SU261563A1 - DEVICE FOR CONNECTION OF THE TESTED SAMPLE OF MAGNETIC MATERIAL TO THE MEASURING SUPPLIER - Google Patents

Description

The invention relates to the field of radio metering technology and can be used in the development of instruments for accurate measurements of the parameters of magnetic materials in a wide frequency range.

It is known that the measurement error of complex magnetic permeability at high frequencies is mainly determined by two factors: the error of the device used to determine the total input resistance of the sample holder (container), and the error due to the connection of the test sample to the measuring circuit, i.e. the error due to the imperfection of the sample holder, nalimer, due to the inadequacy of its contact resistances.

Of all the possible devices for connecting a sample of an annular form to a measuring instrument, the greatest accuracy allows obtaining a segment of a shorted coaxial line at the end.

Due to the coaxial form of the holder, the sample is in a relatively uniform matnit field. First, the readings of the instrument are taken without placing the sample in the holder, then with the sample. At the same time, the sample is placed in the coaxial cavity by means of removing the short circuit. The relative magnetic permeability and loss angle of the studied material are determined by the increments of inductance and active resistance introduced by the sample and recorded by the device.

Due to the fact that the magnetic material under study is in the mode of single-turn magnetization, the increments introduced are very small (this is especially true for materials with low losses and low permeability) and the accuracy is measured in strong

degree depends on the design of the holder. To determine the input impedance, bridges with a differential transformer with the inclusion of a holder in the current circuit are most suitable, allowing you to measure

increments of resistance to ohm.

The main source of measurement errors is the transient resistance uncertainty in the shorting switch. At present, the following types of shortcut connection with a coaxial holder are used: threaded and bayonet, but they do not provide sufficient smallness and repetition of transient resistance, which, when measuring materials with low loss

(for example, high-frequency ferrites or carbonyl iron) introduces unacceptably large errors.

when measuring the parameters of magnetically ring-shaped materials, the frequency dialase investigation is significantly extended towards higher frequencies, since the intrinsic resonant frequency of such a device is very high.

This is achieved by using a short circuit, made structurally as a single whole with a coaxial holder of the test sample, having a four-terminal connection to the measuring device in the form of a transformer bridge with a differential transformer, recording the increments of the active and reactive resistances introduced by the sample.

FIG. 1 shows the proposed device; in fig. 2 is a diagram of a measuring device in the form of a differential transformer.

Test sample 1 is placed in a coaxial holder 2; for this, the current and potential holder chains are made detachable with free access to place the sample in the coaxial cavity.

For identity, the connection of the potential chips 5 to the seats on the inner 4 and outer 5 electrodes is carefully processed.

With this design of the holder, the resistances in the joints belong in one case to the current circuit and create an additional load on the generator, which does not change the equilibrium conditions of the bridge, in the other to a potential circuit that has 3-4 times more resistance and, of course, the changes that occur when removing the chips from the socket have almost no effect on the measurement result.

Subject invention

A device for connecting a test specimen of magnetic material to a measuring device, which is a segment of a coaxial line with a short circuit at the end, characterized in that, in order to increase the accuracy of measurement and expansion of the frequency range, the short short circuit is designed as a whole with a coaxial holder test sample with coaxial potential terminal, the central core of which has contact with the central conductor of the holder at the point between the test specimen and the articulation point of the holder with the coaxial line.

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