SU1128209A1 - Device for determination of ferrocore magnetic characteristics - Google Patents

Abstract

DEVICE FOR MEASUREMENT OF MAGNETIC CHARACTERISTICS FERROSERDECHNIKOV comprising serially connected driving oscillator, a power amplifier, a field winding and a calibrated resistor, measuring winding, two stroboscopic converter output of the first of which is via a rectifier, the subtraction unit and the inverter voltage-to-frequency-coupled to first inputs of the first the adder and both stroboscopic transducers, the output of the first stroboscopic) ,. 13% ;;: / / 7 -. The zero transducer is connected to the second input of the adder and to the first input of the linear sweep voltage generator, the second input of which is connected to the reference voltage source and to the second input of the reading unit and the output. - with the first input of a two-coordinate recording device, the second input of which is connected to the third input of the adder and the output of the second stroboscopic converter, characterized in that, in order to expand its functionality, a sensor of the derivative of the magnetic field of the sample and a channel switch are introduced, three inputs of which are connected respectively to the measuring winding, to the calibrated resistor and to the output of the sensor of the derivative of the strength 5 of the magnetic field of the sample and two outputs to the inputs , stroboscopic converters.

Description

The invention relates to the field of magnetic measurements. And can be used to register the dependence of the differential magnetic pro. Induced by field strength, dynamic reversal loops and power measurements by reversal of magnetization in ferromagnetic samples. The closest to the invention to the technical essence is a device containing a series-connected master oscillator and a power amplifier, a test sample with magnetizing and measuring windings, a calibrated resistor, two stroboscopic converters in the channels for measuring the intensity and induction, sequentially connected rectifier, unit subtract and voltage-frequency transducer in series with a zero-organ and adder, two-coordinate. a recording device, a linear unwinding voltage generator, and a source of reference voltage. This device is intended for recording dynamic reversal loops and measuring the power of reversal reversal, it uses a stroboscopic signal converter with a controllable read step. The magnitude of the step of coupling is controlled by the signal from the measuring winding when replacing the transformed signal. By induction with a linear sweep voltage fij. Information on the magnitude and nature of the differential magnetic / (38. Permeability) variation (W i Ti. In a known device can be obtained by calculating or graphically differentiating a dynamic loop, which is associated with significant time costs and does not guarantee a high accuracy of dependence determination ( And / (H). 11el of the invention is an extension of the functional capabilities of the device, consisting in the direct measurement of the dependence-differential magnetic permeability-on intensity. The goal is achieved by a device containing serially connected master oscillator, power amplifier, magnetizing the winding and calibrated resistor, measuring winding, two stroboscopic converters, the output of the first of which is through a rectifier, a subtraction unit and a voltage converter — the acoustotometer is connected to the first inputs of the first adder and both stroboscopic transducers, the output of the first stroboscopic transducer is connected via a null organ to the second input of the adder and to the first input of the linear p generator inverter voltage, the second input of which is connected to the source of the reference voltage and the second input of the subtraction unit, and the output to the first input of a two-coordinate recording device, the second input of which is connected to the third input of the adder and the output of the second stroboscopic converter j on: the strength of the magnetic field of the sample and the switch of the channels whose three inputs are connected, respectively, to the measuring winding, to the calibration resistor and to the output of the sensor, derivative magnetic field strength sample, and two outputs - to the inputs stroboscopic converters. The drawing shows a functional diagram of the proposed device. The device contains serially connected master oscillator 1, power amplifier 2, test sample 3 with magnetizing winding 4, measuring winding 5, calibrated resistor 6 connected to magnetizing winding, two stroboscopic converters 7 and 8, series-connected rectifier 9 and unit 10 subtracting, a zero-body 11 connected to the input of the rectifier 9, a voltage-frequency converter 12 connected between the subtraction unit 10 and the adder 13, a two-coordinate recording device 14 connected by Without a linear sweep voltage generator 15 to the source of the reference voltage 16, a sensor 17 for the derivative of the magnetic field strength of the sample and a switch for 18 channels. The sensor of the derivative of the magnetic field strength can be made, for example, in the form of a mutual inductance coil incorporated in a magnetizing circuit. 3 ..1. The device works as follows. In the first cycle, determined by the position of the switch 18, when measuring winding 5 is connected to the input of the stroboscopic converter 7, and a resistor 6 is connected to the input of the stroboscopic converter 8, the master oscillator 1 through the power amplifier 2 and the magnetizing winding 4 peremagnetizes sample 3, as a result The inputs of strobe transducers 7 and 8 receive signals by induction and by the strength of the magnetic field of the sample, respectively. From the output of converter 7, transformed into low frequency :, the signal region is inductively fed to rectifier 9, then to subtraction unit 10, to the second input of which a reference voltage is supplied from source 16, Signal, from the output of subtraction unit 10 is supplied living frequency, the output frequency of which, in the absence of a signal at the input, is chosen to be equal to the frequency of the signal from generator 1. From the transmitter code 12, the pulses are fed to the second inputs of converters 7 and 8, providing a functional control of a read step in which the instantaneous values of the transformed signal are changed to a predetermined constant value by induction. The signal from the voltage output from the converter 8 is fed to one of the inputs of the two-coordinate recording device 14, to the second input of which a signal is output from the generator 15 of the linear sweep voltage, which is used to scan the axis B. The moments of zero signal from the output of the converter 7 are fixed by the null organ 11 and set the direction of change of the sweeping voltage, and the magnitude of the reference voltage supplied from the source 16 to the second input of the generator 15 is determined by the speed weave. The reversal loss power is measured by the adder 9413, the signal to the first, whose input is proportional to the field strength in the sample, is fed from the output of the converter 8, to the second input of the adder receives the control pulses of the converter 12 defining the reading moments, and the third input is a signal from the null authority 11, which determines the sign of the summation. In the second cycle, determined by the position of the switch 18, when the input of the converter 8 receives a signal from the measuring winding 5, and the input of the converter 7 receives a signal from the sensor 17 of the derivative of the magnetic field strength of the sample; the operation of the device is similar to the first cycle. However, the control of the magnitude of the reading schaga is carried out in terms of the magnitude, the derivative of the magnetic field strength. / с5Н, I ТГ, (C constK тр А because the differential magnetic permeability is equal (then with the indicated read step control we get / a8 (t and В = ВМ, J (i0 LLL I d dH / dt UHjdiy p НМГ / ЧТ. 1 ЖМ1114 т its value is proportional to the transformed signal EMF of the measuring winding and the device. It registers the dependence | ci (H) on the two-coordinate registration device 14. Thus, the device registers not only the dynamic loops and the magnitude of the power loss on the magnetization reversal, but and in dependence, ((H), and thus gives more complete information about oystvah kontrolipyeMbix ferrrobraztsov Using |. etog6 device for determining the dependence jUj (H) permits the graphical iskdpochit calculations or differentiation.

Claims (1)

DEVICE FOR MEASUREMENT OF MAGNETIC CHARACTERISTICS FERROSERDECH- ^s nicknames, comprising serially connected driving oscillator, a power amplifier, a field winding and a calibrated resistor, measuring winding, two stroboscopic converter, the output of which through the first rectifier unit and subtracting the voltage-frequency converter coupled to the first- the inputs of the first adder and both stroboscopic converters, the output of the first stroboscopic · converter through a zero-organ connected to the second the adder’s input and to the first input of the linear developing voltage generator, the second input of which is connected by a g reference voltage source and to the second input of the subtraction unit, and the output a stroboscopic transducer, characterized in that, in order to expand its functional capabilities, a sensor of the derivative of the magnetic field strength $ d of the sample field and a channel commutator are introduced into it, three the inputs of which are connected respectively to the measuring winding, to the calibrated resistor and to the output of the sensor of the derivative of the magnetic field strength of the sample, and two outputs to the inputs of the stroboscopic converter. SU ,,, 1128209 1C