KR100461470B1 - Variable method of main turn area for improving reliability of hard disk drive - Google Patents

Abstract

 end. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a layout mapping of a magnetic disk of a hard disk drive and more particularly to a layout mapping of a magnetic disk layout of a hard disk drive, And a method of performing layout mapping so that the main turn area can be varied.

I. Disclosure of Invention Technical Problem The present invention solves the problem that defects occur in the entire drive due to a lack of an area where information for maintenance can be recorded when defects occur in the main turn area on the magnetic disk.

All. The present invention provides a method of laying out the main turn area so that the main turn area can be varied when a defective area occurs in the main turn area on the magnetic disc.

la. An important application of the invention is a variable method of main turn area for improving the reliability of a hard disk drive.

Description

Variable method of main turn area for improving reliability of hard disk drive

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a layout mapping of a magnetic disk of a hard disk drive, and more particularly, to a layout mapping of a hard disk drive in which a main turn area is varied when a defect occurs in a main sector of a magnetic disk And more particularly to a method for mapping layouts for use in a computer system.

A hard disk drive is a device for magnetically recording / reading data on a rotating magnetic disk and is widely used as an auxiliary memory device of a computer system because it can access a large amount of data at a high speed. Such a hard disk drive records data on tracks arranged concentrically on a rotating magnetic disk. Therefore, the hard disk drive performs a servo-writing operation of recording track information for each of the tracks before recording data on the tracks. During the servo writing operation, the magnetic disk is laid out to separate the OGB (outer guard band) region, the IGB region (inner guard band), the main turn area, and the data area. The area occupied by the main turn area occupies a very small portion when divided into the entire track area of the magnetic disk. However, the content recorded by the main turn area is very important, and it stores the decode information and various maintenance information in the data area on the magnetic disk.

However, when defects occur in the main turn area on the magnetic disk, the area for recording information for maintenance of the magnetic disk is insufficient, thereby causing a problem that the whole drive is defective.

Accordingly, it is an object of the present invention to provide a method of laying out the main turn area so that the main turn area can be varied when a defective area occurs in the main turn area on the magnetic disc.

The present invention relates to a method of tuning a main turn zone on a magnetic disk for improving the reliability of a hard disk drive, the method comprising: after reading an inner guide band of the magnetic disk, A step of counting tracks in which the defects do not occur in the detection process, and when the defects are not detected consecutively for a predetermined number of tracks for recording main turn tone information, To the main turn area in accordance with the mapping information.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, such as the specific number of disks and heads, the specific processing flow, and the like. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details. Further, the detailed description of known functions and configurations that may unnecessarily obscure the gist of the present invention will be omitted. FIG. 1 is a block diagram of a conventional hard disk drive according to an embodiment of the present invention. The disks 10 are rotated by a spindle motor 34. The magnetic heads 12 are located on a corresponding one of the disks 10 and are separated from the E-block assembly 14, which is associated with a rotary voice coil actuator 30, Respectively, of the support arms. The preamplifier 16 pre-amplifies the signal picked up by one of the heads 12 at the time of reading to apply an analogue read signal to the read / write channel circuit 18, Write channel data supplied from the read / write channel circuit 18 to be written on the disk via a corresponding head of the heads 12. [ The read / write channel circuit 18 detects and decodes the data pulse from the read signal applied from the preamplifier 16, applies it to the DDC (Disk Data Controller) 20, and outputs the write data supplied from the DDC 20 Decode it and apply it to the preamplifier 16. The DDC 20 writes the data received from the host computer on the disk via the read / write channel circuit 18 and the preamplifier 16 or reads data from the disk and transmits it to the host computer. In addition, the DDC 20 interfaces communication between the host computer and the microcontroller 24. The buffer RAM 22 temporarily stores data transmitted between the host computer, the microcontroller 24, and the read / write channel circuit 18. The microcontroller 26 controls the DDC 20 in response to a read or write command received from the host computer, and controls track seeking and track following. The PROM 26 stores programs to be executed by the microcontroller 24 and various setting values. The servo drive unit 28 generates a drive current for driving the actuator 30 by a signal for controlling the position of the heads 12 generated from the microcontroller 24 and applies the drive current to the voice coil of the actuator 30 . The actuator 30 moves the heads 12 on the disks 10 in accordance with the direction and the level of the drive current applied from the servo driver 28. The spindle motor driving unit 32 drives the spindle motor 34 to rotate the discs 10 according to a control value for controlling the rotation of the discs 10 generated from the microcontroller 24. The disk signal control unit 36 generates various timing signals required for read / write under the control of the microcontroller 24, decodes the servo information, and applies the decoded servo information to the microcontroller 24.

FIG. 2 is a flowchart illustrating a method for varying a main turn area on a magnetic disk in order to improve reliability of a hard disk drive according to an embodiment of the present invention. Referring to FIG. 2, after the inner guide band of the magnetic disk is read, When a defack is not detected in succession for a predetermined number of tracks for recording main turn language information by counting tracks in which the defek does not occur, And maps an area corresponding to the number of tracks to the main turn area.

Hereinafter, the flowchart of FIG. 2 will be described in detail with reference to the block diagram of FIG. 1 attached to the present invention. In step 210, the microprocessor 24 reads the track information of the inner guard band (IGB) from the zone layout table recorded in the ROM 26. Then, in step 220, the microprocessor 24 sets the outermost circumferential track of the inner guide band as a lead start point. Then, in steps 230 to 240, the microprocessor 24 sequentially reads the outermost circumference track of the set inner guide band on the magnetic disk 10 in order of the number of tracks to be recorded, . Then, in step 250, the microprocessor 24 detects whether a defocus is detected in the lead track. At this time, if the defects are not detected, the main turn language area is laid out for the number of tracks without the defects in step 260 and stored in the ROM 26 table. However, when a defocus is detected in step 250, a lead start point is set from the next track in which the defocus occurs in step 270. [ Thereafter, steps 230-240 are repeated to sequentially read the main turn area by one track at a time corresponding to the number of tracks to be recorded to detect defects, and when there is no defective area, the main turn area is laid out as the lead track area And stores it in the ROM 26 table.

As a result, the main turn area is laid out from the next track of the track where the defaced track is generated so that no defocus occurs in the main turn area.

The present invention as described above provides a method of laying out the main turn area so that the main turn area can be varied when defects occur in the main turn area on the magnetic disc, thereby reducing the defects of the product and improving the process yield There is an advantage to be able to do.

1 is a block diagram of a conventional hard disk drive according to an embodiment of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hard disk drive, and more particularly,

Claims (2)

A method for tuning a main turn area on a magnetic disk for improving reliability of a hard disk drive, A detecting step of sequentially reading the inner guide band of the magnetic disk and then detecting a defack sequentially from the next track of the outermost circumferential track of the read inner guide band one track at a time; If no defec is detected for a predetermined number of tracks for recording main turn language information in the detection process, the area corresponding to the predetermined number of tracks is laid out in the main turn language area And a layout process is performed on the magnetic disk to improve the reliability of the hard disk drive. The method according to claim 1, The method of claim 1, further comprising the step of: laying out a main turn area from a track where a defect occurs when a defect occurs in an area for recording main turn language information in the detecting process. Variable method of turn-on area