KR100269164B1 - Synchronization signal detection method - Google Patents

Abstract

PURPOSE: A detecting method for synchronizing signal pattern is provided to detect a synchronizing signal through converting a mark location within a critical range in case of misidentification of a synchronizing signal mark location and a pattern signal. CONSTITUTION: By detecting identification information, a critical value is established based on a detect the location of a synchronizing mark signal. By detecting the synchronizing mark signal, data are read. Otherwise, location of the synchronizing mark signal is enlarged while enlarging the critical value. By detecting the synchronizing mark signal, the data are read. Otherwise, the location of the mark signal is returned while reducing the enlarged critical value for detecting the synchronizing mark. If the synchronizing mark is not detected, an error is decided.

Description

Synchronization signal pattern detection method

1 is a flowchart of a conventional synchronization signal detection method.

2 shows a data format.

3 is a flowchart illustrating a synchronization signal detection method according to the present invention.

The present invention relates to a synchronization signal detection method in a magneto-optical information recording and reproducing apparatus, and more particularly, to a synchronization signal detection method for detecting a synchronization signal by changing the synchronization signal mark position within a threshold range.

When recording and reproducing information on a disc-shaped information recording medium in units of sectors as identification information, an address or data reproducibility may occur due to a recording drive state or a failure of a recording medium, a recording situation, or the like.

1 is a flowchart illustrating a conventional synchronization signal detection method.

Referring to the operation flow of FIG. 1, a seek operation is commanded to the drive apparatus to reproduce the target information, and then executed. If an error occurs in the drive device, the search operation ends (step 10).

Next, a search sector address is set to detect a target sector for reproducing information (step 20).

Next, it is determined whether the target sector has been detected (step 30). If the target sector is not detected, an error may occur due to the inability to reproduce due to a bad medium or the like (step 60).

When the target sector is detected in step 30, it is determined whether the synchronization signal mark position and the pattern signal match and are detected (step 40). If the mark position and the pattern signal match, the disk information corresponding to the address is read (step 50).

However, the conventional synchronization signal detection method described above has a problem in that information on the target sector cannot be reproduced when the synchronization signal mark position and the pattern signal do not exactly match.

Accordingly, an object of the present invention is to provide a synchronization signal detection method for detecting a synchronization signal by changing the mark position within a threshold range even if the synchronization signal mark position and the pattern signal do not exactly match.

In the synchronization signal detecting method of the magneto-optical information recording and reproducing apparatus for achieving the above object,

A first step of executing a seek operation to set the predetermined threshold value based on the correct position of the sync mark signal when the detection of the identification information is successful and to process the error if the identification information detection fails;

A second step of detecting a sync mark signal based on the predetermined threshold value set in the first step and reading data if the detection is successful, and expanding the position of the sync mark signal at the correct position if the detection is successful; ;

On the basis of the predetermined threshold enlarged in the second process, the sync mark signal is detected. If the detection succeeds, the sync mark signal is read. If the detection fails, the sync mark signal is returned to the correct position. Detecting a third process;

If the sync mark is not detected in the third process, an error processing is performed, and if the sync mark is detected, a fourth process of reading data is included.

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

2 is a diagram showing a data format recorded on a disc.

In Fig. 2, the synchronization pattern is used for recognizing data or address start or for clock reproduction. The user data area is an area in which data desired by a user is recorded and reproduced. The identification information may correspond to a track number or a sector number. The error correction detection code is an area generated for user data or identification information.

3 is a flowchart illustrating a synchronization signal detection method according to the present invention.

In FIG. 3, steps 100 to 120 are the same as steps 10 to 30 of FIG.

If the detection of the Mokpo identification information is successful in step 1200, the correct position of the sync mark signal is detected and the detected correct position is set as a threshold default value (steps 130 and 140).

Here, the threshold means a cancellation level value for detecting a signal in the reproduction signal. The threshold default value is determined in consideration of the noise level and the light detection level in the magneto-optical information recording and reproducing apparatus. Therefore, when the threshold value is increased, the influence of noise may be reduced, but when the light detection level is decreased, the case where the signal cannot be detected may be increased. On the other hand, when the threshold is decreased, the probability of erroneously recognizing noise as a signal is increased, but the signal can be detected normally even if the light detection level is reduced.

Next, if the initial synchronization signal detection is successful, the address data corresponding to the target identification information is read (step 150).

If the initial synchronization signal detection fails in step 150, the synchronization signal is expanded from the correct position in both directions and the threshold is increased (steps 160 and 170). Here, expanding the synchronization signal in both directions means increasing the size of the section (width of the synchronization mark signal position) for detecting the synchronization signal. In addition, the increase of the threshold is for preventing the misdetection of the synchronization signal, which may be generated due to the increase in the size of the interval for detecting the synchronization signal. In operation 180, it is determined whether the synchronization pattern to be searched for is matched with the pseudo pattern by detecting the pseudo synchronization pattern at the position moved from the home position.

If the sync pattern is matched, the data to be searched is read. If the synchronization pattern does not match, the synchronization signal is expanded in the negative direction from the home position and the threshold value is decreased (steps 190 and 20). In this case, expanding the sync signal in the negative direction reduces the size of the section for detecting the sync signal in order to reduce the enlargement of the size of the section for detecting the sync signal to the size of the section in the right position. Means that. The reason why the threshold is decreased in step 200 is to solve the problem of failing to detect the synchronization signal normally because the light detection level is lowered.

In step 210, the pseudo-synchronization pattern is detected at the moved position to determine whether the synchronization pattern is identical to the synchronization pattern to be searched. If the synchronization pattern matches, the data to be searched is read (step 220). If not, an error is generated (step 230).

As described above, when the initial synchronization signal detection fails due to a bad medium or a drive error, the present invention may also move the enlargement of the synchronization signal within a threshold range and detect the synchronization signal to slightly change the synchronization signal pattern or mark position. The advantage is that you can read the information you want.

Claims (1)

A synchronization signal detection method of a magneto-optical information recording and reproducing apparatus, A first step of performing a seek operation to set a predetermined threshold value based on the exact position of the detection of the sync mark signal when the detection of the identification information is successful, and an error process if the identification information detection fails; A second step of detecting a sync mark signal based on the predetermined threshold value set in the first step and reading data if the detection is successful, and expanding the position of the sync mark signal at the correct position if the detection is successful; ; Based on the predetermined threshold enlarged in the second process, the sync mark signal is detected. If the detection succeeds, the sync mark signal is read. If the detection fails, the position of the sync mark signal is returned to the correct position. A third step of detecting the sync mark after reducing to below; And a fourth step of error processing if the sync mark is not detected in the third step and reading data when the sync mark is detected.