TH25032B - Methods for marking thin-film hard disk defects and analyzing them. - Google Patents

Abstract

DC60 (23/11/43) This invention is a method for locating bugs, marking bugs. And analysis of thin film hard drives At the beginning The hard disk will be put on the disk. The drive and the disk will then be formatted with a sector identifier and the data written to the data track. During the process of writing that information Surface defects are identified according to their sector locations, tracks, and bytes, and then the hard disk is marked. Bugs are displayed in such a way that they can be later identified.Those removed strips allow later locating the bug. After completing the deletion Exit to locate the bug for each bug already found on the disk. The disk will The disk is removed from the hard disk drive for further analysis, then the disk is placed on a microscope stand and a ferromagnetic fluid. Will be inserted to the disk so that the removed track can be seen. Magnetic fluid The ferro was put down to the completion of the track removal process without the ferrous magnet fluid in it. To the part that is the bug The result is Specific flaws are identified so that they can be seen. This can be seen for further analysis in its original state without erasing the disk on it. And there is no need to insert a ferromagnetic fluid to the fault. Due to loud bugs Said to be in its original state Thus enabling the analysis of the natural nature of the defect Such as more accurately and precisely. The invention is a method for locating bugs, marking bugs. And analysis of thin film hard drives At the beginning The hard disk will be put on the disk. The drive and the disk are then formatted with a sector identifier and the data that is written to the data track. During the process of writing that information Flaws located on the disk surface are identified according to their sector locations, tracks, and bytes, and then such hard disks are marked. Bugs are displayed in such a way that they can be later identified.Those removed strips allow later locating the bug. After completing the deletion Exit to locate the bug for each bug already found on the disk. The disk will The disk is removed from the hard disk drive for further analysis, then the disk is placed on a microscope stand and a ferromagnetic fluid. Will be inserted to the disk so that the removed track can be seen. Magnetic fluid The ferro was put down to the completion of the track removal process without the ferrous magnet fluid in it. To the part that is the bug The result is Specific flaws are identified so that they can be seen. This can be seen for further analysis in its original state without erasing the disk on it. And there is no need to insert a ferromagnetic fluid to the fault. Due to loud bugs Said to be in its original state Thus enabling the analysis of the natural nature of the defect Such as more accurately and precisely.

Claims (9)

1. Methods for bug marking and analysis of hard disks that are A thin film consisting of different stages of Testing a formatted hard disk in the disk drive to determine the location of the fault. Determining the position of the sectors, tracks and bytes of such bugs. Deleting a part of the sector in which the bug is located without deleting. Area above the defect To remove the hard disk from the disk drive Ferro-magnetized fluid is inserted to the hard disk to expose the erased region. Out without having to insert the aforementioned ferromagnetic fluid to the fault. The erased region, which contains a ferromagnetic fluid, has a A visible mark to indicate the location of the bug. 2. Methods for bug marking and analysis as described in claim 1, whereby the procedure for deleting a part of the sector in which the bug is Specifying a location will include the deletion of a number of internal tracks adjacent to that sector. 3. Methods for bug marking and analysis as described in claim 1, whereby the procedure for deleting a part of the sector in which the bug is Specifying a location will include the deletion of a number of outer tracks adjacent within that sector. 4. Methods for bug marking and analysis as described in Claim 2, whereby the procedure for deleting a part of the sector in which the bug is Specifying the location will include the removal of a number of spaced tracks within the chester. Such from the tracks in the adjacent side to the track, which the bug. Was identified 5. Methods for bug marking and analysis as described in Claim 4, whereby the procedure for removing part of the shector area where the defect is Pinpoint will include deleting part of the track where the bug is located. 6. Methods for bug marking and analysis as described in claim 5, whereby the procedure for deleting a part of the sector in which the bug is Specifying the location includes the removal of adjacent tracks that are arranged in a spaced manner. From each other to the aforementioned track where the bug is located. 7. Methods for bug marking and analysis as described in Claim 6, where a number of adjacent tracks are arranged in such a wayward manner. The radius from the track where the bug is located. 8. Methods for bug marking and analysis as described in Claim 7, whereby the procedure for deleting a part of the sector in which the bug is Specifying the location will include the deletion of a second set of tracks that are adjacent to each other, which are provided in a blank manner. The distance from each other by going outwards in radial direction from the track, which the bug Was identified 9. Methods for bug marking and analysis as described in Claim 2, where a number of adjacent inner tracks will include approximately 10 tracks. 1 0. Method for bug marking and analysis as described in claim 3, where a number of adjacent outer tracks will include approximately 10 tracks. 1 1. A method for bug marking and analysis as described in Claim 4, where a number of the above-spaced tracks are placed approximately 30 tracks apart. C 1 2. A method for bug marking and analysis as described in Claim 6, where one adjacent track will include approximately 20 tracks 1. 3. Methods for bug marking and analysis as described in Claim 12, where the tracks are 20 adjacent tracks are arranged with approximately 5 tracks further away from the track, where the bug is located at 1 location. 4. Methods for fault marking and analysis as described in Claim 7, where one of the adjacent tracks will include approximately 20 organized tracks. There are approximately 5 tracks away from the track where the bug is located at 1 location. 5.The method for bug marking and analysis is described in Claim 8, where one of the two adjacent tracks will include approximately 20 tracks. C 1 6.The method for bug marking and analysis is described in Claim 15, where one of the two adjacent tracks will include approximately 20 tracks. A track that is arranged about 5 tracks away from that track where the bug is located at 1 location. 7. Methods for fault marking and analysis as described in claim 1, wherein the process of inserting a ferromagnetic fluid includes the following steps: The disk is mounted on the platform of the microscope. A ferromagnetic fluid is inserted onto the inner tracks, which are approximately 10 tracks of the disk. The insertion of a ferromagnetic fluid along the radial-directed sector. Of the sector in which the bug is located A ferromagnetic fluid is inserted onto the track where the bug is identified at position 1. 8. A method for fault marking and analysis of thin film hard discs, consisting of a series of testing procedures for hard disks that have been formatted in a disk drive to determine the point location. defective Determining the position of the sectors, tracks and bytes of such bugs. Deleting a part of the sector in which the bug is located without deleting. Area above the defect Where the aforementioned deleted areas of the said sector are included A number of inner tracks within that sector, a number of tracks that are spaced from Each other under the said sector, from the adjacent inner tracks to the said tracks, which The bug is located, the part of the track where the bug is located, a number of adjacent tracks that are arranged inward along the radial direction in a manner. Spared The distance from the track where the bug is located. And a number of second tracks at Are arranged in such a way that they are spaced from each other to the outside in the radial direction from the track, which The bug has been identified. To remove the hard disk from the disk drive Ferro-magnetized fluid is inserted to the hard disk to expose the erased region. Out without having to insert the aforementioned ferromagnetic fluid to the fault. Where the area to be deleted will have a visible mark to indicate the location of the Such bug 1 9. Methods for bug marking and analysis as described in Claim 18, where a number of adjacent inner tracks will include approximately 10 tracks. , A number of the above-spaced tracks are arranged approximately 30 tracks apart, a number of adjacent tracks arranged inward along the said radius. It includes approximately 20 tracks arranged with approximately 5 tracks further away from the track where the bug is located and a number of second tracks. One such adjacent, which was set aside according to The radius from the track where the bug is located will include approximately 20 tracks arranged with approximately 5 tracks further away from the track. The aforementioned bug is identified at position 2 0. Methods for fault marking and analysis as described in claim 19, wherein the process of inserting a ferromagnetic fluid includes the following steps: The disk is mounted on the platform of the microscope. A ferromagnetic fluid is inserted onto the inner tracks, which are approximately 10 tracks of the disk. The insertion of a ferromagnetic fluid along the radial-directed sector. Of the sector in which the bug is located A ferromagnetic fluid is inserted onto the track where the fault is identified. Position without inserting the aforementioned ferromagnetic fluid to the fault.