KR100574826B1 - Method for reproducing a disc containing defect area - Google Patents

Abstract

The present invention relates to a method for reproducing an optical disc having a defective area, comprising: a first step of determining whether a current position on the optical disc is an abnormal area from characteristics of a reproduction signal detected according to reproduction of the optical disc; A second step of detecting a size of the abnormal area when the current position is the abnormal area as a result of the determination; And a third step of comparing the size of the detected abnormal region with a preset value and setting a servo gain value accordingly. When the inserted optical disc is a disc having a defect section, the size of the defect section is determined. It is a very useful invention that normal playback operation can be performed even on a defect disc by detecting and setting the playback capacity optimally based on this.

Defect section, gain, objective lens, data track, RF signal

Description

Method for reproducing a disc containing defect area}             

Fig. 1 illustrates the relative motion of the data track on the optical disc, the defect section on the data track, and the objective lens when passing through the defect section.

Fig. 2 shows a configuration related to servo operation in the optical disk apparatus to which the defect disk reproducing method according to the present invention is applied.

Figure 3 shows the flow of a preferred embodiment of the defect disc playback method according to the present invention,

4 illustrates an example of determining a defect section based on a tracking servo operation control and a high frequency reproduction signal (RF signal) level for a defect section according to the present invention.

Figure 5 shows an example of detecting the size of the defect interval in accordance with the present invention.

※ Explanation of code for main part of drawing

10: optical disc 20: optical pickup

30: R / F part 40: servo control part

41: gain unit 50: timer

The present invention relates to a method for reproducing an optical disc having a defect area.

Conventionally, when the reproduction ability for defects due to scratches or black dots is improved, the reproduction ability for small defects is degraded. On the contrary, when the reproduction ability for small defects is improved, The reproducibility for the large defects is reduced, which will be described in detail with reference to FIG. 1 as follows.

1 illustrates a relative motion of an objective lens inside an optical pickup when passing through a defect section on an optical disc. If the objective lens is positioned at a point A, which is a defect section, during the reproduction of an optical disc, the servo controller (Servo) The controller performs a tracking servo off operation that holds (or TE) the previous control input. This causes the objective lens to move from point A to point B, i.e., leave the track. At this time, the centrifugal force is removed so that the objective lens moves in the tangential direction of the track.

As shown in FIG. 1, since the objective lens needs to be moved back to the data track at the point B where the defect ends, the servo controller performs tracking Servo On again. Since the objective lens is far from the data track, the servo controller must set a high frequency amplification gain in order to stably move the objective lens from point B to point C, which is the data track.

However, as the high frequency amplification gain of the servo control unit is larger, the more sensitive response is made to the smaller defects. Therefore, when the reproduction capacity for the defects is excessively set, the corresponding capability for the small defects is deteriorated.

Accordingly, the present invention was created to solve the above problems, and detects the size of the defect section on the optical disc and optimally sets the playback capability based on this, so that normal playback operation can be performed even for the defect disc. The purpose is to provide a method of playing a defect disc.

A defect disc reproducing method according to the present invention for achieving the above object comprises: a first step of determining whether a current position on the optical disc is an abnormal area from characteristics of a reproduction signal detected according to reproduction of an optical disc; A second step of detecting a size of the abnormal area when the current position is the abnormal area as a result of the determination; And a third step of comparing the detected abnormal region size with a preset value and setting a servo gain value accordingly.

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

Fig. 2 shows a configuration related to servo operation in the optical disk apparatus to which the defect disk reproducing method according to the present invention is applied, which includes an optical pickup 20 for reading a recording signal on the optical disk 10; An R / F unit 30 for filtering and outputting a high frequency reproduction signal (RF signal) detected by the optical pickup 20; A timer 50 for advancing time; And determining whether a current position on the optical disc 10 is a defect section from an RF signal (or a PI (pull in error) signal) output from the R / F unit 30, and in the case of a defect section, The servo controller 40 is configured to detect the size of the defect section based on the time progressed by the timer 50 and to set the gain value of the gain section 41 accordingly.

FIG. 3 shows a flow of a preferred embodiment of the defect disc playback method according to the present invention. Hereinafter, the playback method of FIG. 3 according to the present invention will be described in detail with reference to FIG.

First, when the optical disk 10 is rotated after being inserted and mounted (S10), the servo controller 40 performs a normal regeneration operation in a state where the tracking servo operation is turned on as shown in FIG. In addition, the tracking error signal (TE signal) is normally output.

On the other hand, the servo control unit 40 is detected by the optical pickup 20 in accordance with the rotational drive of the optical disc 10 and the RF signal (or the R / /) is filtered by the R / F unit 30 is output The F unit 30 determines whether the current position on the optical disc 10 is a defect section based on the PI signal output from the reflection signal to the optical disc 10 (S11). (20) When the internal objective lens is located in the defect section on the optical disk 10, as shown in FIG. 4, the level of the RF signal (or PI signal) drops sharply, so that the servo controller 40 When the level of the output RF signal (or PI signal) is detected and the detected level value is less than or equal to a predetermined level value, the current position on the optical disc 10 is determined as a defect section (S20) to perform a tracking servo operation. Off, along with The servo controller 40 controls the timer 50 to advance time from the present time (S21).

Even in such a state where the tracking servo operation is off, the servo control unit 40 maintains the objective lens on the optical disc 10 based on the level of the RF signal (or PI signal) output from the R / F unit 30. It is determined whether or not it is located in the defect section (S22). If the level of the RF signal is greater than or equal to a predetermined level value, the servo controller 40 determines that the objective lens has a defect section on the optical disc 10. It is determined that the out of (S30).

When the deviation from the defect section on the optical disc 10, the servo controller 40 controls the timer 50 to stop the time progress and to turn on the tracking servo operation (S31).

On the other hand, after leaving the defect section, the objective lens should be positioned again at the point C, which is a data track. In this case, as shown in FIG. 1, an overshoot occurs in the BC section. In the case where the defect interval AB is large, if a small gain value is set, the overshoot becomes larger so that the objective lens may not be accurately moved to the original playback data track and may be positioned on the next data track. If the size of the defect section is small, setting a large gain value causes the objective lens to move with a large gain even though the objective lens slightly deviates from the data track so that the objective lens passes past the original playback data track. It can be located on the track.

In this way, if the gain value is set without considering the size of the defect section, the objective lens may not move correctly to the original playback data track, and the playback data may be broken.

Therefore, when the objective lens is out of the defect section on the optical disc 10, the servo controller 40 detects the size of the defect section based on the time progressed by the timer 50. If the size of the detected defect section is smaller than the preset size value as shown in ① of FIG. 5, it is determined to be a small defect, and if the size of the detected defect section is preset as shown in ② of FIG. 5. If it is larger than the size value, it is determined as a large defect.

Subsequently, the servo controller 40 sets an optimum gain value to the gain unit 41 according to the determination result. That is, when the detected defect section has a small size as shown in ① of FIG. By setting a small gain value in the gain part 41 and setting a large gain value in the gain part 41 when the detected defect section has a large size as shown in ② of FIG. 5 (S32), Regardless of the size of the defect section, the objective lens is accurately positioned from point B to point C of the original playback data track.

In the above embodiment, a preset level value used by the servo controller 40 to determine whether the current position is a defect section, a preset size value used to detect the size of the defect section, and detected The gain value set in the gain unit 41 according to the size of the defect section is an optimal value previously detected by an experiment for the implementation of the present invention.

The above-described preferred embodiments of the present invention are disclosed for purposes of illustration, and those skilled in the art can improve, change, and substitute various other embodiments within the technical spirit and scope of the present invention disclosed in the appended claims below. Or addition may be possible.

In the defect disc reproducing method according to the present invention as described above, when the inserted optical disc is a disc having a defect section, the defect disc size is detected and the playback capacity is optimally set based on the defect section. It is a very useful invention to allow normal playback operations to be performed on discs.

Claims (4)

In the optical disc playback method, A first step of determining whether a current position on the optical disc is an abnormal area from characteristics of a reproduction signal detected in accordance with reproduction of the optical disc; A second step of detecting a size of the abnormal area when the current position is the abnormal area as a result of the determination; And And a third step of comparing a size of the detected abnormal region with a preset value and setting a servo gain value accordingly. The method of claim 1, The reproduction disc is characterized in that the characteristic of the reproduction frequency, RF (Radio Frequency) signal or PI (Pull In Error) signal level. The method of claim 1, And the third step is to set a servo gain value in proportion to the size of the detected abnormal area. The method of claim 3, wherein And the set servo gain value is an optimal value for moving the optical pickup internal objective lens deviating from the reproduction data track on the optical disc due to the abnormal region to the original reproduction data track.

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