SU760443A1 - Converter of resistive sensitive element output parameter into frequency - Google Patents

Description

The invention relates to electrical measuring technology and can be used to measure non-electrical quantities, represented as changes in the resistance of a sensitive element,

Known ^; a resistance to frequency converter that contains an integrator, a comparator whose input is connected to the output, and an output through an integrating circuit to the integrator's input, a differential amplifier and a voltage amplifier, which includes the transformed resistance [ιΐ; 15

The disadvantage of the known Converter is the inability-separate control of the initial frequency and slope of the conversion.

The closest to the invention converter 20 is output parametra'rezistivnogo sensor to frequency, comprising an integrator, whose output is connected to the input of the comparator, stroke Tzvia You are a comparator ²⁵ connected to the first input of the integrator, and a first scaling amplifier whose output is connected to the input of the integrator VTOO and the input is to the output of the comparator [2C. thirty

2

Its disadvantage is the impossibility of correcting the nonlinearity of the conversion characteristic of the sensitive element,

The purpose of the invention is the correction of the nonlinearity of the conversion characteristic of the sensitive element.

This goal is achieved by the fact that in the converter of the output parameter of a resistive sensitive element into a frequency containing an integrator, to the output of which a comparator input is connected, the comparator output being connected to the first integrator input, and the first scaling amplifier whose output is

It is connected to the second input of the integrator, and the first input to the output of the comparator, to the output of the first scaling amplifier, is connected the input of the second scaling amplifier, the output of which is connected to the second input of the first scaling amplifier, and the first scaling amplifier is connected to the feedback circuit.

The functional electrical circuit of the converter is shown in the drawing.

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“^ Device contains integrator '1

* The output of which is connected to Compressor 2. The output of comparator 2 is connected to the first input of the first scaling amplifier 3, performed on an operational amplifier, the feedback circuit of which includes ⁵ resistive sensitive element 4. The output of the first scaling amplifier 3 is connected to the input of

* "Scaling amplifier 5, vypolnen-" Nogo operational amplifier ¹⁰ and reproductive eistorah 6, 7. The resistors 8, 9 included in the first scaling amplifier 3, resistors 10, 11 -. Of the integrator 1. Inputs connected to the integrator 1 the outputs of the comparator 2 and the scaling amplifier 3, the inputs

“* ^’ Nbgor01X> are connected to the outputs of comparator 2 and scaling killer 5. The input of scaling amplifier 5 is connected to the output of scaling amplifier 3.

Does the device work? following about "- at a time, '~

Bipolar voltage swings from the comparator 2 receives on one input of scaling amplifier 3 and the integrator 1. Svyhoda voltage amplifier 3, to the value 'which is proportional to the change const ^w ^ - ^ © ¥ yvYoyyy "'15 ozystyvyokd sensor 4 is input to the integrator ^ 1 and to the input of the amplifier 5. The output voltage of the amplifier 5, about "practical to change the resistance of the sensitive element 4, is served

- to the other input of the amplifier 3.

The linearly varying voltage from the output of the integrator 1, which is the result of integrating the sum of the output voltages of the comparator 2 and the scaling amplifier 3, compares with the output voltage of the comparator 2. At the time of equal voltage, the comparator 2 is triggered. At the same time, the sign of its output voltage and, accordingly, the sign of the steepness of the linearly varying voltage of the integrator 1 changes.

The frequency of rectangular oscillations at the output of the comparator 2 is determined by the turn

760443 '' 4

where b is the time constant of integration;

P4 is the resistance value of the resistive sensitive element 4; .

resistance values of resistors 8 and 9, respectively; CC | 3 - the weights that determine the initial frequency and slope of the conversion.

As can be seen from this ratio, due to the distinctive features of the present invention, with an appropriate choice of circuit parameters, it is possible to obtain the required non-linearity of converting resistance into a frequency that compensates for the non-linearity of the sensitive element, for example, a platinum resistance thermometer,

20

Claims (1)

Claim The converter of the output parametre of the resistive sensitive element into the frequency containing the integrator, to the output of which a comparator input is connected, the comparator output connected to the first ^ 0 input of the integrator, and the first scaling amplifier whose output is connected to the second input of the integrator, and the first input to the output the comparator, about tl and ch and you and i with that, 25 in order to correct the nonlinearity of the conversion characteristic of the sensitive element, the input of the second scaling amplifier is connected to the output of the first scaling amplifier, the output of which is connected to the second input 4θ of the first scaling amplifier, and the sensitive element is connected to the feedback circuit of the first scaling amplifier.