SU236782A1 - DEVICE FOR MEASURING MAGNETIC FIELDS - Google Patents

Description

In the known devices for measuring magnetic fields, the indicator of which is the circuit fixed at the edges of the crystal, the signal taken from the contour has the same frequency as the voltage driving the piezotrietall. The voltage is excited on the measuring circuit of the device, which leads to measurement errors.

The proposed device makes it possible to significantly increase the sensitivity and accuracy of measurements due to the fact that in it the magnetic field indicator detects a waveguide from a nonmagnetic dielectric inside the electrodynamic vibrator, and a neutral circuit is located next to it.

FIG. 1 shows a device indicator; ka fig. 2 is a block diagram of the proposed device.

An indicator of the device is a cylindrical waveguide 1 made of a non-magnetic material, in the antinode of which the contour 2 is swept. The outer surface of the waveguide is fitted with a cylindrical electro-vibrating vibrator 5, which excites radial oscillations in the waveguide. In order for the vibrating conductor of the network, which 1m is turned on, the exciting electric voltage is not short-circuited

with respect to the contour, they contain non-conductive strips 4.

The use of an electrolytic vibrator, which can be used as a nonpolarized zirconate, due to the parity of the electrostriction effect itself, makes it possible to obtain a signal with a frequency twice as large as the frequency of the alternating voltage supplied to the vibrator, which allows the second harmonic to be applied Suppose the main frequency pickups and thereby create a magnetometer with a low threshold, and a stable zero-nuyKTOM. The presence of a waveguide inside a cylindrical vibrator increases the amplitude of the displacement in proportion to the ratio of the base area of the outer ring of the waveguide to the contour area.

Radial elastic vibrations affect the contour evenly; the number of turns of the coitur and the winding pitch are not related to the oscillation frequency, but are determined only by the 6 o KOBoii area of the waveguide surface, and the area changes depend on the contour. This allows placing a multilayer circuit into the waveguide and thus increasing the sensitivity of the magnetometer.

starting current, starting from the second, Electoral amplifier 7, synchronous detector 5, operating at a ratio of signal and switching frequencies of 2: 1 and recording device 9. Indicator and electronic part of the hall between: a cable and an electrical signal (day - amplifier) and electric energy, exciting vibrator (filter - vibrator circuit). The presence of interference does not lead to inconsistency of measurement, since the signal frequency is twice as high as the frequency of the supply voltage.

The precision properties of the proposed device; they are used to make absolute observations.

4 Preddmstat and 3 about b with t and and

A device for measuring magnetic fields, containing a measuring circuit, a high frequency generator, a selective amplifier, a low frequency filter, a synchronous detector and a recording device, characterized in that, with an increase in sensitivity and accuracy of measurement, the indicator of magnetic zero in it is inside the electrostrictive vibrator, a waveguide from a nonmagnetic dielectric, at the antinode of which the measurement is placed.

Puz 1