SU1428957A1 - Pressure-measuring device - Google Patents

Abstract

The invention relates to a measurement technique and makes it possible to increase the accuracy of measurements by compensating for temperature errors. The stabilized power supply 1 supplies the strain gages 2 and 5, which are balanced with resistors 11 and 12. The initial current through the light is set by divider 9, dispath 10. When the temperature of the controlled medium changes, the unbalance signal of the bridge 5 is fed to the input of the differential amplifier 7 and further through the amplifier 8 to the LED 10. Due to the change in the intensity of the light emitting diode, the resistance of the photoresistors 3 and 6 changes in the direction of the balance of bridges 2 and 5 until the balance of bridge 5 is restored, hence, the working bridge balance 2. 1 yl.

Description

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The invention relates to a measuring technique and can be used to measure the pressure of liquid and gaseous media with the help of semiconductor strain gauge transducers operating under conditions to a wide range of temperature of the controlled medium.

The purpose of the invention is to improve the accuracy of pressure measurement by eliminating temperature errors.

The drawing is a diagram of a device for measuring pressure, I The device consists of a stable power supply 1, a tensometric working bridge 2, one of the arms of which is connected to a photoresistor 3, the first differential amplifier 4, of a compensating thermo-sensitive bridge 5, to one of the shoulders of which a photoresistor TJDp 6, a second 7 and a third 8 differential amplifiers, a voltage divider 9, an LED 10, and a resistor 11 and 12 are connected,

The device works as follows:

At a calibration temperature of 25 ± (equal to the average temperature of the operating temperature range), both bridges are balanced by trimming resistors 11 and 12, and a divider 9 adds that a current of half the maximum permissible value for this type of LED is flowing through LED 10.

In the absence of pressure and temperature-controlled medium, equal to the calibration, the signals at the output of the strain-sensitive and compensatory bridges are equal to zero.

When the temperature of the medium deviates from the calibration value, the output signal of both bridges is no longer equal to zero) and changes in proportion to the change in the temperature of the controlled medium. Temperature dependence of the zero drift of the worker and compensatory. bridges are the same because of their identity.

When the temperature of the controlled medium changes to restore the balance of the working and compensatory

bridge imbalance signal bridge 5 is fed to the input of amplifier 7, and from it to the input of amplifier 8, to the second input of which a signal is supplied from the voltage divider 9, as a result of

the voltage at the output of the amplifier 8 changes the amount of current through the LED 10, as a result, the values of photoresistors 3 and 6 also change until the balance of bridge 5 is restored,

so the bridge 2.

Thus, when the temperature of the medium varies over a wide range, the unbalance of the strain gauge is automatically compensated and the temperature measurement error associated with this imbalance

Claims (1)

Invention Formula A device for measuring pressure, containing two strain gauge bridges, one of which is compensatory, and the second is working, two differential amplifiers and a stabilized power source, the inputs of the first differential amplifier are connected to the diagonal of the compensation bridge, and the inputs of the second differential amplifier are with the diagonal of the working bridge , characterized in that, in order to improve the measurement accuracy by eliminating temperature error, it is equipped with a third differential amplifier, a voltage divider and an optocoupler consisting of two photoresistors and one LED, with one input of the third differential amplifier connected to the output of the first differential amplifier, and the second input with a voltage divider, the output of the third differential amplifier connected to the LED of the optocoupler, one photoresistor The optocoupler shunts the shoulder of the compensation bridge, and the second photoresistor shunts the shoulder of the working bridge. 1 and 1IP Order 51 15/38 Proiv.-polygrim, pr-tie, g, Uzhgorod, st. Project, 4 Circulation 847 Subscription