KR100446287B1 - Method for releasing stress of a magnetic head core, in particular with regards to preventing deterioration of a data processing speed when magnetic stress is released, and preventing an error caused by the magnetic stress - Google Patents

Abstract

PURPOSE: A method for releasing stress of a magnetic head core is provided to release magnetic stress after moving a head to a parking area when a command is not inputted for more than a certain time, thereby releasing accumulated stress of a magnetic head core without influencing a data processing speed. CONSTITUTION: If a new command is not inputted for a certain time, the certain time and a light current value for releasing magnetic stress are set(11). A system decides whether an execution mode of a hard disk drive is set to a wake up mode(12). If so, the system decides whether a command is inputted for the set certain time(13). If so, the system transfers a head to a parking area(14). The system drives a spindle motor(15). The system executes a light mode to release the magnetic stress accumulated in a magnetic head core(16).

Description

How to relieve stress of magnetic head core

The present invention relates to a magnetic stress releasing method, and to a stress releasing method of a magnetic head core of a hard disk driver.

Generally, while the head reads the information recorded on the disk, magnetic stress is accumulated and accumulated in the core of the magnetic head, and a large amount of error occurs in data processing.

The method of releasing the magnetic stress generated in the core of the magnetic head of the hard disk drive according to the related art is as follows.

The first conventional technique reads and writes about 4 to 6 bytes in a short time in a small pad area between data sectors when a large amount of errors occur while the head reads and processes data on the disk. The magnetic stress of cores generated during the mode was resolved.

The second conventional technique is that if a large amount of error occurs while the head reads and processes the data on the disc, it goes to the spare cylinder and executes a write for a certain time to relieve the magnetic stress, and then returns to the position of the leading track and returns on the disc. There was a method of reading the data recorded in.

However, the first conventional method for solving the magnetic stress solves the magnetic stress by executing the light for a short time in the small pad area, so that the magnetic stress is not sufficiently solved, and a large amount of errors are generated by processing the read data. After becoming a problem to relieve stress.

The second conventional method for solving stress is to drive or slow the data processing of the drive by returning to the track to be read after relieving stress by the write mode after jumping or seeking the head into the spare cylinder. As in the first conventional method, there is a problem of relieving stress after processing the read data and generating a large amount of errors.

The technical problem to be solved by the present invention is to solve the above problems, after moving the head to the parking area when the command is not input for a predetermined time, to solve the magnetic stress without affecting the data processing speed, before the error occurs To solve the stress of the magnetic head core to solve the stress of the magnetic head core.

1 is a flowchart of a method for releasing stress of a magnetic head core according to the present invention.

2 is a schematic block diagram of a hard disk drive to which the present invention is applied.

FIG. 3 is a block diagram extracting only blocks related to the present invention from among the blocks shown in FIG. 2.

In order to achieve the above technical problem, the method of relieving stress of the magnetic head core according to the present invention is a method of releasing a magnetic stress of a hard disk drive. Moving the head to the parking area while maintaining the drive, and executing the light mode while the head is moved to the parking area.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the stress relief method of the magnetic head core according to the present invention includes an initial value setting step 11, a wake mode determining step 12, a command input time determining step 13, and a head feeding step 14. ), The spindle on hold step 15 and the write mode execution step 16 are provided.

In the initial value setting step 11, if a new command is not input continuously for a predetermined time (t ₀ ) after the command already executed in the wake-up mode is inputted, the head is transferred to the parking area of the disk and accumulated in the core. The predetermined time (t ₀ ) and the write current value (I _W ) are set and stored in the memory to solve the magnetic stress.

In the wake mode determination step 12, it is determined whether the execution mode of the current hard disk drive is in the wake up mode. In other words, if it is determined conversely, it is determined whether the device is in the sleep mode.

In the command input time determining step 13, it is determined whether a command is input for a predetermined time t ₀ set in the initial value setting step 11 after the already executed command is input.

Head transfer step 14 transfers the head currently in the data zone to the parking zone.

In the spindle-on holding step 15, the drive of the spindle motor is turned on. That is, in a hard disk drive, in general, when the head is transferred to the parking area, the drive of the spindle motor for rotating the hard disk is turned off, but in the present invention, the head is transferred to the parking area to solve the magnetic stress of the core. In this case, the drive of the spindle motor is kept on.

In the write mode execution step 16, the write mode is executed to relieve the magnetic stress accumulated in the magnetic head core. The write current I _{W in the} write mode for relieving the magnetic stress is set to 1.2 to twice the data sector write current by direct current, which is effective for eliminating the magnetic stress. And, the light mode can be executed only for a certain period of time when the magnetic stress can be sufficiently resolved, or another method can be executed until the command is input.

FIG. 2 is a schematic block diagram of a hard disk drive to which the present invention is applied, and FIG. 3 is a block diagram of blocks related to the present invention from FIG.

Next, the present invention will be described in detail with reference to the block diagram of FIG. 3 based on the flowchart of FIG. 1.

First, in the initial value setting step 11, the predetermined time t ₀ and the write current value I _W set to solve the magnetic stress are stored at the designated address of the ROM 35.

The controller 33 first determines whether the current hard disk drive is in the wake up mode. That is, it is determined whether the spindle motor is rotating and the head is in the data zone for reading / writing data (step 12). If the current hard disk drive mode is in the wake-up mode, counting is performed from the moment the command is input while resetting the counter at the time the command is input. Then, the counting value t _c of the internal counter of the controller 51 is compared with a predetermined time t ₀ read from the ROM 35. It is determined whether the counting value t _c of the internal counter exceeds the predetermined time t ₀ set in the ROM 35 (step 13).

If the counting value t _c of the internal counter exceeds a predetermined time t ₀ set in the ROM 35, the control unit 33 commands the CPU 34 to store the voice stored in the ROM 53. The drive voltage value Vp of the coil motor is read out and the voice coil motor drive part 37 is controlled by this value.

The voice coil motor driver 55 applies a force to the actuator to which the head is attached using the input voice coil motor driving voltage value Vp to move the head from the data zone to the parking zone (step 14).

The CPU 34 then controls the spindle motor drive 38 to rotate the spindle motor as if it were driven in the data zone. Of course, the speed of the spindle motor does not necessarily need to be the same as that driven in the data zone, but it is to use the data in the data zone that is already set.

Therefore, after the above operation is performed, the hard disk drive is in Idle Mode.

After confirming that the head has completely reached the parking area by the control unit 33, the CPU 34 reads the write current value I _W for eliminating the magnetic stress set in the ROM 35 _and passes through the data processing unit 36. The lead / light portion 32 is applied. Then, the lead / light part 32 is applied to the core of the head via the preamplifier 31 with a current corresponding to the write current value I _W , _and is lighted in the parking area.

In this way, when the command is not input for a predetermined time or more, the head is moved to the parking area and the light mode is executed in the idle mode, thereby eliminating the magnetic stress generated in the core of the magnetic head.

As described above, according to the present invention, when the command is not input for a predetermined time or more, the head is moved to the parking area, and the light mode is executed in the idle mode, thereby eliminating the magnetic stress generated in the core of the magnetic head. Not only can it reduce the data processing speed of the hard disk drive during stress relief, but it also prevents errors caused by magnetic stress in advance.

Claims (4)

In the magnetic stress relief method of the hard disk drive, If the command is not input for more than a predetermined time in the wake-up mode, moving the head to the parking area while maintaining the drive of the spindle motor; And executing the light mode when the head is moved to the parking area. The method of claim 1, wherein the light mode is a light by direct current. The method of claim 1 or 2, wherein the write mode is executed only for a predetermined time. The method of claim 1 or 2, wherein the write mode is executed until a command is input.

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