SU970287A1 - Device for forming sine modes of ferromagnetic specimen redersal magnetization - Google Patents

Description

The invention relates to magnetic measurements and can be used in testing ferromagnetic specimens in predetermined re magnetization regimes.

There are known devices for obtaining a sinusoidal magnetic field, which contain a generator, a main and additional power amplifiers, an adder, an auxiliary sample, two phase shifters and a sample to be studied.

However, this device has considerable complexity.

Of the limestone devices, the one closest to that proposed by its technical essence is a device for forming sinusoidal magnetization reversal modes of ferromagnetic samples, which contains a generator connected in series with the first differential amplifier, integrator, current amplifier and converter made according to a bridge circuit, one branch of which magnetizing winding and resistor, the other - voltage divider, the output of the converter through the second differential amplifier is connected Inverting to

mu input the first differential amplifier 2.

However, the resistance of the magnetizations of the winding winding of even identical parts is somewhat different from each other. In addition, another winding made of the same material, such as copper, may have a different JQ temperature coefficient of resistance change from a batch of wire to a batch, due to many factors (impurity, etc.).

All of these factors lead to an imbalance of the converter by

15 to a constant current and, as a result, to limit the degree of saturation of the samples while maintaining the specified shape of the magnetic induction curve, reducing accuracy when measuring magnetic properties.

The purpose of the invention is to improve the measurement accuracy.

This goal is achieved by the fact that a device for shaping 25 sinusoidal modes of magnetization reversal of ferromagnetic samples, containing a series-connected voltage generator, the first differential amplifier, integrator, current amplifier, and

A bridge connected to the bridge through the second differential amplifier is connected to the second input of the first differential amplifier, a dc generator is added, the output of which is connected to the first input of a peregnimnivan unit as well as a series-connected dc extraction unit and a dc amplifier voltage, the output of which is connected to the second input of the remagnetization unit, and the input of the allocation unit of the constant component is connected to the output of the remagnetization unit. . The drawing shows a block diagram of the device.

The circuit contains a generator 1 voltage, a differential differential amplifier 2, an integrator 3, a current amplifier 4, a reversal unit 5, one branch of which contains a magnetizing winding b and a resistance 7 second - a voltage divider consisting of resistance 8 and 9 s a heating element 10, a second differential amplifier 11, a dc extraction unit 12, a dc amplifier 13, a dc source 14, from penetrating a variable component.

The device works as follows.

When the reversal unit 5 is connected, its voltage is removed from its output, which is proportional to the EMF induced in the magnetizing winding.

This voltage, through a differential amplifier 11, is fed to the second input of differential amplifier 2..

The first inverting input of the first differential amplifier 2 is supplied with a signal from the generator 1, for example, xeni, the output of the differential circuit amplifier 2 will receive a signal proportional to the difference of the input signals. This signal, integrated by the integrator, is fed ;; to the input of current amplifier 4, having a large output impedance, the amplified signal is fed to the unit. 5 magnetization reversal, which includes magnetizing О6Г4УТКУ 6.

Balancing unit S magnetization reversal of a DC wasp (Schestvl a sleduyu11u1m manner. The input unit 5, the magnetization reversal of the source 14 DC enters a small test current signal output unit 5 of magnetization reversal due nonidentity windings in the test samples, as well as thermal instability KOjvinoHeHTOB block 5 reversal, enters the input

DC block 12 is amplified by DC amplification 13 and fed to the heating element 10 (control input of the converter) of the thermal resistance 9, the resistance of which changes in such a way that the DC balance of the bridge is restored.

As a regulatory element can be used except

In addition, optoelectronic transducers containing photoresistances and a light guide, as well as other elements. .

Claims (2)

1. USSR author's certificate. 336623, class G 01 R 33/02, 1970.  2. USSR author's certificate No. 675380, cl. G 01 R 33/12, 1979.