KR100525861B1 - Method for accessing target track on the optical disc - Google Patents

Abstract

The present invention relates to a method for accessing a target track of an optical disc medium, comprising: a first step of reading linear velocity information recorded in a predetermined area for each type of optical disc medium upon request for movement between tracks; A second step of calculating an actual linear velocity of the optical disc medium with reference to the read linear velocity information; A third step of calculating a distance to a target track based on the calculated linear velocity; And a fourth step of accessing the target track by moving the optical pickup by the calculated distance, wherein the actual linear velocity of the optical disc media is determined using the linear velocity information recorded on a predetermined spare area of the optical disc media. By calculating the number of tracks between the current track and the target track accurately, and moving the optical pickup by the calculated number of tracks, it is a very useful invention having the effect of quickly and accurately accessing the target position.

Description

Method for accessing target track on the optical disc

According to the present invention, when manufacturing an optical disc medium, the linear velocity information is recorded in a predetermined area of the optical disc medium, thereby calculating the actual linear velocity of the optical disc medium and accessing the target track to be track jumped at high speed. It relates to a target track access method.

As the optical disk medium driving apparatus becomes high speed, high speed data access is essential. For this purpose, the number of tracks between the current track and the target track on the optical disk medium must be accurately calculated, which is calculated by the following process.

In other words, πR ² = KVQX (where R is the radius, X is the Sector Address, K is the time required for one sector in CLV, Q is the Track Pitch, and V is the optical disk linear velocity). Using this, the distance R from the center of the optical disc medium to the current track (sector) and the distance R from the center of the optical disc medium to the target track are obtained, respectively.

On the other hand, the track number of the optical disc Is so All.

Therefore, the current track and the target track can be known using the above equations, and the number of tracks between the current track and the target track, that is, the number of moving tracks to the target track can be calculated. In order to calculate the number of tracks between the current track and the target track, the linear velocity (V) of the optical disc medium must be known. Conventionally, the linear velocity defined in the specification of the optical disc medium is used or a constant linear velocity (CLV) is used. In the Linear Linear Velocity mode, the rotational speed of the optical disk was measured and the linear velocity was detected.

However, the linear velocity defined in the standard of the optical disc medium is 1.2 to 1.4 m / sec for CD and 3.39 to 3.84 m / sec for DVD, so that the linear velocity is different even at the same time position. In the case of optical discs, the position of tracks can be different, which causes a problem in calculating the number of tracks, which makes it difficult to implement high-speed access to the target position. Also, when the linear velocity is detected by measuring the rotational speed of the optical disc media. Since it takes a long time to detect the linear velocity and an error may occur when the linear velocity is detected depending on the position of the optical pickup, this also has a problem that it is difficult to access the target position at high speed.

Accordingly, the present invention has been made to solve the above problems, and in order to easily calculate the actual linear velocity of the optical disc medium, the linear velocity information is assigned to a predetermined area for each type of optical disc medium in the manufacture of the optical disc medium. In the optical disc medium, the target track can be accessed at high speed by recording and accurately calculating the number of moving tracks up to the target track by using linear speed information recorded on a predetermined area of the optical disc medium when moving between tracks with respect to the optical disc medium. The purpose is to provide a method of accessing the target track.

According to an aspect of the present invention, there is provided a method for accessing a target track of an optical disc medium, the method comprising: a first step of reading linear velocity information recorded in a predetermined area for each type of optical disc medium upon request for movement between tracks; A second step of calculating an actual linear velocity of the optical disc medium with reference to the read linear velocity information; A third step of calculating a distance to a target track based on the calculated linear velocity; And a fourth step of accessing the target track by moving the optical pickup by the calculated distance.

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Best Mode for Carrying Out the Invention A preferred embodiment of the method for accessing a target track of an optical disc medium according to the present invention will now be described in detail with reference to the accompanying drawings.

Fig. 1 is a block diagram showing the configuration of an optical disk medium driving apparatus in which a target track access method of an optical disk medium according to the present invention is implemented, comprising: an optical pickup 20 for reading a recording signal from the optical disk medium 10; An R / F unit 30 for filtering the signal detected by the optical pickup 20 and outputting it as a binary signal; A drive unit (50) for driving the spindle motor (11) for rotating the optical pickup (20) and the optical disc medium (10); A servo unit (40) for controlling the drive of the drive unit (50) from the servo error signals (F.E, T.E) output by the optical pickup (20) and the rotational speed of the optical disc medium (10); A digital signal processor (60) for restoring the binary signal to original data with its clock synchronized with the binary signal; And calculating the actual linear speed of the optical disc medium 10 with reference to the linear speed information recorded on the optical disc medium 10, and accurately calculating the number of moving tracks between the current track and the target track and calculating the target track. The microcomputer 70 which accesses at high speed is comprised.

FIG. 2 is a flow chart illustrating a preferred embodiment of a method for accessing a target track of an optical disc medium according to the present invention. Hereinafter, the target track access method of FIG. 2 according to the present invention will be described in detail with reference to FIG. do.

First, in order to implement the present invention, the manufacturer of the optical disc medium knows the linear velocity information of the optical disc at the time of manufacture of the optical disc medium, so that a predetermined area designated by type of the optical disc medium, for example, a recordable CD (CD-R, CD- RW), as shown in Fig. 3, in the spare area (when M1, S1, F1 = 010 or 011) in an ATIP (Absolute Time In Pre-Groove) frame, which is a time information field of the optical disc medium 10; The linear velocity information is recorded. At this time, the linear velocity information is recorded in the wobble signal.

On the other hand, in the case of a DVD, linear velocity information is recorded on a reserved area in a control data area in a lead-in area.

In addition to the recordable CD, the general CD can also record linear velocity information in the lead-in area. Hereafter, the recordable CD will be described as an example.

When recording the linear velocity information in the spare area of the recordable CD, the data recordable size of the spare area is limited, so if the linear speed of the optical disc to be recorded is 1.15 m / sec, it is 1.15 m / sec. Instead of recording in sec, the median speed (1.3m / sec) of the linear speed (1.15 m / sec) of the optical disc to be recorded and the linear speed (1.2 to 1.4 m / sec) of the CD defined in the standard of the optical disc medium The difference value (-0.15 m / sec) is recorded as the displacement amount on the spare area.

In this way, the linear velocity information of the disc is recorded in advance on a predetermined area of the optical disc medium, and the line recorded when necessary, such as a target position access operation, is obtained without a linear process in a later process in the optical disc medium driving apparatus. The actual linear velocity of the optical disc can be easily calculated with reference to the velocity information. Hereinafter, the operation of calculating the actual linear velocity of the optical disc on which the linear velocity information is recorded and accessing the target position at high speed will be described in detail. Shall be.

First, after the optical disc medium 10 (recordable CD) is inserted and mounted (S10), when a specific position access operation, i.e., movement between tracks is requested (S20), the microcomputer 70 is as described above in the prior art. Since the linear velocity of the optical disc medium 10 needs to be known in order to calculate the number of moving tracks between the current track and the target track to be accessed, the microcomputer 70 controls the servo unit 40 and the drive unit 50. The optical pickup 20 is controlled to cause the optical pickup 20 to read data recorded in a spare area in an ATIP frame on the optical disc medium 10.

When the linear velocity information (for example, -0.15 m / sec) recorded on the spare area is read as described above, the microcomputer 70 checks the linear velocity information through the digital signal processor 60 ( S21), the actual linear velocity of the optical disc medium 10 can be simply calculated with reference to the confirmed linear velocity information, that is, -0.15 m / sec, which is the read linear velocity information, is determined by the optical disc medium 10. Since the actual linear velocity of and the displacement amount between the median velocity (1.3 m / sec) of the linear velocity (1.2 to 1.4 m / sec) of the CD defined in the standard of the optical disc medium, the microcomputer 70 reads the read-out. The linear velocity information (-0.15 m / sec) and the intermediate value (1.3 m / sec) are added together to calculate the result value, that is, 1.15 m / sec as the actual linear velocity of the optical disc medium 10 (S22). .

As such, when the actual linear velocity of the optical disc medium 10 is calculated, the microcomputer 70 uses the calculated linear velocity to track the current track on the optical disc medium 10 through the above-described process in the related art. After calculating the and the target tracks, the calculated number of tracks between the obtained current track and the target track is calculated (S23).

When the number of moving tracks is calculated in this way, the microcomputer 70 accesses the target position at high speed by moving the optical pickup 20 by the calculated number of tracks through the servo unit 40 and the drive unit 50. (S24) it becomes possible.

As mentioned above, preferred embodiments of the present invention are disclosed for the purpose of illustration, and those skilled in the art can improve and change various other embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. , Replacement or addition would be possible.

The target track access method of the optical disc medium according to the present invention as described above accurately calculates the actual linear speed of the optical disc medium with reference to the linear speed information recorded on a predetermined area of the optical disc medium, and from this, By moving the optical pickup by the number of tracks calculated by calculating the number of tracks between the target tracks, it is a very useful invention having the effect of quickly and accurately accessing the target position.

1 is a block diagram showing an optical disk medium driving apparatus in which a target track access method of an optical disk medium according to the present invention is implemented.

Fig. 2 shows the flow of a preferred embodiment of the method for accessing a target track of an optical disc medium according to the present invention.

3 illustrates a spare area in an Absolute Time In Pre-Groove (ATIP) frame, which is a time information field of an optical disc medium.

※ Explanation of code for main part of drawing

10 optical disc medium 11 spindle motor

20: Optical pickup 30: R / F part

40: servo part 50: drive part

60: digital signal processor 70: microcomputer

Claims (9)

A first step of reading linear velocity information recorded in a predetermined area designated for each type of optical disc medium upon a track-to-track movement request; A second step of calculating an actual linear velocity of the optical disc medium with reference to the read linear velocity information; A third step of calculating a distance to a target track based on the calculated linear velocity; And And a fourth step of accessing the target track by moving the optical pickup by the calculated distance. delete The method of claim 1, And the predetermined area is a spare area in an Absolute Time In Pre-Groove (ATIP) frame of a recordable CD. The method of claim 1, And said predetermined area is a spare area in a control data area in a lead-in area of a DVD. The method of claim 1, And the linear velocity information is a difference value between an actual linear velocity of the optical disc medium and a reference linear velocity defined in the standard of the optical disc medium. delete delete delete delete