SU1221484A1 - Resistance strain gauge - Google Patents

Abstract

This invention relates to a measurement technique. The proposed scheme of the strain gauge device provides a precision increase by compensating for the temperature drift of the strain-resistor bridge circuit. The temperature drift voltage is separated from the output signal of a strain gauge bridge circuit by a resistive adder consisting of two equal resistors connected in series with each other and parallel to the output diagonal of the bridge circuit. The common point of the resistor of the adder is connected to the input of a large-scale amplifier, the gain of which is sub-gigabytes, depending on the amount of temperature drift. The output of a large-scale amplifier is connected to a summing input of a summing amplifier. The differential input of which is connected to the signal diagonal of a strain-gauge bridge circuit. Thus, the temperature drift voltage is subtracted from the sensor resistance bridge signal, and the output signal of the strain resistance device is only a function of the mechanical parameter acting on the strain gauge. 1 il. (L to to 4 00 fy

Description

one

The invention relates to a measurement technique, to means of converting non-electrical values into electrical voltage using strain gauge transducers under varying temperature conditions and allows increasing the stability of zero strain gauge bridge circuits without the use of additional temperature sensors.

The aim of the invention is to improve the accuracy by reducing the temperature drift of a zero-resistor bridge circuit.

The drawing shows the functional diagram of the strain gauge device.

The device contains a tensor-resistor bridging circuit I with equal half-bridges sensitivity, a source of constant voltage 2, made with a two-pole output and a neutral output, which is connected to the housing, and the output of a source of direct current 2 is connected to the diagonal power supply of the strain-resistant bridge circuit I , summing amplifier 3, the differential input of which is connected to the output diagonal of the ten-resistor bridge circuit I, large-scale amplifier 4, the output of which is connected to the summing input of the summing amplifier 3, two equal resistors 5 and 6, connected in series and connected in parallel to the output diagonal.

The device works as follows.

When loading the strain gauges of a teismistor bridge circuit 1 by a mechanical parameter, the change in the potentials of points 7 and 8 of its output diagonal has opposite signs, and when the temperature of the strain gauges changes, the change in potentials of the same points has the same signs. The signals from the output diagonal are fed to the differential input of summing amplifier 3. At the output of amplifier 3, a voltage proportional to the mechanical parameter and the voltage of the temperature drift zero are formed, which is associated with the asymmetry of the temperature characteristics of the half-bridge of the strain-resistant bridge circuit

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At the same time, the signal from the output diagonal comes through resistors 5 and 6 to the input of the scale amplifier 4, since the signals from the mechanical 5 parameter at points 7 and 3 are equal in magnitude and opposite in sign, then the input of the amplifier 4 is received-, only the temperature drift signal strain gauge bridge. The temperature drift amplified by fO by amplifier 4 of the strain gauge bridge circuit is subtracted from the output voltage in summing amplifier 3 At the output of amplifier 3, an fS voltage proportional to only the mechanical parameter, the effective strain gauge bridge circuit is formed.

20 The proposed design of a strain-resistor device allows to increase the accuracy under conditions of varying temperatures, since the rate of drift of the resistance-strain gauge bridge is excluded from the measurement results.

Claims (1)

Invention Formula 30 A strain gauge device containing a strain gauge bridge circuit with equal strain sensitivity of creep bridge, a source of constant voltage, the output of which is connected to the diagonal of the bridge circuit, a summing amplifier, the differential input of which is connected to the effective diagonal of the bridge circuit, and a scaling amplifier, the differential input of which is connected to the effective diagonal of the bridge circuit, and a scaling amplifier, the differential input of which is connected to the effective diagonal of the bridge circuit, and a scaling amplifier, the differential input of which is connected to a suitable diagonal bridge circuit, 40 which is connected to a summing input of a summing amplifier, characterized in that, in order to improve accuracy by reducing the temperature drift zero 45 of the strain gauge bridge circuit, it is equipped with two equal resistors, connected in series with each other and parallel to the output diagonal of the strain gauge bridge circuit5 (jWe the input of the large-scale amplifier is connected between the common point of the resistors and the housing, the constant voltage source is made with a double-pole output and a neutral output, which is connected to the housing. 35 Compiled by V. Zaikin Editor M. Kelemesh Tehred V. Kadar Proofreader M. Demchik Order 1602/46 Circulation 670 - Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Branch PPP Patent, Uzhgorod, st. Project, 4