SU248843A1 - DEVICE FOR MEASURING RELATIVE CHANGES OF ELECTRIC PARAMETER RADIO DETAILS - Google Patents

Description

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The invention relates to the field of electrical measuring equipment.

A device for monitoring and sorting radio components that is highly productive "is sufficient for the purpose of monitoring and sorting accuracy, based on the principle of measuring the electrical parameter of the radio component under study using a dynamically balanced automatic bridge. The comparative leverage of the latter includes a logarithmic model element with a slider mechanically connected to a magnetic drum, which, in conjunction with the walking universal magnetic head, functions as a continuous random access memory device.

When measured by a known device, there is a methodological measurement error due to the use of a logarithmic model element and an increasing dependence associated with the measured value, as a result of which the upper limit of the measurement range of relative changes is limited by the specified measurement accuracy. With a given value of permissible relative measurement error of 0.005, the upper limit of the measurement range of relative changes, at which the methodical error does not exceed a specified value, is in the order of 0.01.

The aim of the invention is to extend the measurement range of the relative changes in the electrical parameter of the radio components with a certain specified measurement accuracy.

This is achieved by the fact that in the device d and l for measuring relative changes, an incremental method error compensation block is inserted that contains a decoder-driver of the trigger signal, switched on at the output of the digital converter, a switching generator of compensation pulses, allowing and prohibiting the inputs of which are connected to the outputs of the generator-driver and valve converter circuit, and the output - with the INPUT of the conversion device of the digital converter.

Using the principle of com pensation of methodical error allows to significantly expand the upper limit of the range of measurement of relative changes. Under the condition that the permissible error is maintained, not exceeding the value of 0.005, the introduction of compensation allows the measurement range of relative changes to be expanded to a value of the order of 0.1, i.e., about 10 times.

The drawing shows a diagram of the device.

It contains an action chamber 1 in which the radio components 2 under study are placed; sources 3 n 4 influencing factors controlled by a given device with a special device 5. Measuring unit 6 is made according to a dynamically balanced automatic bridge circuit, in the arm of which comparison there is a logarithmic model element (not shown) with a slider. The latter is mechanically connected to the magnetic drum 7, which, together with the walking universal magnetic head 8, performs the functions of a continuous random access memory device. The digital time-pulse converter includes a valve circuit 9, a generator W of marker pulses, synchronized with the frequency of rotation of the magnetic drum, and a scaler AND, which is a four-tetrad (decade) binary-ten pulse counter. At the output of the scaler, a digital indicator 12 and a trigger decoder J3, consisting of a coincidence diode circuit and a pulse amplifier, are included. The output of the decoder-generator is connected to the enabling input of the switched generator 14 compensation pulses, consisting of its own generator and switching device, prohibiting the input of which is connected to the output of the gate circuit, and the output - to the input of the pulse tip 15 of the digital converter. As an accumulator of impulses, we can use various devices that provide us with the memorization and storage of the time-impulse correction code for a certain time. In this case, an impulse | B drive is considered, based on the magnetic recording of the pulse code on one of the tracks of the magnetic drum. The required storage time is determined by the distance along the recording track between the recording and reproducing heads.

As the calculations showed, the dependence of the methodical error on the measured relative change at large values of the measured value is close to linear. The latter circumstance is used to automatically compensate for the methodological error by introducing into the measurement result an amendment equal in absolute value and opposite in sign to the value of the methodical measurement error for a given value of the measured relative change in the electrical parameter.

The device works as follows.

After the tested radio component 2 was held for a certain time in chamber 1 under the initial conditions determined by the action of source 3, block 6 measures the initial value of the electrical parameter of the radio component and simultaneously records the measurement as a mark of the rotation angle of the slider of the logarithmic model element corresponding to the moment of dynamic equilibrium of the bridge, on the track of the magnetic drum 7. Then using device 5 opens the access of the acting source 4 to the chamber /.

After a certain time, which is sufficient to establish the final value of the electrical parameter of the studied radio component, the final value of the parameter is measured and the previously measured initial value recorded

on the track of the magnetic drum. As a result of these operations, the input of the valve circuit 9 of the digital .time pulse converter from the measuring unit b and from the universal magnetic head 8

start-stop pulse. The time interval between them is proportional to the difference in the angles of rotation of the movement, the logarithmic model element corresponding to the initial and final values of the monitored parameter, and, consequently, to the measured relative change in the electrical parameter.

Simultaneously with the measurement of the time interval, in mo, moment, when the measured value

reaches a certain value at which the methodological measurement error exceeds the permissible value, the decoder / 5 of the trigger signal, included at the output of the counting device 11,

generates a pulse signal which is supplied to the permitting input of the switched generator of 14 compensation pulses, the generation frequency of which is determined by the linear dependence A (bR) th (bR), where A (bR) is

approximation of methodical measurement error; dR is the measured relative change of the electrical parameter. At the moment corresponding to the end of the measurement, according to the signal arriving at the prohibitory input

from the gate circuit 9, the compensation pulse generator stops its operation. As a result, after the end of the measurement cycle, the digital indicator 12 of the digital converter recalculation device represents the result of measuring the relative change in the electrical parameter of the radio component under study with a methodological error determined by the dependence D (BS) (8P), and in the accumulator 15 pulses during the time interval from the start of the generator compensation pulses before it stops fixes the time-pulse correction code, the value of which is determined by the linear dependence A (6 / -) fe (6P). From storage

Pulses the correction code is applied at a certain moment to the input of the counting device as a positive amendment, which is summable with the measurement result. When measuring relative changes in

range from O to 0.1, the maximum error due to the approximation of the nonlinear dependence and the discrete nature of the introduced correction does not exceed a value of the order of + (0.005BR + 1 quantum), where bR -

flHjpyeMoro electrical parameter.

If it is necessary to provide more accurate measurements or measurements in a wider range of relative changes, a sufficiently accurate approximation to the A (6P) f (6P) dependence can be accomplished by using a piecewise linear a1pcr1ximification. In this case, the functional scheme of the device will be somewhat more complicated, since for each approximated section of the D (6P) / (bP) dependence, a separate decoder-generator and a switched compensation pulse generator with the corresponding generation frequency for the given section will be required.

Subject of invention

A device for measuring the relative changes in the electrical parameter of radio components, comprising a chamber exposed to external

factors, a measuring unit made according to a dynamically balanced bridge scheme, iB the comparison arm of which includes a logarithmic model element with a slider connected to a rotating magnetic drum, which together with a walking universal magnetic head functions as a continuous RAM memory device and a digital time-pulse converter , characterized in that, in order to expand the measurement range at a given accuracy, the decoder-formati whether a start signal connected to the enable inputs of switched compensating pulse generators, prohibiting the inputs of which are connected to the output of the converter converter circuit, and the outputs - to the input of the pulse storage device connected to the input of the digital converter's digital converter.