KR20030083117A - Method controling tilt of optical record media - Google Patents

Abstract

PURPOSE: A tilt control method for an optical recording medium is provided to detect and compensate tile stably and precisely without using any exclusive tilt control device even when a header is not in a disc. CONSTITUTION: A tilt control method for an optical recording medium includes the steps of uniformly dividing a disc into n areas with respect to a zero point for making the change of RF signals linear(101), turning on the focussing and tracking(102), and moving an optical pickup to an outermost periphery of the disc for carrying out the tilt control for all recorded or non-recorded discs(103). A change in the light reflection is computed while rotating the disc at a lowest speed for minimizing cotton dust components of the disc(104). The n areas of the disc area grouped in m areas according to the inclination of the RF signals(105). A tilt control value of a corresponding group is set by the inclination of the detected RF signals and stored by group(106). As the optical pickup reaches to a certain group, the tilt of the corresponding group is automatically compensated by the tilt control value of the corresponding group(107). Then, the reading or recording of data is carried out with respect to the disc(108).

Description

Method of tilt control of optical record carrier

The present invention relates to an optical recording medium system, and more particularly to a method of controlling tilt by detecting tilt control information of an optical recording medium.

In general, an optical recording medium, that is, an optical disk, may be warped during the injection and curing of resin in the manufacturing process, which may cause eccentricity even when a central hole is drilled. Further, even if the disc track is accurately recorded in a spiral shape at a pitch of a predetermined standard, an eccentricity is generated because the center hole is varied. Thus, the disk rotates with eccentricity, so it is difficult for the central axis of the motor and the center of these tracks to completely coincide.

For this reason, since it is difficult to read exactly the signal of the desired track accurately, the CD and DVD system sets the standard for this deviation amount, and tracking servo is performed so that the light beam can always follow the desired track even if such an eccentricity occurs.

That is, the tracking servo generates an electric signal corresponding to the beam trace state and based on the signal, moves the objective lens or the optical pickup body in the radial direction to correct the position of the beam so that the track can be accurately followed.

On the other hand, when the beam deviates from the track, not only the eccentricity of the disc described above but also the case where the disc is inclined. This can occur due to mechanical problems such as errors when mounting the disk to the spindle motor. That is, the focusing and tracking do not exactly match vertically, but are distorted. In this way, the disk is tilted.

This tilt was not a big problem for CDs with large track pitches because of their wide track pitch. Here, the tilt margin is an amount that can be corrected even if the disk is inclined to some extent. However, in DVDs with narrow track pitch as optical applications such as optical discs have become more dense, the radial tilt margin for jitter is small, so that a slight tilt, i.e. a slight tilting of the disc, causes the beam to move to the next track. This happens, but tracking servo alone is not enough. That is, even if the beam is moved to the next track by tilt, if the beam is in the center of the track, the tracking servo can determine that the track is accurately tracked.

In this case, data cannot be read correctly during reproduction, and since the data cannot be recorded accurately on the track during recording, double distortion occurs when the recorded data is reproduced.

Therefore, in the conventional optical disc system control, the recording and reproduction of data is performed without performing the tilt control, or the tilt control is performed by installing a separate tilt control device. For example, there is a method of detecting a tilt of a disc by setting a tilt sensor for detecting tilt in the pickup, for example, a tilt-only light receiving element. In addition, in the DVD-RAM, a method of controlling the tilt by detecting a signal magnitude of a variable frequency oscillator (VFO) portion of a header signal has been proposed.

However, the method of controlling the tilt using the dedicated tilt control device described above or using the VFO signal of the header has a problem in that the size of the set is increased while the precision of the tilt control is lowered. In addition, if there is no header in the disc without using the dedicated tilt control device, there is no way to detect the tilt, and thus tilt control cannot be performed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to divide the disk into a plurality of areas evenly, to move the optical pickup to the outermost periphery of the disk to extract the tilt control information, and to extract the extracted tilt control information. According to the present invention, there is provided a tilt control method of an optical recording medium in which a plurality of equally divided regions are grouped again to control tilt for each group.

1 is a flowchart illustrating a tilt control method of an optical record carrier according to the present invention.

FIG. 2 shows an example in which the optical recording medium of FIG. 1 is divided equally into n areas.

3 is a view showing an example of the RF signal detected after moving the optical pickup to the outermost circumference in the present invention

4 illustrates an example of grouping the n equally divided regions into m regions according to the slope of the RF signal of FIG. 3.

FIG. 5 shows an example of one of the m groups of FIG.

The tilt control method of the optical recording medium according to the present invention for achieving the above object comprises the steps of equally dividing the optical recording medium into n (n is a natural number) area, and the optical pickup in the focus, tracking on state Moving the optical record carrier to the outermost periphery of the optical record carrier to detect an RF signal, and grouping the n equally divided regions into m (m is a natural number) regions according to the amount of change in the RF signal. And extracting the tilt control information of the corresponding group from the RF signal, storing the tilt control information for each group, and performing the tilt control for each of the grouped areas.

The number of equally divided areas of the optical record carrier is at least larger than the number grouped.

In this step, the point where the slope of the RF signal is changed is used as a criterion for grouping.

In this step, the equally divided regions corresponding to the portions where the slope of the RF signal increases or decreases linearly becomes a group.

Other objects, features and advantages of the present invention will become apparent from the detailed description of the embodiments with reference to 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.

According to the present invention, the disk is equally divided into n areas, the optical pickup is moved to the outermost periphery of the disk, and the tilt control information is extracted while rotating the disk, and the plurality of regions equally divided according to the extracted tilt control information are again m. It is to control the tilt by grouping by group. Where n> m. That is, the number of evenly divided areas on the disk must be at least greater than the number grouped.

1 is an operation flowchart of a tilt control method according to the present invention.

Referring to FIG. 1, the disk is equally divided into n areas based on the origin as shown in FIG. 2 (step 101). That is, the disc is sufficiently subdivided into any equal region to linearize the change in the RF signal for tilt control. In this invention, although the area ratio of equal parts is equal to an example, it can divide into an equal part.

Then focus and tracking are turned on (step 102), and the optical pickup is moved to the outermost circumference on the disc (step 103).

Here, the reason for moving the disc to the outermost circumference is to perform tilt control irrespective of recorded and unrecorded discs. In other words, even when data is recorded in full when the disc is recorded, a few tracks of most outermost lines are not recorded. Therefore, if tilt control is detected by detecting tilt control information in this portion, tilt adjustment irrespective of recorded and unrecorded discs can be performed.

When the optical pickup moves to the outermost circumference of the disk in step 103, the amount of light reflection change is calculated while rotating the disk at the lowest double speed to minimize the disk isolation component (step 104). That is, the RF signal in the outermost circumference is detected. Here, the disk detects the RF signal after address extraction by about three revolutions.

At this time, since the disk reflection amount when the focus error is minimum, that is, the RF signal is maximum, the RF signal when the focus error is minimum is detected.

The RF signal of the unrecorded disc is detected as a relatively constant signal to which a high frequency component is added in the track-on state as shown in FIG.

Then, the equally divided n regions are grouped into m regions according to the slope of the RF signal (step 105). At this time, the regions of the portions where the slope increases or decreases linearly become a group.

That is, in the unrecorded area data analysis, the tilted point is grouped as shown in FIG. 3, and the equalized areas are grouped as shown in FIG. 4 so that the tilt control can be automatically followed according to the state of the disc. do.

For example, the information about the equally divided areas according to the physical address on the disk is pre-tabled, and then applied to the table when the evenly divided areas are grouped according to the RF signal analysis. The grouped areas are areas in which measured RF is unilaterally reduced or increased.

In this case, the number of equally divided regions belonging to the one group depends on the amount of change of the RF signal, that is, the amount of data. For example, a group may consist of one evenly divided region, and a group may consist of three evenly divided regions.

Then, the tilt control value of the corresponding group is set using the detected slope of the RF signal and stored for each group (step 106). That is, since the slope of the RF signal becomes a tilt control value, the tilt can be compensated by adjusting the actuator to a value opposite to the slope of the RF signal during tilt control.

At this time, since the pickup reads the address information when the disk is rotated, the physical address which is the boundary of each group is also stored. 5 shows an example of a portion of a grouped area, which stores the physical address hung on the border.

That is, the physical address that spans the boundary line is stored in advance based on the boundary line with the other group, and then the tilt of the next group can be adjusted when the optical pickup passes the stored physical address.

For example, it is possible to determine which group the optical pickup is currently in based on the physical address of the boundary, and when the optical pickup enters any group, the tilt is automatically compensated for using the tilt control value of the group (step 107). ). Data is then written to or read from the optical record carrier (step 108).

As described above, according to the tilt control method of the optical recording medium according to the present invention, after the disk is divided equally into n areas, the optical pickup is moved to the outermost periphery of the disk, and the tilt control information is extracted while rotating the disk. By controlling the tilt by group by grouping a plurality of equally divided areas according to the tilt control information, which is divided into m groups, it is possible to use a separate tilt control device in a high-density optical disk and to provide a stable even when there is no header in the disk. The tilt can be detected and compensated accurately.

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 (5)

(a) equally dividing the optical record carrier into n (n is a natural number) regions; (b) detecting an RF signal while rotating the optical record carrier by moving the optical pickup to the outermost circumference of the optical record carrier in a focus, tracking on state; (c) Grouping the n equally divided areas into m (m is a natural number) areas according to the change amount of the RF signal, extracting the tilt control information of the corresponding group from the RF signal, and then applying tilt control information for each group. Storing; And and (d) performing tilt control for each of the grouped regions. The method of claim 1, And wherein the number of equally divided regions of the optical record carrier is at least greater than the number of groupings. The method of claim 1, wherein step (c) And a point at which the slope of the RF signal is changed as a reference for grouping. The method of claim 1, wherein in step (c) And evenly divided regions corresponding to portions in which the slope of the RF signal linearly increases or decreases into one group. The method of claim 1, wherein step (d) And tilt control is performed by using previously stored tilt control information of the group when the optical pickup is located in a specific group.