KR100662909B1 - Method for reading TOC information of an optical disk and optical disk apparatus thereof - Google Patents

Abstract

Disclosed are a method of reading TOC (Table Of Contents) information of an optical disc, and an optical disc apparatus using the method. The TOC information reading method searches for an ID recorded in a sector header in a predetermined data area of an optical disc, turns off the control for focus and track following while switching the spindle control to a constant angular velocity (CAV) method. The amount of movement to the TOC area of the optical disc is calculated based on the searched ID. Then, the optical pickup is moved to the TOC area of the optical disc according to the calculated movement amount, the control for focus and track following is turned on, the spindle control is switched to the CLV (Constant Linear Velocity) method, and then the TOC of the optical disc is Read the information. According to the present invention, the TOC information of the optical disk can be stably read without a separate device.

Optical Disc, TOC, Disturbance

Description

Method for reading TOC information of an optical disk and optical disk apparatus

1 is a diagram showing the structure of a typical optical disc;

2 is a block diagram of an optical disk apparatus to which the TOC information reading method is applied, according to an embodiment of the present invention;

3 is a flowchart provided to explain a method of reading TOC information according to an embodiment of the present invention; and

Explanation of symbols on the main parts of the drawings

110: spindle motor 120: pickup

130: drive unit 140: servo unit

150: RF unit 160: DSP

170: control unit 180: storage unit

The present invention relates to a method of reading TOC information and an optical disk device using the method, and more particularly, a TOC capable of reading table of contents (TOC) information of an optical disk regardless of disturbance without using a separate device. An information reading method and an optical disk device using the method.

An optical disc is a recording medium capable of recording, erasing, rewriting, etc. information by optical means, and examples thereof include CD-ROM, CD-R, CD-RW, and the like. An apparatus capable of reproducing data recorded on such an optical disc is called an optical disc apparatus, and may include a function of recording data on the optical disc. Examples of the optical disk device include a CDP (Compact Disc Player), a DVD player (DVD Player) and the like.

1 shows the structure of a general optical disc. Referring to FIG. 1, the optical disc has a lead-in area 10 in the inside thereof, a lead-out area 14 in the outside thereof, and a lead-in area 10 and a lead out area. The data area 12 is formed between the 14. Table of contents (TOC) information is recorded in the lead-in area 10. The TOC information includes information about the number of tracks, the start position, the length of each track, and the like on the optical disc. When the optical disc apparatus recognizes the optical disc, it automatically reads the TOC information to know the information on all data in the optical disc, and the optical disc can be played only when the TOC information can be read.

However, since the ID is not recorded in the TOC area in which the TOC information is recorded, unlike the data area 12, the TOC area cannot be searched with reference to the ID. Therefore, by using an apparatus to stop the optical pickup at a position where the TOC information can be read, or by calculating the number of tracks from the position of the data region where the ID can be read to the TOC region in advance, You must use a method of moving the pickup to read TOC information.

However, as described above, since the TOC information is located at the innermost circumference of the optical disc, the optical disc is caused by disturbances such as surface vibration of the optical disc generated in the focus servo system and eccentric vibration due to eccentricity present in the track following servo system. In the process of moving the pickup to the TOC area, there may occur a case where the pickup is stuck to the innermost circumference of the optical disc. In such a case, it may be impossible to read TOC information of the optical disc, and the reproduction of the optical disc may be impossible.

Accordingly, an object of the present invention is to provide a method for reading TOC information and an optical disk apparatus using the method, which can stably read TOC information of an optical disk without being affected by disturbance or the like without using a separate device. .

According to an aspect of the present invention, there is provided a method of reading TOC information, the method comprising: searching for an ID recorded in a sector header in a predetermined data area of an optical disc, switching spindle control to a constant angular velocity (CAV) method, focusing and Turning off the control for track following, calculating a movement amount to the TOC region of the optical disc based on the ID, and moving the optical pickup to the TOC region of the optical disc according to the calculated movement amount; Turning on the control for track following, switching the spindle control to the CLV (Constant Linear Velocity) method, and reading TOC information recorded in the TOC area of the optical disk.

At this time, the predetermined data area is preferably a data area closest to the TOC area of the optical disc. The moving may include calculating a moving distance to the TOC area of the optical disc based on the ID, and calculating the number of pulses to be applied to the stepping motor for moving the pickup according to the calculated moving distance. And applying the calculated number of pulses to the stepping motor.

On the other hand, the optical disc apparatus according to the present invention provides an optical pickup for reading data recorded on the optical disc, and the amount of movement to the TOC area of the optical disc based on the ID recorded in the sector header found in the predetermined data area of the optical disc. Calculate, and turn off the control for focus and track following, move the optical pickup to the TOC area of the optical disc according to the movement amount, and then turn on the control for focus and track following, And a main control section for controlling the optical pickup section so that the TOC information recorded in the TOC area of the optical disc is read out.

 The main controller, when the control for the focus and track tracking is OFF (OFF), the spindle control to the CAV (Constant Angular Velocity) method, and when the control for the focus and track tracking (ON), the spindle It is desirable to switch the control to the CLV (Constant Linear Velocity) method.

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

2 is a block diagram schematically illustrating an example of an optical disk apparatus to which a method of reading TOC information is applied according to an embodiment of the present invention. Referring to FIG. 3, the optical disk apparatus includes a spindle motor 110, an optical pickup 120, a driver 130, a servo unit 140, an RF unit 150, a digital signal processor (DSP). 160), the control unit 170, and the storage unit 180.

The spindle motor 110 is a DC motor for rotating the optical disc 100 loaded in the optical drive (not shown) at a predetermined speed. The spindle motor 110 corresponds to a DC voltage which is a driving voltage supplied from the driving unit 130. Rotate The optical pickup 120 irradiates a laser beam to the optical disc 100, receives the reflected light reflected from the optical disc 100, and reads out data recorded on the optical disc 100. To this end, the optical pickup 120 may include a laser diode applied as a light source, an objective lens, a focusing actuator, a tracking actuator, and a photo diode applied as a photodetector.

The servo unit 140 controls the driving of the spindle motor 110 and the pickup unit 120 under the control of the controller 170. To this end, the servo unit 140 may include a motor driver (not shown) for controlling the drive of the spindle motor 110, a focusing driver (not shown) for controlling the driving of the focusing actuator, and a tracking driver for controlling the driving of the tracking actuator ( Not shown). The servo unit 140 is for controlling the focusing servo and the tracking servo, and is a control signal for driving the focusing actuator corresponding to a focus error (FE) signal generated by the RF unit 150, that is, a focusing servo. A control signal for outputting a focusing correction signal for a tracking driver and driving a tracking actuator corresponding to a tracking error (TE) signal generated by the RF unit 150, that is, a tracking correction signal for a tracking servo. Is output to the tracking driver.

The RF unit 150 generates an RF signal, a focus error (FE) signal, a tracking error (TE) signal, etc. using the electrical signal output from the optical pickup 120. The FE signal and the TE signal generated by the RF unit 150 are provided to the servo unit 140 to control the focusing servo and the tracking servo of the optical pickup 120.

The DSP 160 demodulates and corrects the RF signal received from the RF unit 150 to generate reproduction data. The controller 170 controls the overall operation of the optical disk device. For example, the controller 170 controls the servo unit 140, the DSP 150, the RF unit 150, and the like to read data recorded on the loaded optical disc 100 and convert the data recorded into a reproducible signal.

The storage unit 180 stores data, a program, and the like necessary for the operation of the optical disk device.

3 is a flowchart provided to explain a method of reading TOC information according to an embodiment of the present invention. 2 and 3, a method of reading TOC information according to an embodiment of the present invention will be described.

First, the ID recorded in the sector header is searched for in the track of the data area adjacent to the TOC area of the optical disc (S200). The searched ID is used to calculate the amount of movement to the TOC area. Next, the spindle control for the rotation control of the spindle motor 110 is switched to the constant angular velocity (CAV) method, and the focus and track tracking control is turned off (S205). The CAV method is a control method in which the optical disc is always rotated at the same speed regardless of which part of the optical disc is read.The CAV method is positioned at the innermost circumference of the optical disc, compared to the CLV (Constant Linear Velocity) method, which rotates faster when the inner track of the optical disc is accessed. Easy control when moving to TOC area.

In the next step, the movement amount for the movement of the optical pickup 120 is calculated, and the optical pickup 120 is moved around the optical disc by the calculated movement amount (S210). In general, the TOC area of the optical disc is spread over the area of 46 mm to 50 mm in the inner circumference of the optical disc, and since the information is repeatedly recorded continuously, the moving distance can be calculated based on the searched ID. That is, the position of the current optical pickup 120 can be known by the searched ID, and the moving distance of the optical pickup 120 can be calculated from this position to the position of the TOC region. In addition, since the movement distance of the optical pickup 120 per pulse applied to the stepping motor for controlling the movement of the optical pickup 120 can be known in advance, it should be applied to the stepping motor according to the calculated movement distance. The number of pulses can be calculated. For example, when the movement distance of the optical pickup 120 is 5 mm and the stepping motor moves the pickup per pulse by 9.375 μm, the number of pulses to be applied to the stepping motor for movement is 5000 μm / 9.375 μm 533 Becomes

 In addition, during the movement of the optical pickup 120, instead of searching while performing control for focus and track following, a simple search for moving by the amount of movement using a stepping motor is used. Therefore, the optical pickup 120 is slipped on the track due to the instability of the track, the influence of disturbance, or the like, and the phenomenon of being stuck on the inner circumference of the optical disc can be prevented.

When the optical pickup 120 moves around the optical disc by the calculated movement amount, the focus and track estimation control is turned on again, and the spindle motor 110 is driven by the CLV (Constant Linear Velocity) control method (S215). . The CLV control method is a method of controlling the rotation speed of the spindle motor 110 so that the linear speed of the optical disc is one of the rotation control methods of the optical disc. While driving the spindle motor 110 in such a CLV manner, the control for focus and track estimation is restarted, and the TOC information of the optical disc is read from the moved optical pickup 120 (S220).

By this process, the optical pickup can be moved to the TOC area without being affected by the track instability or disturbance, so that the TOC information of the optical disk can be stably read.

As described above, according to the present invention, since the optical pickup can be moved to the TOC area of the optical disk without being affected by instability or disturbance of the track, the TOC information can be stably read. In addition, since the method according to the present invention is a software method, when such a method is applied to an optical disk device, a separate device for detecting the TOC area is not necessary, which simplifies the optical disk device and reduces the manufacturing cost. Can be.

In addition, although the preferred embodiment of the present invention has been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

Claims (5)

Searching for an ID recorded in a sector header in a predetermined data area of the optical disc; Switching spindle control to a Constant Angular Velocity (CAV) scheme and turning off control for focus and track following; Calculating a movement amount to the TOC area of the optical disc based on the ID, and moving the pickup to the TOC area of the optical disc according to the calculated movement amount; Turning on control for focus and track following, and switching the spindle control to a CLV (Constant Linear Velocity) scheme; And Reading TOC information recorded in the TOC area of the optical disc. The method of claim 1, And the predetermined data area is a data area closest to the TOC area of the optical disc. The method of claim 1, wherein the moving step, Calculating a moving distance to the TOC area of the optical disc based on the ID; Calculating the number of pulses to be applied to a stepping motor for moving the pickup according to the calculated moving distance; And And applying the calculated pulse number to the stepping motor. Optical pickup for reading data recorded on the optical disk; And Calculating the amount of movement to the TOC area of the optical disc based on the ID recorded in the sector header found in the predetermined data area of the optical disc, Turn off the control for focus and track following, move the pickup to the TOC area of the optical disc according to the movement amount, turn on the control for focus and track follow, and turn on the TOC area of the optical disc And a main control unit controlling the pickup unit to read the TOC information recorded in the storage unit. The method of claim 4, wherein the main control unit, When the control for focus and track following is OFF, the spindle control is switched to a constant angular velocity (CAV) method, and when the control for focus and track following is ON, the spindle control is CLV (Constant). Optical Velocity device characterized in that the switching to the (Linear Velocity) method.

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