SU386353A1 - DEVICE FOR MEASURING COERTSITIVE FORCE-POWERED MAGNETS - Google Patents

Description

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The invention is intended for magnetic measurements of ferromagnetic materials.

Devices are known for measuring the coercivity of permanent magnets by magnetization in an open magnetic circuit or in partially closed-loop magnetic capacitance meters, in which the sensing element on magnetization — a zero indicator — is located a Hall sensor parallel to the magnetic axis of the sample at one of its ends. However, the measurement of the coercive force by such devices with a germanium or silicon sensor at its values of 1000–4000 kA1m is difficult due to large interference caused by the appearance of longitudinal emf at 1000 kL / f. with. Hall in the sensor, located parallel to the power lines of the external floor. This interference displaces the zero of the sensor and renders the sensor unusable as an indicator of zero.

To improve the measurement accuracy in the proposed device, a second Hall sensor is used, having a separate adjustable source of control current and set so that the sample field does not cause a signal in it, and the demagnetizing field generates a longitudinal e. d. Hall, equal in magnitude to the longitudinal e. d. first sensor. The output circuits of both sensors are connected in series.

FIG. Figure 1 shows an example of the arrangement of Hall sensors in the described device; in fig. 2 is a circuit for switching on sensors.

The device consists of electromagnets, in a uniform field between the poles and 2 of which test sample 3 and Hall sensors 4 and 5 are located. Instead of electromagnets, any source of a uniform field can be used in the device, for example

solenoid. The current circuits of the sensors 4 and 5 are connected to adjustable control current sources consisting of voltage sources 6 and 7, rheostats 8 and 9 w of 10 k devices for measuring current. Sensor output circuits are connected in series. Total ed with. registered with the device 12.

Due to the uniformity of the Hall sensors, the nature of the dependence of the longitudinal e. d. The halls of both sensors are similar in field strength, and the absolute value of the signals is balanced by the control current. As a result, a system is formed that does not respond to longitudinal fields of any size. At the same time, the sensitivity of such a system to a useful signal proportional to the magnetization of the permanent magnet is maintained at the same level as when using a single sensor.

Sensor 5 can be located in various ways. When measuring small

magnets in a uniform field of sufficient volume, the sensor is placed along the power lines of the demagnetizing field at a distance from the measured sample, sufficient for the sample field not to cause the appearance of a W.D. with. Hall. In the case of a limited area of homogeneity of the demagnetizing field, the sensor can be installed near the sample surface, and the sensor plane, remaining parallel to the power lines of the external field, must pass through the magnetic axis of the sample.

In both cases, the sample field does not cause a signal in sensor 5, and a strong

the demagnetizing field generates a longitudinal e. d. Hall.

Subject invention

A device for measuring the coercivity of permanent magnets in an open magnetic circuit, containing a Hall sensor, an adjustable control current source, a measuring device, characterized in that, in order to improve the measurement accuracy, it is equipped with a second Hall sensor having a separate adjustable control current source , with the output circuit of both sensors connected in series.

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