SU1064257A1 - Device for measuring parameters of hysteresis limit static loop - Google Patents

Abstract

DEVICE FOR MEASURING PARAMETERS OF STATIC LIMIT hysteresis loop comprising magnetizing unit, configured in the form of series-connected pulse generator magnetizing current,: magnetizing winding and the measuring resistor is calibrated Nogo induction coil connected via an integrator to a first input of the first switch, the second input of which soedi- with yen the output of the generator of gating pulses, and the output - with the input of the G: first peak detector, and the recording devices, from which it is increase the accuracy of measurements; a pulse distributor, a voltage divider by 2, a comparator, a subtraction unit, a second key and a second and third peak detectors are entered into it, while the output of the Hc1 magnetizing current pulse generator is connected to the input of the pulse distributor, the first output of which is connected to the input a gating oscillator generator, and to the integrator control input, the output of the first peak detector is connected to the input of a voltage divider connected to 2, connected to the first recording device, the output of the voltage divider On 2, it is connected to the first inputs of the comparator and the subtracting unit, the second inputs of the comparator are directly, and the C of the subtracting unit is connected to the output through the second peak detector, the integratorJ, the output of the subtracting unit, the comparator output to the control input of the second key, the second input of which is connected to a calibrated resistor, and the OUTPUT - to the input of the third peak detector connected to the third recording device.

Description

The invention relates to magnetic measurements and can be used to measure magnetic pairs of materials and products in static magnetization modes. A device is known for recording the static characteristics of ferromagnetic samples, with a step voltage generator, a strobe pulse generator, a power amplifier, a magnetizing and measuring windings, a calibrated resistor, a test sample, a pulse amplifier, a key lock, an integrator, and a recording device fl. The disadvantage of this device is the need for additional processing of the obtained characteristics to determine the values of the parameters of the hysteresis loop. Closest to the proposed technical entity is a device for screening cores containing a magnetization unit, made in the form of successively connected generator of magnetizing current pulses, magnetizing winding and calibrated resistor, measuring induction winding connected through the integrator to the first input of the first key, second whose input is connected to the output of the gating pulse generator, and the output to the input of the first peak detector, and recording devices pj. I However, the known device: the creation of a special test program, has a complex structure and cannot provide a simultaneous measurement of the induction of saturation of the residual induction and the coercive force. The purpose of the invention is to improve the accuracy of measurements. The goal is achieved by the fact that the device for measuring the parameters of a limiting static hysteresis loop, containing a magnetization unit made in the form of series-connected generator of current pulses of magnetization of the magnetizing winding and a calibrated resistor, the measuring induction winding connected via an integrator to the first input of the first key, the second input of which connected to the output of the gating pulse generator, and the output to the input of the primary peak detector, and recording instruments, pulse distributor, voltage divider by 2, comparator, block readout unit, second key and second and third peak children topftj, while the output of the magnetisation current pulse generator is connected to the input of the pulse distributor, the first output of which is connected to the generator input of gating pulses, and the second - To the integrator's control input, the output of the first peak detector is connected to the input of a voltage divider for 2 connected to the first recording device, the output of a voltage divider for 2 is connected to the first inputs of the comparator and the subtracting unit, the second inputs of the comparator directly, and the subtracting unit via the second peak detector connected to the integrator output, the output of which was connected to the second register device, the comparator output connected to the control key of the second key, the second input of which is connected to a calibrated resistor, and the output is connected to the input of the third peak detector, which is connected to the third recording device. FIG. 1 shows a functional diagram of the proposed device / fig, 2 - signal plots at various points in the circuit. The generator 1 of the magnetizing current pulses (Fig. 1) is connected in series with the magnetizing winding 2 of the test core 3 and CAL: in | About (with a bath resistor 4. The induction measuring winding 5 is connected to the signal input of integrator 6. Generator 1 is connected to the input of the distributor 7 pulses, the outputs of which are connected to the control input of the integrator b and the generator input 8 of gating pulses, and their outputs from the inputs of the key 9 connected in series with the peak detector 10, the voltage divider 11 by 2 and the recording device 12. The inputs of the comparator 13 are connected to the outputs of the integrator 6 and the voltage divider 11 by 2, and the output is connected to the control input of the clock 14, the signal input of which is connected to the calibrated resistor 4, and the output to the series-connected, peak detector 15 and recording instrument 16. The first input of the subtracting unit 17 is connected to the output of the voltage divider 11 to 2, the second input through the peak detector 18 is connected to the output of the integrator 6 and the output — with a registering device 19. The device operates as follows: The generator 1 generates different-polarity pulses with a duration exceeding the remagnetization time of the core 3 (Fig. 2a), which ensures the static nature of magnetization. A signal proportional to the intensity of the magnetic field is removed from the calibrated resistor 4, and from the measuring winding 5

The signal input of the integrator 6 receives a signal proportional to the increment of the magnetic induction in the sickle. The pulse distributor 7 directs the negative polarity pulses to the integrator control input b, and the positive polarity pulses to the generator input of the eight strobing impulses. At the moment id, the magnetic state of the core corresponds to 7 points A (Fig. 2 b) of the limiting hysteresis loop. With the passage of a positive polarity pulse at time i, the magnetic state of core 3 corresponds to point C, and the voltage at the output of integrator b is proportional to the value of Bj, + Bg, where ES is the induction of saturation (Fig 2 b). After the passage of a positive polarity pulse before the onset of a negative polarity pulse, the magnetic state of the core corresponds to point O, and the voltage at the output of integrator b is proportional to 2 Eg (Figure 2b. The negative polarity pulse returns the magnetic state of the core to point A and sets the zero integrator output voltage b.

DP measuring residual induction at time ti (after passing a pulse of positive polarity, generator 8 generates gating pulses that are sent to the control input of the switch 9. For the duration of the gating pulses, the switch 9 opens and passes the integrator b to the input of the peak detector 10 proportional to 2 V. This signal is detected by a peak detector 10 and is fed to the input of a voltage divider 11 per 2, connected to a recording device 12, which measures the voltage in proportion to induction suds.

To measure the coercivity, a signal proportional to 9 ,. , from the output of the divider 11, the voltage to 2 is fed to the first input of the comparator 13 ,. to the other input of which the signal from the output of the integrator b. At the moment i4 of the equality of these sigals, the magnetic state of the core corresponds to the point E. The comparator 13 generates a pulse (Fig. 2a), which opens the key 14, which passes a positive signal from the calibrated resistor 4, which is proportional to the coercive force. This signal is fed to the input of the peak detector 15, where it is recorded and then measured by a recording device 16.

To measure the saturation induction, the signal proportional to - from the output of the voltage divider 11 to 2 is fed to the first input of the subtracting unit 17, to the other input of which the signal from the peak detector 18 connected to the output of the integrator b is proportional to the value 8j. + From the output of the subtracting unit 17, the recording device 19 receives a signal proportional to the induction of saturation.

The invention improves the measurement accuracy of residual induction as a result of reducing the dynamic measurement error at a constant input signal level, improves performance due to simultaneous measurement of residual induction, saturation induction and coercive force and, thereby, expanding the functional possibilities of the device, for example, in conjunction with a computer contour of automatic monitoring and control system.

Improving the accuracy and performance of the device increases the reliability of the control of ferromagnetic ser.dechnikov, which allows to increase the output of suitable products.

Claims (1)

DEVICE FOR THE DAY OF MEASURING THE PARAMETERS OF THE LIMIT STATIC HYSTERESIS LOOP, containing a magnetization unit made in the form of a magnetization current pulse generator connected in series:: a magnetizing winding and a calibrated resistor, a measuring induction winding connected to the first input through an integrator the input of which is connected to the output of the strobe pulse generator, and the output to the input of the first peak detector, and recording devices, which means that, in order to increase To ensure the accuracy of measurements, a pulse distributor /, a voltage divider by 2, a comparator, a subtracting unit, a second switch and a second and third peak detectors are introduced in it, while the output of the magnetizing current pulse generator is connected to the input of the pulse distributor, the first output of which is connected to the input the generator of the gating igulae, and the second to the control input of the integrator, the output of the first peak detector is connected to the input of the voltage divider by 2, connected to the first recording device, the output of the voltage divider by 2 p it is connected to the first inputs of the comparator and the subtracting unit, the second inputs of the comparator and the comparator directly, and through the second peak detector are connected to the output of the integrator, the output of the subtracting unit is connected to the second recording device, the output of the comparator is connected to the control input of the second key, the second input of which connected to a calibrated resistor, and the output to the input of the third peak detector connected to the third recording device. YU ΟΊ • m