SU1704164A1 - Method of checking magnetic flaws of data medium - Google Patents

Abstract

The invention relates to a magnetic recording technique, in particular, to methods for monitoring carrier defects, in particular magnetic disks. The invention makes it possible to increase the reliability of monitoring magnetic storage media (magnetic disks) using a qualitative method of controlling the media’s different coercivity. At the same time, monitoring of the carrier’s different coercivity with preliminary recording of alternating polarized signals with subsequent reproduction of signals and monitoring for the presence of amplitude modulation with registration of numbers of defective tracks is performed I’ll affect the preliminary recording on it in the form of alternating polarity alternating with s with its partial demagnetization of the permanent magnetic field of adjustable field strength, and then reproducing the signals recorded tracks and repeatedly control the availability of the amplitude modulation with the registration numbers of defective tracks, on which, taking into account the occurrence of new defective tracks judged that there raznokoertsitivnosti carrier. 6 Il. THX

Description

The invention relates to a magnetic recording technique, in particular, to a method for monitoring magnetic defects of information carriers, in particular magnetic disks.

There is a method of controlling magnetic defects of a carrier, which involves monitoring physical defects of a certain type — presence of lane in the magnetic layer of the carrier, protuberances and foreign particles attached to it — and improving control of pulses reproducible from changes in magnetization on a carrier magnetized in one direction by applying a constant magnetic field , remagnetizing the upper, close to the magnetic head, the layers of the carrier and demagnetizing the carrier as a whole. This increases the change in magnetization at the location of the defect, where such an effect has little effect with respect to the neighboring defect-free demagnetized medium, increases the amplitude of the false pulse at the location of the defect and, consequently, the sensitivity of the defect detection system as a whole.

However, this method is essentially a method of controlling a false pulse at a regulated amplitude level, it can not detect or determine unambiguously the presence of carrier diversity of coercivity, and therefore cannot be used.

ABOUT

about

The control of multi-coercivity as the cause of the inaccessible phase distortion of the signal at the junction of different-coercive portions of the carrier.

There is a known method for monitoring magnetic carrier defects, which uses the monitoring of alternating different signals recorded on a carrier, including the control of the presence of amplitude modulation of the signal.

However, with only one direct reproduction of signals, which are a sequence of different polarity signals of relatively equal amplitudes, the multi-coercivity remains undetected. This is due to the fact that the recording of signals with the saturation of a different-eqive carrier due to the limited path resolution of the magnetic carrier — a non-contact magnetic head is characterized not by a noticeable difference in the amplitudes of the reproduced signals, but by a change in the phase position of the signals recorded on adjacent differently-coercive sections of the carrier what is the cause of unacceptable phase distortion of signals at the junction of differently coercive portions of the carrier.

The purpose of the invention is to increase the reliability of monitoring of a magnetic carrier by detecting and controlling the different coercivity of its sections on a track due to the effect on preliminary recording in the form of alternating alternating magnetizations with partially demagnetizing (wiping) constant magnetic field with subsequent control of the amplitude modulation of the reproduced signal.

According to the proposed method, the control of the presence of different coercivity of the carrier is carried out by reproducing the signals recorded on the monitored track, whose amplitudes can be relatively the same. With uniform recording demagnetization of a constant magnetic field of increased intensity, the level of the reproduced signal at different coercive sections of the track, if they exist, remains different (where the coercivity is less, the signalogram is demagnetized more easily) and can be monitored by the amplitude detector for the presence of an amplitude module with visualization of control or measurement of signal modulation by oscilloscope.

The advantage of recording different polarity alternating signals in the proposed method lies in the fact that the control of signal modulation does not depend on the position of the junction of differently coercive segments relative to the center line of the track, which ensures unambiguous control of signal modulation.

In addition, it controls

double amplitudes of signals from opposite-polarized magnetizations to carrier saturation, which makes it possible to double the sensitivity of the control method in comparison with the study of single pulses

0 from changes in one direction magnetization.

FIG. 1 shows the different position of the junction of different coercivity on the track and different in amplitude and width

5 reproducible pulses after demagnetization of the track, explaining a known method; in fig. 2 - the same for the proposed method; in fig. 3-5 are time diagrams of a multi-polar reproduction signal per one revolution of a magnetic disk, which are the waveform before (Fig. 3) and after (Fig. 4 and 5) uniform partial demagnetization

5 by its constant magnetic field of increased tension from the erase element; in fig. 6 is a diagram of an apparatus for carrying out the method.

Delivered in the proposed method

0, the goal is achieved by the fact that in the method of monitoring magnetic defects of a carrier, preliminary recording is carried out in the form of a sequence of alternating alternating signals, the signals are reproduced, control the presence of amplitude modulation, register defective tracks, then the controlled magnetic tracks the field of adjustable voltage and any polarity, partially demagnetizing i (sub-type), re-reproduces the signals of the tracks and controls the presence of their amplitude m blowing tion with registration defective tracks kontro5 lyre with the appearance of new defective tracks, indicating the presence raznokoertsitivnosti carrier.

The magnitude of the demagnetizing field of any polarity for the most pronounced difference in amplitudes is set by demagnetizing the signal pattern through the carrier hysteresis loop to the zone in its steep section (for example, to 50% reduction in double amplitude).

5 signals).

The control of amplitude modulation of signals on the controlled tracks of the carrier is carried out according to the algorithm:

Claims (1)

1) sequential control of signal modulation on all controlled tracks with registration of defective numbers tracks (tracks with a modulated signal exceeding a predetermined level); 2) sequential partial demagnetization of controlled tracks; 3) repeated sequential monitoring and registration of defective tracks (in accordance with claim 1); 4) control of the appearance of new defective tracks. This eliminates the conditionality of modulation of the signal by the different thickness of the magnetic coating of the carrier or by the conditions of non-contact on this track, which is preserved even after partial demagnetization, allows us to consider the appearance of new defects in the tracks as a sign of the presence of different coercivity of the carrier. The proposed control method can be implemented in several versions of the device, characterized by the execution of an erasing element, which can be used as: a separate erasing magnetic head; connected to the winding of the magnetic head playback through the transition connector a constant-current source of an adjustable value; a permanent magnet, the field strength of which is sufficient for complete demagnetization (erasure) of the waveform recorded on the carrier; a permanent magnet, the field strength of which is insufficient for direct demagnetization (erasure) of the waveform recorded on the carrier, and others. In the latter case, one of the simplest, the effect of a permanent magnet on the waveform is carried out by moving it into the surrounding magnetic head to reproduce the space using the effect of concentration of the surrounding magnetic field by the magnetic core of the head on the sharp edges of its working surface. The coefficient of centration of the surrounding magnetic field by the core of the reproduction head that is not shielded in the bench control equipment is about 10, so the magnetic field strength of the partial demagnetization of the carrier, controlled by moving the magnet in the direction of the core, and therefore, the size, mass and energy of the magnet can be reduced, which simplifies the implementation of the proposed method, allowing the use of instrumentation equipment without significant modifications. The device (Fig. 6) controls the magnetic disk 1. On the monitored tracks of which the recording was previously made in the form of alternating different-type pulses by the magnetic recording head 2 (or a universal magnetic head) controlled from the recording unit 9, and contains a magnetic reproduction head 3, an amplifier 4 of reproduced signals, which are fed to an amplitude detector 5 and an oscilloscope 6, a unit for detecting the number of a defective track 7, and a means for evenly partially demagnetizing the signal pattern — a permanent magnet 8 with the possibility of moving it a certain distance in the direction of the core of the magnetic reproduction head 3. The proposed method of controlling magnetic storage media allows, compared to the known (for example, phase control), to simplify the control process by replacing it with the control of the media’s different coercivity and improve the performance of disk control over a pass-through system by using existing control equipment without significant its modifications, partial demagnetization of the pre-recorded waveform on the monitored tracks, visualization and objective control of carrier properties, which in practice makes it possible to promptly assess compliance with the technological process of manufacturing magnetic disks, the legitimacy of adopting various technical solutions and the field of carrier design, as well as the feasibility of using magnetic disks of other structures. Invention Formula The method of monitoring magnetic defects of the information carrier, which consists in pre-recording on the information carrier in the form of alternating magnetizations with opposite polarities, followed by reproduction and control of the presence of amplitude modulation with registration of numbers of defective tracks, characterized in that, in order to increase the reliability of monitoring the multicoercivity of the information carrier, on a carrier with recording alternating different polarity magnetizations with its partial demagnetization by a constant magnetic field of adjustable intensity, then reproduces the recorded signals of the tracks and re-checks for the presence of amplitude modulation with the registration of the numbers of defective tracks, according to which the presence of carrier diversity is judged. ab Riga.1 Track Threshold Transitions Ј Magnetization Track Signal Threshold Rig.2 i Fig.Z FIG. five U t FIG. four