SU832505A2 - Nanofluxmeter - Google Patents

Description

(5) NANOVEBERMETER

one

The invention relates to the field of magnetic measurements and is intended to measure the saturation flux of thin and ultrathin ferromagnetic tapes of films and microwires.

According to the main auth. IP 277081 is known for a nano-gauge containing two identical coils, the measuring windings of which form an integrating circuit with a capacitor, equipped with a high-quality linear inductance connected in series to an oscillating circuit, and the measuring windings are made with an increased coefficient of sample flux l.

The disadvantage of it is the impossibility of regulating the voltage of the converter supply when approaching saturation.

The purpose of the invention is to expand the range of regulation of the magnetization reversal.

The goal is achieved by the fact that in the nano-gauge contents there are two identical coils, the measuring windings of which form an integrating oscillating circuit with a capacitor, a high-Q linear inductance connected in series to the oscillating circuit and the measuring windings made with a high coefficient of sample flow, a symmetric transformer is inserted, made in the form of two identical autotransformers, the initial findings of the windings of which are connected to each other, and the rest The same terminals are connected in pairs and symmetrically to the input terminals of the transformer.

The device works as follows.

The circuit consists of an alternating current source 1, a symmetrical autotransformer 2, a converter 3, made in the form of identical cap-lugs 4

inductance with remanufacturing 5 and measuring 6 windings, test sample 7, installation zero coil 8, capacitor 9, variable calibration resistor 10, milli (micro) voltmeter II, high Q inductance coil 12.

The magnetizing windings are connected to an alternating current source. Test sample 7 is re-magnetized twice in each alternating current period. A pulsed impulse arising from the reversal of the sample is integrated by an oscillatory circuit formed by the measuring winding b, coil 8, capacitor 9 and coil 12, and is converted by it into free damped oscillations. The effective value of these oscillations is measured by a milli (micro) voltmeter 11, the scale of which is calibrated in units of the measured flux using a reference sample and a resistor 10.

The measuring winding 6 is made shortened from a thin wire, which increases the coverage rate of the sample,

Coil 12 inductance increases the quality factor of the oscillating circuit and, to ensure its linearity, is made on a toroidal core made of ferroelectric material, such as ferrite. The cross-sectional area of the core ring must be sufficiently large.

As can be seen from the drawing, the symmetrical autotransformer 2 consists of two identical autotransformers having the same number of pins and turns. The initial pins are connected to one common node and form the center of symmetry of opposite potentials. Similar pins form output and input jacks in pairs,

When powering the converter of a nano-gauge through a conventional autotransformer, a violation of the symmetry of the power occurs, which leads to the departure of the arrow of the lamp millivoltmeter from

zero division, which is very noticeable when the latter operates on the most sensitive scales,

When measuring small flows, a large error is obtained, since the farther away

The measuring instrument arrow from zero division before measurement, the lower the measurement accuracy.

Claims (1)

Invention Formula Nanobermeter auth.St. No. 277081, characterized in that, with In order to expand the range of regulation of the magnetization reversal voltage, a symmetric transformer, made in the form of two identical autotransformers, whose initial terminals of the windings are interconnected, and the other terminals of the same name are connected in pairs and symmetrically connected to the input and output transformer terminals. Sources of information taken into account in the examination 1. USSR author's certificate № 277081 cl. G .01 R 33/02 1968.