KR101042152B1 - Method of defect management - Google Patents

Abstract

The present invention relates to a defect management method performed when a defect of a disc is found in the process of recording data on a recording medium. According to the present invention, fast defect management can be performed so that the working speed can be improved when data is recorded on the recording medium or the recording medium is extracted from the disk drive.

Description

Method of defect management

The present invention relates to a defect management method performed when a defect of a disc is found in the process of recording data on a recording medium.

Generally, disk drives include optical disk drives and hard disk drives. Optical disk drives include compact disks (CDs), digital video disks (DVDs), and blu-ray disks. Refers to a device for recording information by reproducing light onto a recording medium or reproducing information recorded on the recording medium.

In a recording medium in which a user can record data in a PC environment, such as a DVD-RAM or Blu-ray disc, for example, priority is given to the user area on the recording medium when performing data recording operations. When data is recorded and a defect occurs in which the data cannot be read in the data area of a specific address in the user area, the data is recorded in another specific address in the spare area. Defect information, which replaces a specific address in the user area with another specific address in the spare area, is recorded in the defect management area (DMA) of the recording medium. The defect information is once stored in a memory provided in the disk drive and recorded in the DMA when a data recording operation is interrupted and a predetermined time has elapsed or before the recording medium is extracted from the disk drive. This is called defect management.

On the other hand, the spare area and the DMA are provided in the inner circumferential portion and the outer circumferential portion of the disc-shaped recording medium. Therefore, optical pickup of the disc drive during the data recording operation or prior to the extraction of the recording medium is frequently moved to the inner and outer peripheral portions of the recording medium in order to perform the defect management operation. As a result, data recording or recording medium extraction may be delayed and the disk drive may overheat.

The present invention provides a method for managing defects of a disk drive, which is improved so that a work speed can be increased when recording data or extracting a recording medium.

The present invention includes an address checking step of confirming an optical pickup address where an optical pickup is located after completion of data recording on a recording medium; An address comparison step of comparing the position of the optical pickup address to be closer to the outer periphery of the recording medium than to the reference address position; And a defect information recording step of sequentially recording defect information in a defect management area provided in an outer peripheral part and an inner peripheral part of the recording medium according to the result of the address comparison step. Provide a method.

According to an embodiment of the present invention, if the optical pickup address position is closer to the outer periphery of the recording medium than the reference address position in the address comparing step, the defect management area provided in the defect management area provided in the outer periphery of the recording medium in the defect information recording step. Information is recorded first and defect information is later recorded in a defect management area provided on an inner circumference of a recording medium, and if the optical pickup address is not closer to the outer circumference of the recording medium than the reference address in the address comparing step, the defect is detected. In the information recording step, the defect information can be recorded first in the defect management area provided in the inner circumference of the recording medium, and the defect information can be recorded later in the defect management area provided in the outer circumference of the recording medium.

According to an embodiment of the present invention, the defect information may include an address where a defect occurs and an address in a spare area that replaces the defect generation address.

In addition, the present invention provides a method for detecting defects during recording of data in a user area of a recording medium; A first address checking step of confirming an address where a defect has occurred; A first address comparing step of comparing a position of a defect occurrence address with a position closer to the outer periphery of the recording medium than the position of the reference address; And a recording position replacing step of recording data in a spare area provided in an outer circumferential portion or an inner circumferential portion of the recording medium in place of a defect generating address according to the result of the first address comparing step. Provide management methods.

According to an embodiment of the present invention, if the position of the defect occurrence address is closer to the outer circumference of the recording medium than the position of the reference address in the first address comparison step, the recording area is replaced with a spare area provided at the outer circumference of the recording medium. If the position of the defect occurrence address is not closer to the outer periphery of the recording medium than the position of the reference address in the first address comparison step, the recording position is recorded in the spare area provided in the inner periphery of the recording medium. Can replace the location.

According to an embodiment of the present invention, after the recording position replacing step, a data recording continuation step of continuing the operation of recording data in the user area may be further provided.

According to an embodiment of the present invention, a second address checking step of confirming an optical pickup address where an optical pickup is located after completion of data recording on the recording medium; A second address comparing step of comparing the position of the optical pickup address to be closer to the outer periphery of the recording medium than to the reference address position; And a defect information recording step of sequentially recording defect information in a defect management area provided at an outer circumference portion and an inner circumference portion of the recording medium according to the result of the second address comparison step.

According to an embodiment of the present invention, if the optical pickup address position is closer to the outer peripheral portion of the recording medium than the reference address position in the second address comparing step, the defect management area provided on the outer peripheral portion of the recording medium in the defect information recording step. Defect information is recorded first and defect information is later recorded in a defect management area provided on an inner circumference of a recording medium, and in the second address comparing step, the optical pickup address position is closer to the outer circumference of the recording medium than the reference address position. Otherwise, in the defect information recording step, the defect information may be recorded first in the defect management area provided in the inner circumference of the recording medium, and the defect information may be recorded later in the defect management area provided in the outer circumference of the recording medium.

According to an embodiment of the present invention, the defect information may include an address where a defect occurs and an address in a spare area that replaces the defect generation address.

According to an embodiment of the present invention, after the recording position replacing step, a defect information storing step of storing defect information related to the recording position replacing in the memory of the disk drive may be further provided.

According to an exemplary embodiment of the present invention, fast defect management can be performed, and thus a work speed can be improved when data is recorded on the recording medium or the recording medium is extracted from the disk drive.

Hereinafter, a defect management method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view schematically showing an optical disk drive and a recording medium mounted therein, and FIG. 2 is a flow chart illustrating a defect management method according to an embodiment of the present invention.

Referring to FIG. 1, the recording medium 20 to which the defect management method of the present invention is applicable is a disk type in which a user can record data in a PC environment, such as a DVD-RAM or a Blu-ray disc. Is a medium on which data can be recorded by irradiating a surface of the recording medium 20 with a laser by using an optical pickup 12 provided in the disc drive 10. A first defect management area (DMA) and a first spare area are provided in an inner circumferential part IP of the recording medium 20, and an outer circumferential part OP of the recording medium 20 is provided. The second defect management area area and the second spare area are provided, and a user area is provided in the middle part MP between the inner circumferential part IP and the outer circumferential part OP. According to the recording medium, the first defect management area may be divided into two zones of DMA1 and DMA2, and the second defect management area may be divided into two zones of DMA3 and DMA4. In addition, the first spare area may be referred to as a primary spare area, and the second spare area may be referred to as a supplementary spare area.

The user area is an area set to record data input to the disk drive 10 in accordance with a data write command. If a defect occurs in which data cannot be recorded and read at a specific address in the user area, the data is recorded at another specific address in the spare area. The first spare area is a spare area provided in the inner circumferential part IP of the recording medium 20, and the second spare area is a spare area provided in the outer circumferential part OP of the recording medium 20.

The defect management area is an area in which defect information is recorded that replaces a specific address in the user area in which the defect has occurred with another specific address in the spare area. The first defect management area is a defect management area provided in the inner circumferential part IP of the recording medium 20, and the second defect management area is a defect management area provided in the outer circumferential part OP of the recording medium 20. to be. The defect information may include a specific address in the user area in which the defect occurred, and a specific address in a spare area replacing the address in which the defect occurred. The defect information is stored in a memory 14 electrically connected to the processor 14 each time a defect is detected during the data recording operation, and when the data recording operation is stopped and a predetermined time elapses, or The recording medium 20 is recorded in the defect management area before the recording medium 20 is extracted through the front surface 11 of the disc drive 10.

1 and 2, a defect management method according to an exemplary embodiment of the present invention includes an address checking step S11 of checking an optical pickup address where an optical pickup 12 is located after completing a data recording operation. do. The optical pickup address means a specific address on the recording medium 20 to which the laser is incident if the laser is projected from the optical pickup 12.

The defect management method of the disk drive 10 includes an address comparison step (S12) of comparing the position of the optical pickup address after the step S11 is closer to the outer peripheral portion OP of the recording medium 20 than the reference address position. do. The reference address may be set to a specific address provided in a specific track CR of the intermediate part MP. The specific track CR may be one track spaced apart from the inner circumferential part IP and the outer circumferential part OP by the same distance.

Specifically, when the recording medium 20 is a DVD RAM, the reference address may be 1,100,000 LBA (Logical Block Address). When an address is sequentially given from the inner peripheral portion IP to the outer peripheral portion OP of the recording medium 20 according to a format, if the optical pickup address is larger than 1,100,000 LBA, the optical pickup 12 causes the inner peripheral portion ( IP) means that it is located closer to the outer peripheral portion (OP), on the contrary, if the optical pickup address is less than 1,100,000 LBA, optical pickup 12 is located closer to the inner peripheral portion (IP) than the outer peripheral portion (OP) It means that there is.

If it is determined in step S12 that the position of the optical pickup address is closer to the outer peripheral portion OP than the position of the reference address, defect information is first recorded in the second defect management area (S13), and then in the first defect management area. The defect information is recorded later (S14). Specifically, S13 moves the optical pickup 12 to the outer peripheral portion OP, seeks the second defect management area, waits until the rotation speed of the recording medium 20 is stabilized, and defects. Irradiating a laser corresponding to the information to the second defect management area to update the defect information. In addition, S14 moves the optical pickup 12 located near the outer circumference OP to the inner circumference IP, seeks the first defect management area, and stabilizes the rotation speed of the recording medium 20. Waiting until the laser beam corresponding to the defect information is irradiated to the first defect management area to update the defect information. The same information as the defect information recorded in the first defect management area and the second defect management area is recorded.

On the other hand, if it is determined in step S12 that the position of the optical pickup address is not closer to the outer peripheral portion OP than the position of the reference address, defect information is first recorded in the first defect management area (S15) and the second defect is detected. Defect information is later recorded in the management area (S16). Specifically, S15 moves the optical pickup 12 to the inner peripheral portion IP, seeks the first defect management area, waits until the rotation speed of the recording medium 20 is stabilized, Irradiating a laser corresponding to the defect information to the first defect management area to update the defect information. Further, S16 moves the optical pickup 12 located near the inner peripheral portion IP to the outer peripheral portion OP, seeks the second defect management area, and stabilizes the rotation speed of the recording medium 20. Waiting until the second defect management area is irradiated with a laser corresponding to the defect information, and updating the defect information. In the defect information recorded in the first defect management area and the second defect management area, information having the same contents is recorded.

After the defect information is updated in the first defect management area and the second defect management area through S13 and S14 or through S15 and S16, the optical pickup 12 is a home position (home) of the optical pickup 12. position) (S17). When the defect management process of FIG. 2 is started by an eject instruction of the recording medium 20, the recording medium 20 is discharged to the outside through the front surface 11 of the disc drive 10 after S17.

According to the defect management method of the disc drive described with reference to FIGS. 1 and 2, the path of the optical pickup 12 moving to update the defect information in the defect management area is shortened and simplified, thereby allowing the disc drive 10 to operate. The delay time required to extract the recording medium 20 after the ejection of the recording medium is directed to the recording medium 20 can be reduced.

3 is a flowchart illustrating a defect management method according to an embodiment of the present invention.

1 and 3, a defect management method according to another embodiment of the present invention includes detecting a defect during a data recording operation in a user area (S21), and a recording medium on which a defect has occurred. A step S22 for checking a specific address on the step 20 is provided. Further, after the step S22, an address comparison step S23 for comparing whether the position of the defect generation address is closer to the outer peripheral portion OP of the recording medium 20 than the position of the reference address is provided. The reference address may be set to a specific address provided in a specific track CR of the intermediate part MP. The specific track CR may be one track spaced apart from the inner circumferential part IP and the outer circumferential part OP by the same distance.

Specifically, when the recording medium 20 is a DVD RAM, the reference address may be 1,100,000 LBA (Logical Block Address). When an address is sequentially given from the inner peripheral portion IP of the recording medium 20 to the outer peripheral portion OP according to a format, if the defect generation address is larger than 1,100,000 LBA, the optical pickup 12 may receive the inner peripheral portion. In other words, when the defect generation address is smaller than 1,100,000 LBA, the optical pickup 12 is relatively closer to the inner peripheral portion IP than the outer peripheral portion OP. It means you are in close proximity.

The defect management method of the disk drive includes a recording position replacement step of recording data in the spare area of the recording medium 20 in place of the defect occurrence address after step S23. In detail, when it is determined in step S23 that the position of the defect generation address is closer to the outer peripheral part OP than the position of the reference address, data is recorded in the second spare area of the outer peripheral part OP instead of the defect generating address ( S24). On the other hand, if it is determined in step S23 that the position of the defect generation address is not closer to the outer peripheral portion OP than the position of the reference address, data is recorded in the first spare area of the inner peripheral portion IP instead of the defect generating address. (S25).

Specifically, S24 moves the optical pickup 12 to the outer peripheral portion OP, seeks the second spare area, waits until the rotation speed of the recording medium 20 is stabilized, and a defect generation address. Irradiating a laser corresponding to the data to be recorded in the second spare area to write the data in the second spare area. Further, S25 moves the optical pickup 12 to the inner circumferential portion IP, seeks the first spare area, waits until the rotation speed of the recording medium 20 is stabilized, and a defect generation address. Irradiating a laser corresponding to the data to be recorded in the first spare area to write the data in the first spare area.

After S24 or S25, defect information related to the recording position replacement is stored in the memory 16 of the disk drive 10 (S26). The defect information may include the defect occurrence address and a specific address in the spare area replacing the defect occurrence address. After S26, the operation of recording data in the user area is continued (S27). Meanwhile, after the data recording on the recording medium 20 is completed through S27, the defect management process described with reference to FIG. 2 may be additionally performed. Through this, defect information can be recorded in the first defect management area and the second defect management area of the recording medium 20.

According to the defect management method of the disc drive described with reference to FIGS. 1 and 3, the speed of performing the data recording operation of the disc drive 10 is reduced by shortening and simplifying the path of the optical pickup 12 moving to replace the recording position. The more defects, the greater the time-saving effect compared to the conventional case.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a plan view schematically showing an optical disc drive and a recording medium mounted therein.

2 is a flowchart illustrating a defect management method according to an embodiment of the present invention.

3 is a flowchart illustrating a defect management method according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10 ... disc drive 12 ... optical pickup

14 ... Processor 16 ... Memory

Claims (10)

An address checking step of confirming an optical pickup address where an optical pickup is located after data recording on the recording medium is completed; An address comparison step of comparing the position of the optical pickup address to be closer to the outer periphery of the recording medium than to the reference address position; And a defect information recording step of sequentially recording defect information in a defect management area provided in an outer peripheral part and an inner peripheral part of the recording medium according to the result of the address comparison step. . The method according to claim 1, If the optical pickup address position is closer to the outer periphery of the recording medium than the reference address position in the address comparison step, the defect information is first recorded in the defect management area provided in the outer periphery of the recording medium in the defect information recording step. Defect information is later recorded in the defect management area provided in the inner circumference portion, and if the optical pickup address position is not closer to the outer circumference portion of the recording medium than the reference address position in the address comparison step, A defect management method comprising recording defect information first in a defect management area provided in a main part, and later recording defect information in a defect management area provided in an outer peripheral part of a recording medium. The method according to claim 1, And the defect information includes an address where a defect occurred and an address in a spare area that replaces the defect generation address. A defect detection step of detecting a defect while recording data in a user area of the recording medium; A first address checking step of confirming an address where a defect has occurred; A first address comparing step of comparing a position of a defect occurrence address with a position closer to the outer periphery of the recording medium than the position of the reference address; A recording position replacing step of recording data in a spare area provided in an outer circumference portion or an inner circumference portion of the recording medium in place of a defect generation address according to the result of the first address comparing step; A data recording continuation step of continuing the operation of recording data in the user area after the recording position replacement step; A second address checking step of confirming an optical pickup address at which an optical pickup is located after data recording on the recording medium is completed; A second address comparing step of comparing the position of the optical pickup address to be closer to the outer peripheral portion of the recording medium than to the reference address position; And, And a defect information recording step of sequentially recording defect information in a defect management area provided in an outer circumferential portion and an inner circumferential portion of the recording medium according to the result of the second address comparison step. . 5. The method of claim 4, If the position of the defect occurrence address is closer to the outer periphery of the recording medium than the position of the reference address in the first address comparison step, the recording position is replaced with a spare area provided at the outer periphery of the recording medium. If the position of the defect generation address in the first address comparison step is not closer to the outer peripheral portion of the recording medium than the position of the reference address, the recording position is replaced with a spare area provided in the inner peripheral portion of the recording medium in the recording position replacing step. How to manage defects. delete delete 5. The method of claim 4, If the optical pickup address position is closer to the outer peripheral portion of the recording medium than the reference address position in the second address comparison step, defect information is first recorded and recorded in the defect management area provided at the outer peripheral portion of the recording medium in the defect information recording step. Defect information is later recorded in the defect management area provided in the inner circumference of the medium, and if the optical pickup address position is not closer to the outer peripheral portion of the recording medium than the reference address position in the second address comparing step, the defect information recording step A defect management method comprising recording defect information first in a defect management area provided in an inner circumference of a recording medium, and later recording defect information in a defect management area provided in an outer circumference of a recording medium. 5. The method of claim 4, And the defect information includes an address where a defect occurred and an address in a spare area that replaces the defect generation address. 5. The method of claim 4, And a defect information storing step of storing defect information related to the recording position substitution in a memory of a disk drive after the recording position replacing step.

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