SU789959A1 - Reversible permeance meter - Google Patents

Description

(54) DEVICE FOR MEASURING REVERSIBLE MAGNETIC

one

The invention is used in calculating transformers with bias, chokes, suppressors, inductive parameters, etc.

Devices are known that contain 5 oscillators, amplifiers, pulse detectors, filters, and an indicator Jl. The disadvantage of the known devices is low measurement accuracy.

The closest in technical essence to the present invention is a device containing a high-frequency generator, a magnetizing winding, a test sample containing an additional winding, a low-frequency generator, a measuring winding of a high-frequency amplifier, a detector / low-frequency amplifier, an electronic oscilloscope, and a tracking voltmeter 20

The disadvantage of this known device is the low accuracy and the impossibility of obtaining an immediate value of the reversible permeability.

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

This goal is achieved by the fact that the device for measuring the atomic magnetic permeability, containing a high frequency generator / generators 30 PERMEABILITY

low-frequency, low-frequency, high-frequency and measuring windings, an indicator and a series-connected high-frequency amplifier, an amplitude detector and a low-frequency amplifier / serially connected additional high-frequency amplifier / additional amplitude detector, as well as an analog dividing unit, mutual inductance coil, the primary winding of which connected to the high-frequency magnetizing winding circuit of the test specimen in series with a high-frequency generator, ichna mutual inductor winding is connected to the input of an additional high-frequency amplifier, wherein the measuring of the test specimen winding is connected to another input of analog divider through said measuring CAD. ; and the sample of the% 1st resistor connected in series with the low-frequency winding of the test sample in series with the low-frequency generator is connected in parallel with the first input of the indicator, the second input of which is connected to the output of the analog dividing device.

In the drawing, an image diagram of the device.

The device contains HcnbiTyeNtfcift sample 1 with high-frequency winding 21 low-frequency winding 3 and measuring winding 4 p high frequency amplifier 5, amplitude detector 6 and low frequency amplifier 7, analog dividing unit 8, high frequency generator 9, coil 10, mutual inductance, high amplifier 11 frequencies, a detector 12 and a low frequency amplifier 13, an indicator 14, a recorder 15, a digital voltmeter block 16 and a digital printing unit 17, an exemplary resistor 18 and a low frequency generator 19.

The device works as follows.

On the secondary winding of the mutual inductance coil 10, an emf arises, the instantaneous value of which is, according to the law of electromagnetic induction, e, - / l | i --- M N.p | pO –N iyyyoDS “jt-E-coSwl i” frequency magnetized current; coil coefficient; the amplitude value of the ED. On the measuring winding 4 about-em, an emf occurs whose instantaneous value is determined by the formula d (, nitjk,) e, -w, 5 | b .. ,, -W 5 / tV i / cosewt Considering the ratio,. where {; p is the average length of the magnetic line in the sample and is the number of turns of the high magnetizing field for the value of the emf 1, we obtain a decrease in e ... where - amplitude value. ; EMF 6a, Dividing E., we have 2m I EW (-j Thus, the permeability / D is reversible is fAtcp. V E2J2L w, W4 PE g

where K, is a constant value, independent of the mode of the magnetizing circuit.

The ratio E / s is only a function of the intensity of the low-frequency magnetic field in the sample.

Thus, the value of reversible permeability at each point of the magnetic depends only on the magnitude of the ratio of the amplitude values of the EMF E3 and does not depend on the mode of the magnetizing circuit (i.e., on the voltage fluctuations of the high-frequency magnetizing generator, and also remagnetization by a low-frequency field.

The effectiveness of the proposed device consists in increasing the accuracy of measuring the reversible magnetic permeability approximately in order and obtaining its direct value. neither A device for measuring reversible magnetic permeability, comprising a high-frequency generator, a low-frequency generator, a low-frequency high-frequency and measuring windings, an indicator and a series-connected high-frequency amplifier, an amplitude detector and a low-frequency amplifier, characterized in that An additional high-frequency amplifier, an additional amplitude detector, and an analog dividing amplifier are introduced in series with it. The mutual inductance coil, the primary winding of which is connected to the high-frequency magnetizing winding of the test specimen in series with a high-frequency generator, the secondary katuyaki secondary inductance winding connected to the input of an additional high-frequency amplifier, the aforementioned measuring channel, and in the low-frequency winding circuit of the test sample sequentially The low frequency switch includes an exemplary resistor, a connected pair allelic to the first input of the indicator, the second input of which is connected to the output of an analog dividing device. Sources of information taken into account in the examination 1. M. Rosenblat. Magnetic elements of automation and computing technology, Science, 1966. 2. Measuring equipment, 1971, No. 12, p. 59-60.

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Claims (1)

Claim A device for measuring reversible magnetic permeability, comprising a high-frequency generator, a generator, a low frequency, a low-frequency, high-frequency and measuring windings, an indicator and a series-connected high-frequency amplifier, an amplitude detector and a low-frequency amplifier, characterized in (g) in that, with the aim of To increase the measurement accuracy, an additional series-connected device was introduced into it ^: - ^ 6 / (11 ^ 05 Out Given the ratio K- ^e cp ^T1 '™ Wi> a high-frequency amplifier, an additional amplitude detector, as well as an analog dividing unit, a mutual inductance coil, the primary winding of which is included in the high-frequency magnetizing circuit, where the average length of the left line in the magnetic sample is; siVI, is the number of turns of the high-frequency .45th magnetizing winding, For the EMF value, we obtain the expression e, -, ( ₅ ) so where is the amplitude ·· value. EMF In a .____ Dividing E ₂ m ^{by E} -1 or ^{we have} Thus, the reversible permeability / A ^ is Mt _s p lam_ _to W ^ 2 ^S '' im coils of the test sample in series with the high-frequency generator, the secondary winding of the mutual inductance coil is connected to the input of an additional high-frequency amplifier, while the measuring winding of the test sample is connected to the other input of the analog dividing device through the mentioned measuring channel, and in the low-frequency winding circuit of the test sample in series with the low-frequency generator includes an exemplary resistor connected in parallel with the first input of the indicator, the second input d is connected to the output of the analog divider.