KR100318203B1 - Recording Control Method of Optical Disc - Google Patents

Abstract

The present invention relates to an optical disc recording control method capable of determining whether a disc is writable and whether or not it is acceptable in a drive.

The optical disc recording control method according to the present invention performs a recording power test on the disc before recording the data on the disc, and thereby records the record corresponding to the detected optimum recording power and the media code recorded in a specific area of the disc. A first step of determining whether the difference of power is within an allowable range of the recording power, and the difference between the optimal recording power and the recording power registered in correspondence with the media code in the first step is within the allowable range of the recording power for the disc; A second step of scanning the recording area of the disc and counting the number of track departures and the discontinuity of the synchronization signal; and determining whether data can be recorded on the disc according to the number of tracks or the value of the discontinuity coefficient of the synchronization signal. A third step is included.

According to the present invention, it is possible to determine whether the disk is used before recording, to prevent the recording stop and the loss of the recording data due to errors occurring during recording, to guarantee the recording quality, and to prevent the disk waste of the user.

Description

Recording Control Method of Optical Disc

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a recording control method for an optical disc, and more particularly, to a recording control method for an optical disc capable of determining whether or not a drive is acceptable by determining a recordable state of a disc.

Optical discs are a disc medium that has begun to be generalized with the spread of compact discs (CDs). In recent years, optical discs (Digital Versatile Disc) have become more and more expected. In general, optical discs are discs for reproduction only, such as CD-ROM (CD-Read Only Memory), DVD-ROM, etc., and once-recordable discs such as CD-WORM (CD-WORM Once) In addition, it can be classified as a disc capable of repeating recording, such as a CD-RW (CD-Rewritable), a DVD-Random Access Memory (DVD-RAM), or the like.

In general, an optical recording apparatus uses a small energy light beam that does not change the physical characteristics of the information recording layer by recording information on the optical disc by irradiating a light beam of relatively large energy that can change the physical characteristics of the information recording layer. Play back information from. To this end, an optical recording apparatus typically uses a laser diode to drive the laser diode at a relatively high recording power to perform optical recording.

Such an optical recorder inevitably performs an Optimal Power Control (OPC) process for selecting a recording power suitable for a disk when information is recorded on a recordable optical disk. To this end, the recordable optical disc has a PCA (Power Calibration Area), which is a test area for recording power determination, in the unused area of the innermost portion.

Referring to Fig. 1, a layout diagram of a recording area of a recordable optical disc is shown.

The recordable optical disc shown in FIG. 1 is largely divided into a clamping area 10 clamped by a clamper and a recording area 20 in which data is recorded and reproduced. The recording area 20 is a PCA 22 which is used as a test area when performing OPC in the radial direction, and a PMA (Program Memory Area) 24 in which the head address of a track in which data is recorded in the user data area 26 is recorded. ), A lead-in area 26, a user data area 28 in which user data is recorded, and a lead-out area 30 located at the outermost periphery. Here, the PCA 22 is divided into a test area 22A in which test data is recorded when performing OPC and a count area capable of counting the number of OPC executions, that is, the number of repeated recordings.

The optical recorder records and reproduces test data on the PCA 22 of the above-described optical disc, and detects a reproduction signal (i.e., high frequency signal) proportional to the amount of reflected light, and corresponds to a parameter corresponding to vertical symmetry of the high frequency signal waveform, i.e., beta. The value of (β) is calculated and the optimal recording power is adjusted to keep the beta constant, and the data to be recorded is recorded on the disc in accordance with the file structure. In this case, the recording power may vary due to factors such as the recording sensitivity of the disk film, the change in the recording sensitivity due to temperature, and the variation in the laser wavelength.

By the way, when recording is performed, the stability of the optical recorder / player is also important, but the stability of the recording medium is also important. However, in the case of recordable optical discs, there are some discs which are produced by infringing the defective disc due to the deformation of the disc material or the disc unevenness due to the unstable manufacturing process, and the disc being produced by stealing the manufacturer's code stamped on the disc. Full satisfaction is a very difficult system. In other words, when information is recorded on an unstable optical disc in the optical recording / reproducing apparatus, recording stop due to an error during recording, disk damage due to an error during recording, increase of access time due to deterioration of quality after recording, and quality after recording Problems such as incompatibility of playback due to deterioration and disk waste to users are caused.

Accordingly, an object of the present invention is to provide an optical disc recording control method capable of determining whether the disc is acceptable before the recording to determine whether it is acceptable in the optical recording / reproducing apparatus.

Another object of the present invention is to provide an optical disc recording control method capable of preventing only recording errors and deterioration of a reproduction signal by recording only on an optical disc that is acceptable in the optical recording / reproducing apparatus.

1 is a layout diagram of a conventional recordable optical disc.

2 is a flowchart for explaining an optical disc recording control method according to an embodiment of the present invention step by step;

FIG. 3 is a flowchart for explaining a Next1 process shown in FIG. 2 step by step;

<Brief description of symbols for the main parts of the drawings>

10: clamping area 20: recording area

22: PCA (Power Calibration Area) 22A: Test Area

22B: Count area 24: PMA (Program Memory Area)

26: lead-in area 28: user data area

30: lead-out area

In order to achieve the above objects, the optical disc recording control method according to the present invention performs a recording power test on the disc before recording the data on the disc, and as a result, the optimum recording power detected and the media recorded in the specific area of the disc. A first step of determining whether the difference of the recording power registered in correspondence with the code is within the allowable range of the recording power, and the difference between the optimum recording power and the recording power registered in correspondence with the media code in the first step is determined for the disc. A second step of scanning the recording area of the disc and counting the number of track deviations and the discontinuity of the synchronization signal when it is determined to be within the allowable range of the recording power, and for the disc according to the number of tracks or the value of the discontinuity coefficient of the synchronization signal. And a third step of determining whether data can be recorded.

Other objects and advantages of the present invention in addition to the above object will be apparent from the description of the preferred embodiment of the present invention with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 2 and 3.

2 is a flowchart for explaining an optical disc recording control method according to an embodiment of the present invention step by step.

First, when the optical recording / reproducing apparatus is set to the recording mode, in step 1, the optical recording / reproducing apparatus reads and confirms a manufacturer-specific media code previously recorded in a specific area of the optical disc. Here, the media code is a code assigned to a manufacturer registered in the OSJ (Orange Book Study of Japan), and the laser power according to the speed of testing the media for each media code is registered in the form of a database in the microcomputer. In step 2, the OPC process is performed, and in step 3, the OPC recording power (x) is detected. In step 4, the recording power (hereinafter referred to as reference recording power) y registered in the form of a database in the microcomputer is detected corresponding to the media code identified in step 2 above. Then, in step 5, the OPC recording power x detected in step 3 and the reference recording power y detected in step 4 are compared. Here, if the difference between the OPC recording power (x) and the reference recording power (y) is more than a power margin (for example, 9 to 11 GPa), the process proceeds to step 6 where the disk to which data is to be recorded is recorded with the recording medium of the disk of the media code. It is determined that the disc does not fit, that is, the media code theft disc, or the disc is a different material. Subsequently, when data is recorded on the disc in step 7, problems such as deterioration of recording quality and incompatibility of reproduction signals may occur, so that the user is not informed of the unknown media, that is, unacceptable media, without performing the recording operation. .

On the other hand, if it is determined in step 5 that the difference between the OPC recording power (x) and the reference recording power (y) is within the power margin, the process proceeds to the next process shown in FIG.

First, in step 11, the optical pickup is moved to the recording position of the optical disc. In step 12, scanning is started while irradiating a light beam to the recording area at recording speed. Next, in step 13, the number of times the track bounces, that is, the number of track departures, is counted while scanning the recording area. In other words, the tracking error signal is detected from the reproduction signal detected by the amount of light reflected while scanning the recording area, and the number of times that the tracking error signal becomes above a certain reference level is regarded as the track deviation and counted. . In step 14, the recording area is scanned, and the discontinuity of the synchronization signal recorded on a track of the recording area in units of predetermined periods is counted. In general, a recordable optical disc has a signal track formed in the form of a peak and a groove to indicate a tracking state, and a signal cycle is formed on both sides of the signal track to indicate a rotation speed and to allow random access. The wobbling signal is preformatted. The wobbling signal includes an address indicating a physical position of the signal track and a synchronization signal indicating a predetermined unit of the signal track, for example, a frame unit. Accordingly, the synchronization signal can be detected from the wobbling signal included in the signal reproduced while scanning the recording area, and the number of the synchronization signal can be counted. Then, the number of the synchronization signals missing the difference between the number of the synchronization signals and the count of the synchronization signals that should normally come out for a certain time, that is, the discontinuity of the synchronization signal is counted. When the scan operation for the advanced recording area is finished while counting the above-described track deviation count and the discontinuity of the synchronization signal in step 15, the track deviation count count value is then compared with the first allowable value N in step 16. In this step 16, if the track deviation counting value is smaller than the first allowable value N, it is determined that the shaping of the tracks of the hills and valleys is within the allowable value during the disc manufacturing process, and the flow proceeds to the next step 17 to set the discontinuity coefficient of the sync signal It is compared with 2 tolerance value (M). If the discontinuity count value of the synchronization signal is smaller than the second allowable value M in this step 17, it is determined that there is no problem in the disc manufacturing, and in the next step 18, the recording operation of recording data by the recording command on the optical disc is performed.

On the other hand, if the number of track departure counts in step 16 is greater than or equal to the first specific value (N), it is determined that the disk has a recording error, such as when jumping to the next signal track during recording, and the recording operation is not performed. Notify the user that there is a problem on the disk. In addition, if the synchronization signal discontinuity count value in step 17 is greater than or equal to the second allowable value M, the process also proceeds to step 19 where the wobble signal imprinted on the disk is severely deformed in the disk rotation direction so that it cannot be compensated systematically and recorded when data is recorded. It is judged that there is a problem in reproduction compatibility and quality during reproduction by being included as jitter, and the user is notified that there is a problem on the disc without performing the recording operation (steps 19 and 20).

As a result, it is possible to determine whether the disc is used before recording and to prevent the stoppage of recording and loss of recording data due to errors occurring during recording, to guarantee the quality of the recorded disk systemically and to prevent the user from wasting disk. do.

As described above, according to the optical disc recording control method according to the present invention, it is possible to determine whether the disc is used before recording and to prevent the recording stop and the loss of the recording data due to an error occurring during recording. In addition, according to the optical disc recording control method according to the present invention, it is possible to determine whether the disc is used before recording, to ensure the recording quality systematically, and to prevent the disc waste of the user.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (4)

Before recording data on the disc, the recording power test is performed on the disc, and the difference between the detected optimal recording power and the recording power registered corresponding to the media code recorded in the specific area of the disc is the allowable range of the recording power. The first step of determining whether it is within If the difference between the optimal recording power and the recording power registered in correspondence with the media code is within the allowable range of the recording power for the disk in the first step, the recording area of the disk is scanned to determine the number of track deviations and the synchronization signal. A second step of counting continuity, And determining whether data can be recorded on the disc according to the number of tracks or the discontinuity coefficient value of the synchronization signal. The method of claim 1, The second step is In the step 1, if it is determined that the difference between the optimal recording power and the registered recording power is more than the allowable range of the recording power, determining that the disk corresponding to the media code is different from the material of the disc and notify the user. Optical disc recording control method. The method of claim 1, The third step is Performing a recording operation when the number of track departures and the discontinuity coefficient of the synchronization signal are within an allowable value; And determining that the number of track departures and the discontinuity count value of the synchronization signal are greater than or equal to the allowable value and notifying the user of the bad disk. The method of claim 3, wherein And determining that the number of track departures or the discontinuity count value of the synchronization signal is greater than or equal to the allowable value and notifying the user of the bad disk.