SU1691723A1 - Method of dielectric material humidity measurement - Google Patents

Abstract

This invention relates to a microwave measurement technique. The purpose of the invention is to reduce the measurement time and increase ease of operation. A method for measuring the moisture content of a dielectric material is implemented as follows. The cuvette, the length of which exceeds the resonator height, is completely filled with the sample. Set the minimum frequency of the detuning of the resonator. The material is then introduced into the cavity in the cuvette and the output voltage of the resonator is recorded. The maximum value of the output voltage corresponding to the resonance is measured, and the humidity is determined from the calibration dependence relating the voltage value at the output of the resonator to the humidity value for given detuning frequencies. The method does not require performing operations related to the measurement of mass, volume, or processing of the material to a certain size, since the material is dispensed automatically during the introduction of material into the resonator and is completed when the resonator is tuned to resonance. 2 Il. Yo

Description

This invention relates to a microwave measurement technique.

The purpose of the invention is to reduce the measurement time and improve ease of operation.

FIG. Figures 1 and 2 show the calibration dependences of the output voltage of the resonator on humidity for various detuning frequencies: 100 MHz (Fig. 1) and 200 MHz (Fig. 2) for hexamine.

A method for measuring the moisture content of a dielectric material is carried out as follows.

The cuvette, the length of which exceeds the resonator height, is completely filled with the sample. The minimum frequency of the detuning of the resonator is set to 100 DHz, at the resonant frequency of the empty resonator ft) 6300 MHz. The material is then introduced into the cavity in the cuvette, and the output voltage of the cavity is simultaneously recorded. The maximum value of the output voltage Ui, corresponding to the resonance, is 9 mV for this case. According to the graph in FIG. 1 a preliminary assessment of the moisture content Wi 1 ± 1% is carried out.

For the graphs in FIG. 1 and 2, the absolute random components of the errors in measuring the moisture of urotropine equal to 1 and 0.1% were found. Humidity measurements in the range of 0-1% with the highest accuracy should be carried out at a detuning frequency of Ј 200 mHz according to the graph in FIG. 2. After adjusting the frequency of detuning and reintroduction of the material into the resonator, the maximum output is obtained.

H)

ho with

stitching .G mV. According to the graph in FIG. 2 clarifies the moisture content W2 0.6 ± 0.1%.

Thus, the proposed method does not require operations associated with measuring mass, volume, or processing the material to a certain size, since the material is dispensed automatically during the introduction of material into the resonator and the three resonator settings are completed. The elimination of labor-intensive preparatory operations reduces the analysis time and improves the usability.

Claims (1)

The invention The method of measuring the moisture content of a dielectric material, including the excitation of the resonator with a microwave signal and measurement of the voltage at its output when a cell with the dielectric material is introduced into the resonator, characterized in that, in order to reduce measurement time and improved ease of operation, the frequency of the microwave signal is chosen equal to the minimum value of the detuning of the resonator for a given range of measured humidity values, then immersed in the resonator cuvette with the dielectric material under test before registering the voltage value at the output of the resonator corresponding to the resonator, and according to the calibration dependence By associating the voltage value at the output of the resonator with the moisture value for the given detuning frequencies, the humidity is determined. and mw YUG C X About W. 5 Yu Fig1 No Mi Ihhb U2 0.5 About 0.5U / 2 W U ° / o 2