SU167651A1 - - Google Patents

Description

The invention relates to the field of measuring the moisture content of materials with significant dielectric losses, such as a dog. cove

Electronic moisture meters are known that contain a capacitor-sensor filled with the material under test, and a reference capacitor connected to a high-frequency generator, the oscillation frequency of which, depending on the capacitors capacitance, is converted by the frequency detectors and amplifier into a voltage proportional to the difference of the capacitances supplied to the measuring device, showing moisture. These moisture meters do not provide high speed and accuracy of measurement due to the effect of dielectric loss on the measurement results.

In the proposed electronic moisture meter between the capacitors and the high-frequency generator, an electronic switch is turned on, providing continuous automatic comparison of capacitors. This improves the accuracy and speed of measuring the moisture content of materials with significant dielectric losses, such as sand.

In the indicated meter, the frequency range is about 100 MHz.

The capacitor-sensor /, filled with material whose humidity is to be measured, and the reference capacitor 2 are alternately connected via an electronic switch 3 to a high-frequency generator 4, whose frequency is a function of the size of the connected capacitance. The amplitude of oscillations of generator 4 is stabilized by means of block 5 and fed to frequency detectors 6 R 7, which convert oscillations of generator 4 to voltage. The electronic switch 8 performs the algebraic summation of the indicated voltages, and the resulting voltage taken from the switch 8 is fed to a milliammeter 9, calibrated as a percentage of the thickness of the material. The control unit 10 is used to generate a sinusoidal voltage with a frequency of 500 Hz.

The positive voltage half-cycles of the control unit 10 are connected to the high-frequency generator 4, a reference capacitor 2, and the negative half-periods of the same voltage are connected to the generator 4, a capacitor-sensor / filled with the test material. Generator 4 operates in the frequency range of about 100 MHz. The frequency deviation of the generator 4 when connecting the capacitor 2 is constant, and when connecting a capacitor-sensor} depends on the measured

moisture content. As a result, the inversion of the frequency generator 4 at the output of the frequency detector 6 generates a voltage that is 1 proportional to the capacitance of the sensor-capacitor /, and a voltage that is proportional to the capacitance of the reference capacitor 2 is obtained at the output of the frequency detector 7.

The algebraic sum of voltages taken from switch 8 is proportional to the difference in capacitance values of the capacitors, which characterizes the degree of moisture of the material, the difference is fixed by m-iliammeter 9.

Prevention Invention

The use of an electronic switch for the continuous automatic comparison of the capacitances of the reference capacitor and the sensor capacitor in electronic moisture meters in order to increase the accuracy and speed of measuring the moisture content of materials with significant dielectric losses, such as sand.