KR20040085361A - Method for processing defect area of write-once optical record media - Google Patents

Abstract

PURPOSE: A method for processing a defect area of a write-once optical recording medium is provided to previously scan a disk defect before recording data on a write-once disk, and to record the data by skipping over a scanned defect area, thereby protecting the write-once disk. CONSTITUTION: When a disk is inserted(201), a system confirms whether a recording command exists(202). If so, the system previously scans an area where data is to be recorded, and confirms whether a defect is in the area(203). If so, the system calculates how many data can be recorded to the defect area from a starting position(204). When the data is recorded on the disk(205), an optical pickup jumps a next recordable area by skipping over the defect area(206). If the data to be recorded remains, the optical pickup records the data from the recordable area next the defect area(207). If any defect is not discovered, the optical pickup records the data(208), and records recording information in consideration of the defect area in a file system(209).

Description

Method for processing defect area of write-once optical record media

The present invention relates to a method for processing a defective area of an optical recording medium in which the defective area of the optical recording medium is scanned in advance before data is recorded on the write-once optical recording medium so that no data is recorded in the defective area. will be.

In general, an optical recording medium such as an optical disc may have defects due to scratches on the surface, dust such as dust, errors in production, and the like. If data is recorded in such a defective area, an error may occur in the servo system, and the optical pickup may go out of the track, thereby recording the wrong contents on adjacent tracks, which may seriously affect the reuse or playback of the disc. Can be.

Fig. 1 is a block diagram of a general optical recording and reproducing apparatus, in which the optical pickup 102 has a light beam focused on an objective lens (not shown) under the control of the servo control unit 104 on the signal track of the optical disc 101. The light reflected from the signal recording surface is collected again by the objective lens and then incident to the photo detector (not shown) for detection of the focus error signal and the tracking error signal.

The photo detector includes a plurality of photo detectors, and an electrical signal proportional to the amount of light obtained from each photo detector is output to the RF and servo error generator 103.

The RF and servo error generation unit 103 is an RF signal for reproducing data, a focus error (FE) signal for servo control, a tracking error (TE) signal from an electrical signal output from each photodetector of the photodetector. And the like.

The detected RF signal is output for regeneration, and servo error signals such as FE and TE are output to the servo controller 104 for servo control.

The servo controller 104 processes the focus error (FE) signal to output a driving signal for focusing control to the focus servo driver 105, and processes the tracking error (TE) signal to process the driving signal for tracking control. Is output to the tracking servo driver 106.

The focus servo driver 105 moves the optical pickup 102 up and down by driving the focus actuator in the optical pickup 102 so that the optical disc 101 follows the vertical movement along with the rotation.

The tracking servo driver 106 moves the objective lens of the optical pickup 102 in the radial direction by driving the tracking actuator in the optical pickup 102 to correct the position of the beam and track a predetermined track. .

At this time, when the optical disk for recording data in the optical recording / reproducing apparatus as shown in FIG. 1 is an optical disk (eg, CD-RW / DVD-RW / DVD-RAM) that can be repeatedly rewritable, A defect management area (hereinafter referred to as DMA) is provided in the lead-in area and the lead-out area to manage the defective area of the optical disc.

On the other hand, in the case where the optical disk for recording data in the above-described optical recording / reproducing apparatus is a write-once disk (for example, CD-R / DVD-R / DVD + R), such a defective area is provided. There was no separate area or method to manage.

That is, when an abnormal operation occurs in the servo system due to a disc defect while recording data on the write once disc, the optical pickup 102 may be out of the track. At this time, the CPU (not shown) of the optical recording and reproducing apparatus detects further operation and turns off the recording laser diode, but this process is performed at a relatively slow speed. Therefore, since the optical pickup continues to record data in a state that is already off the track, as a result, wrong data may be recorded on adjacent tracks, or another defect may be generated on the disc, and thus the entire disc may not be used. May occur. In particular, when the optical pickup slips on the inner circumferential track, a defect may occur in an area where data has already been recorded, and thus a problem of failing to reproduce the data of the portion may occur.

As described above, if an error occurs in the servo system due to a disc defect while recording data on a disc that can be recorded once, incorrect data may be recorded on adjacent tracks due to track breakout of the optical pickup, or a defect may be generated. Severe adverse effects on data playback.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to pre-scan a defect on a disc and record the data while skipping the scanned defect area before recording the data on a write once disc. The present invention provides a method of protecting a write once disc.

1 is a block diagram of a general optical recording and reproducing apparatus

2 is an operation flowchart for performing a defect area processing method of a write once optical recording medium according to the present invention;

3A to 3E are views illustrating a process of scanning and processing a defective area of a disc according to the present invention.

Explanation of symbols for main parts of the drawings

101: optical disk 102: optical pickup

103: RF and servo error generation unit 104: servo control unit

105: focus servo driver 106: tracking servo driver

In order to achieve the above object, a method of processing a defective area of a write-once disc according to the present invention is carried out before recording data when the write-once optical record medium, i.e., the optical disc is inserted and a recording command is inputted. Scanning a certain area to check whether there is a defect in the area where data is to be recorded, and if the defect is identified in this step, checking the defect area that continues and at the same time, the amount of data to be recorded from the current recording start point to the defective area. Calculating, recording data on the optical disc by the amount of data calculated in the step and jumping the defective area; and if the amount of data to be recorded by the recording command remains, a recordable area next to the defective area. Starting recording from the beginning, the prescan checks whether there is a defect in the area where the data is to be recorded. Including the step of repeating the process is characterized in that formed.

The step may further include recording recording information related to the defective area in the file system so that data is not read from the defective area upon reproduction when recording of the data by the recording command is completed.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, with reference to the accompanying drawings illustrating the configuration and operation of the embodiment of the present invention, the configuration and operation of the present invention shown in the drawings and described by it will be described as at least one embodiment, By the technical spirit of the present invention described above and its core configuration and operation is not limited.

2 is an operation flowchart for performing a defective area processing method of a write once disc according to the present invention. 3A to 3E illustrate a process of scanning and processing a defective area of a disc according to the present invention.

For example, assume that there is an area 301 in which data has already been recorded on a disc that can be written once as shown in Fig. 3A, and there is also a defective area 302.

At this time, when the disc as shown in Fig. 3A is inserted (step 201), it is checked whether there is a recording command (step 202). If there is a recording command, before recording data on the disc, first, the area in which data is to be recorded is scanned in advance as shown in Fig. 3B to check whether there is a defect in the area to record data (step 203).

If a defect is found as shown in Fig. 3C, it is calculated how much data can be recorded from the current recording start position to the defect area (step 204). At this time, through the pre-scan of the optical pickup as shown in FIG. This information is then temporarily stored in memory such as RAM.

When data is recorded on the disc by the data length 303 calculated in step 204 (step 205), the optical pickup jumps or moves the defective area to the next recordable area as shown in Fig. 3E ( Step 206). In other words, the data is skipped without recording data in the defect area.

At this time, if data to be recorded by the recording command remains, data is recorded from the recordable area after the defective area (step 207). Here, it is assumed that the recordable area following the defective area has been confirmed that there is no defect by pre-scan before the data recording.

Even at this time, the optical pickup pre-scans the disk by using the time remaining in the middle of recording to continuously check for defects in the area where data is to be recorded. If a defect is found, the process returns to step 204 and repeats the above-described steps. If no defect is found, data is recorded by the amount specified in the recording command and the recording is terminated (step 208).

At this time, when the disc which skips the defective area and records the data as described above, data is not recorded in the defective area, and if the optical pickup follows the defective area, the optical pickup may leave the track due to the defect. Therefore, during reproduction, the optical pickup should not read data from the defective area. In other words, even during reproduction, the optical pickup should skip the defective area.

For this purpose, information about the defective area must be recorded in the file system so that the optical pickup can refer to the defective area during reproduction.

That is, if it is determined in step 208 that the recording has been completed, recording information considering the defective area to be skipped is recorded in the file system (step 209).

Then, upon reproducing the above-mentioned disc, the optical pickup reproduces the data recorded on the disc while skipping the defective area with reference to the file system.

As described above, according to the method for processing a defective area of an optical record medium, which can be recorded once, according to the present invention, before the data is recorded on a single recordable disc, the defect of the disc is scanned in advance and the scanned defect area is skipped. By recording the data, it is possible to prevent the optical pickup from escaping the track due to the defect, thereby preventing the wrong data from being recorded in the adjacent track or generating the defect.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (2)

A defect area processing method of an optical recording / reproducing apparatus for recording and reproducing data on an optical record medium that can be recorded once, (a) if the writeable optical recording medium is inserted and a recording command is input, scanning a predetermined area before recording data to check whether there is a defect in the area where data is to be recorded; (b) calculating the amount of data to be recorded from the current recording start position to the defect area at the same time as checking the defect section that continues when the defect is identified in step (a); (c) recording data on the optical recording medium by the amount of data calculated in step (b) and jumping the defective area; And (d) if the amount of data to be recorded by the recording command remains, repeating the process of checking whether there is a defect in the area where data is to be recorded by prescan while starting recording from the recordable area next to the defect area. And a defect area processing method for a write once optical recording medium. The method of claim 1, wherein step (d) And recording the recording information related to the defective area in the file system so that the data is not read from the defective area upon reproducing when recording of the data by the recording command is finished. How to deal with faulty areas