of the differential converter. From the expression (1) it is clear that the output time The signals of the converter are functionally limited both by the parameters of the disturbed influences and by the measured parameters., Parameters and Kg are chosen in such a way that throughout the entire range of change, P, and P, for example, the equation is satisfied. 4 (p,) (Pgg (S) done condition (2) Tl, and R express the divergent raster (Fig. 1.). After a given interval of T has expired, the parameters of the disturbing influences are changed in such a way that 1 12.1, signals (no-T , (n,) (tT,) T, (n). (n,) (iT). As can be seen from expressions (3) and (4), the ratio between the production of time and output signals is the opposite, that is, CP,) 4K; -F (P,), (5) a vary. The output signals form a converging raster (Fig. 1) At tt, 2, from the expressions (6) and (4) are found Td-T. .a РШг r,) where the measurement interval. FIG. 1, the solid line depicts a raster corresponding to the balance of the transducer arms, with T% dashed-dotted lines of the output signal raster when the shoulders of the differential transducer are balanced, as for n, 7n, T j-Vj-t, i.T ,. and at P ,. P, - H - -. The functions of the measured parameters of the differential converter are: for a capacitive converter. (for the inductive transducer 9Ln): l / L for the resistive double-arm transducer F (P) K. Substituting expression (8) into expression (7), an expression describing the conversion function is obtained; for which, as an informative parameter of the output value, the ratio of the difference between the specified and measuring intervals to their sum is taken, and the input parameter is shoulder differential converter. So for a capacitive converter, in which P, -C-C: o-1- s. we have. WITH, . .CiKr i-iCo Similarly, expressions can be obtained for inductive and resistive converters. A device that implements this method consists of a generator 1 of a predetermined time interval T (for example, a one-shot), a modulator 2 of one or several parameters of disturbing influences, two generators 3 of excitation effects, a differential converter 4, a comparison unit 5 (current comparator or voltage), the calculator 6.. The operation of the device will be considered for the case of measuring the parameters of the four shoulder resistive differential converter (Fig. 2e) for which the following ratios between the individual elements are valid. four,., . , RotuR. From the moment of starting the shaper 1 of a predetermined interval T, the generators 3 exciting stimuli are supplied to the inputs ay and ag of the differential converter 4 linearly and varying voltages. At the same time, the output signals of modulator 2, the angle of inclination K-, of the voltage applied to one of the inputs of converter 4, is set to a large (varying) angle of inclination of the voltage supplied to the other input. At the outputs of a four-arm differential resistive converter 4 V. signals and p o-D - TVTV + vbR and are developed:. C. - --i: I b1 a-i. Uaf- “at. where ai are the output voltages of the first and second generators, respectively. Since KI Cg) signals Utj and 1), 1 image is a comfort divergent raster, b after the expiration of the specified time interval T on the command of the single vibrator 1 the modulator 2 responds to the inputs of the generators 3 and changes the angles of the slope of the output linearly varying voltages, so that at 17T., (tT;), and the output signals of the converter 4 -.V 1 4f-4 5 | ,) Lg rm 2-R 1- - THU and form a converging raster. The output signals U and Uy are supplied to a comparison unit 5) which at the time, corresponds to equality and and U-b generates a pulse applied to one of the inputs of the calculator 6, and to the other input of which the pulses corresponding to the beginning of the measurement and the moment t T are given. The calculator 6, processing a sequence of pulses, produces an output signal L whose value linearly depends on the measured value L. (the relative change in the resistance of the arms of the differential converter). The proposed method combines the main advantages of both developmental and differential measurement methods. The use of the method will allow to increase, by no less than 20 times, the sensitivity of measuring the parameters of differential transducers of various types widely used for measuring various quantities (deformation, displacement, pressure, etc.). Claim 1. Method for measuring parameters of differential transducers, based on supplying a disturbing action to a measuring circuit and allocating a measurement time interval proportional to the parameter being measured, characterized in that, in order to determine the accuracy and sensitivity of measurements, each of the arms of the differential transducer is simultaneously applied unequal perturbations, thereby forming a divergent raster formed by two output electrical signals A body whose time derivatives are not equal to each other and include one or several parameters of a disturbing action changes the parameters of the disturbances of their effects after a predetermined time interval, so that the ratio between said derivatives changes