SU552578A1 - Magnetic field strength measurement method - Google Patents

Description

one

The invention relates to the field of electrical and magnetic measurements and can be used in measurement and information technology for measuring the strength of a magnetic field.

A known method for measuring the intensity of a magnetic field is based on measuring the change in the resistance of bismuth from the values of the intensity of the magnetic field 1. The disadvantage of this method is the low sensitivity and accuracy of the measurement.

The closest to the proposed technical essence is a method for measuring the magnetic field intensity, based on the Hall effect and consisting in measuring the Hall EMF, which depends on the magnetic field intensity 2.

However, this method of measuring the intensity of the magnetic field has a low sensitivity and accuracy, and is also associated with the laborious technology of manufacturing the Hall sensor itself. In addition, the cumbersome and complex apparatus used to implement this method leads to an increase in the cost of the equipment used in the measurement process.

The purpose of the invention is to increase sensitivity and accuracy.

This is achieved by the fact that according to the proposed method of measuring the intensity of a magnetic FIELD, based on changing the properties of a substance placed in a magnetic field and measuring them, a cell with a nematic liquid crystal is placed in a magnetic field and the magnitude of the cell is calibrated. .

FIG. 1 shows a device that implements the proposed method; in fig. 2 - dependence of the capacitance value on the magnetic field intensity.

The electrodes 1 connected to the measuring device 2 are placed in a magnetic field 3; the space between the electrodes is filled with a liquid crystal 4.

Nematic CnH2n + i O-CbH4 - COOH liquid crystal is used as a liquid crystal. It is placed in a cell formed by two electrically conductive plates with sides of 15 x 20 mm and a distance of 100 µm between them. These plates serve as electrodes when measuring the capacitance of a single crystal. The cell is placed in a magnetic field and the capacitance of the liquid crystal is measured. Thus, the dependence of the magnitude of the capacitance on the strength of the magnetic field, according to which the value of its

for women. Using the dependence obtained, it is also possible to calibrate the measuring device and take readings directly from it.

Using the proposed method for measuring the magnetic field strength provides the following advantages over existing methods:

a) increases the accuracy of measurements;

b) increases the sensitivity of the device;

c) simplifies the apparatus, since it does not require additional power supply of the sensor placed in a magnetic field;

d) makes it less expensive because the manufacture of a sensor with a liquid crystal is much simpler.

Claims (2)

1.Chechernikov V.I. Magnetic measurements. M., Publishing House: Moscow State University, 1963, p. 46. 2. In the same place 44. f