SU572731A1 - Device for measuring coercive force on magnetic disc - Google Patents

Description

one

Invented 1e to the field of measurement technology, to the means of non-destructive quality control of products. The device must be used to measure the coercive force of the coating of magnetic disks.

The device for measuring the coercive force on the magnetic disk, containing non-magnetic vanilla and counting device 1, is a drawback. The disadvantage of these devices is that when measuring the coercive force, the carrier and the transition from the magnetization reversal device to the indicator and such cycles repeat until the magnetization sign changes, and determined by IpCHiHOCTb, reducing the interval between cycles leads to an increase in the measurement time.

Of the known devices, 1 the closest to the present invention is a device for measuring the coercive force, which contains a reproducible and readout device and an actuator for rotating the magnetic disk 2. However, such a device does not provide sufficient accuracy of measurement. This is due to the fact that after measuring the demagnetizing field the measured area moves to the area where the magnetization indicator is located, then returns to its original position, where the demagnetizing zero is affected by a larger value. This is repeated until those noji. until the sign of magnetization is iomen. That is, a demagnetizing zero change is conducted discretely, and this introduces a certain norpeiH, and the decrease in the interval between demagnetizing field values in order to reduce footfall leads to an increase in

measurement time.

The purpose of the invention is to improve the accuracy, the shortest measurement time and the measurement quality without destruction.

This goal is achieved due to the fact that the device for measuring the coercive force on a magnetic disk, which contains a remapping and reading device and a drive for rotating the magnetic disk, is equipped with a floating magnetic head, recording and photo reading amplifiers and an address system. Moreover, the floating magnetic head is connected in read mode to the counting device, and in recording to the output of the recording amplifier, the input of the latter is connected to the output of the photoreading amplifier, to the input of which a signal is fed from the address system.

The drawing shows a structural electrical circuit of the device.

A device for measuring the coercive force on a magnetic disk 1 contains a magnetizing device 2, a power source 3, a rheostat 4, a milliammeter 5, a current polarity switch 6, a floating magnetic head 7, a switch 8, an address system 9 with an indicator, a photo reader 10 amplifier, a recording amplifier 11 and the reading device 12.

The magnetizing device 2 ensures the creation of a saturating magnetic field directed along the carrier, changing the direction of the field to the opposite, the value of which is below the minimum value of the coercive forces. The indicator records the cycle number at which the magnetization sign changes. Knowing the magnitude of the demagnetizing field, the coercive force of the magnetic carrier is determined.

In mode I of switch 8, the floating magnetic head 7 records a single pulse using address system 9 through photo-reading amplifier 10 and recording amplifier I. In mode II of switch 8, the floating magnetic head reproduces the amplitude of the recorded pulse on the reading device 12.

The application of the proposed device will eliminate significant material losses, improve accuracy and reduce measurement time.

Claims (2)

1. USSR author's certificate No. 386355, cl. G 01R 33/12, 02.08.71. 2. USSR author's certificate №419824, cl. G 01 R 3/12, 16.05.72. L