KR20000034699A - Method for gaining information of optical disc - Google Patents

Abstract

PURPOSE: A method for gaining information of optical disc is provided to be capable of detecting, under the optimum conditions, data of disc information recorded on the specific area of an optical disc. CONSTITUTION: A method for gaining information of optical disc, which detects disc information data recorded in the form of bar code from any other area than data area of optical disc, comprises a first step for reading and replaying the data recorded on burst cutting area(BCA) of optical disc; a second step for detecting width of burst cutting section among the signals read and replayed in the first step; and a third step for variably regulating the revolutions per minute of optical disc set previously in response to the section width detected in the second step, whereby the BCA data can be detected without errors and also the signals replayed on the BCA can be output under the optimum conditions, even though the cutting width and signals corresponding to the width may be reduced because of any manufacturing errors of optical disc or any damages of optical disc itself.

Description

How to Obtain Optical Disc Information

The present invention relates to an optical disc information acquisition method, and more particularly, to an optical disc information acquisition method for detecting disc information data recorded in a bar code form from an area separate from the data area of the optical disc. .

Currently, a DVD cutting for DIVX has a BCA (Burst Cutting Area) code having a data configuration format as shown in Fig. 1, which is an area before the lead-in area on the optical disc, i. It is located between 22.3 (+ 0 / -0.4) mm and 23.50 ± 0.05mm from the center of the hole.

The BCA code is recorded in the form of radiation from the center to the outside along the circumference using a YAG laser after the disc is produced. When viewed from above, the low reflectivity bands are arranged in a line around the circumference. In the code, disc information such as a unique identification code (ID) of the disc is recorded by the disc producer.

Fig. 3 shows a signal form of a BCA code read out and reproduced from a BCA area on an optical disk, and a section having a large signal (land section) together with a section having a low reflectance, that is, a signal amplitude having a low amplitude. (The high frequency signal is loaded due to the pit in the lead-in area.) The width (L) of the section where the signal amplitude is low is fixed to the same size, and the width of the section where the signal size is large is 4 It will have the size of one of the branches.

In general, in order to reproduce the BCA code recorded on the optical disk as described above, the rpm of the spindle motor for rotating the optical disk is adjusted to about 1220 so that the rotational speed of the optical disk is 24 Hz. In this case, the magnitude of L of the reproduced BCA signal becomes 3.00 ± 1.50 (us).

However, as described above, the magnitude of the BCA signal (the width of the cutting and land sections) is somewhat caused by the cutting state of the disk. If the error is large, the rotational speed of the optical disk is set to a constant value. If fixed, the BCA code may not be detected normally. In this case, the optimal BCA code may not be obtained.

Accordingly, the present invention has been created to solve the above problems, and by varying the rotational speed of the optical disk, the optical disk to detect the disk information data recorded on a specific area of the optical disk in an optimal state The purpose is to provide information acquisition methods.

1 shows the format of a BCA (Burst Cutting Area) code recorded on an optical disc,

2 shows a BCA code recording area on an optical disc;

FIG. 3 shows the signal form of the BCA code read out from the BCA code recording area of FIG.

4 is a block diagram of an optical disk reproducing apparatus for implementing the optical disk information obtaining method according to the present invention;

Figure 5 shows the flow of a preferred embodiment of the optical disc information acquisition method according to the present invention.

※ Explanation of code for main part of drawing

10 optical disc 11 pickup portion

12a: sled motor 12b: spindle motor

20: R / F section 21: drive section

22: servo unit 30: signal processing unit

31: low pass filter 32: comparator

33: A / D converter 40: Microcomputer

According to an aspect of the present invention, there is provided a method of obtaining optical disc information, comprising: a first step of reading and reproducing data recorded in a BCA area on an optical disc; Detecting a width of a burst cutting section of the read-out signal; And a third step of variably adjusting the rotational speed of the preset optical disc based on the detected interval width.

In the optical disk information acquisition method according to the present invention as described above, the BCA code recorded on the BCA region of the inserted optical disk is read and reproduced, and the width of the burst cutting section is detected from the read and reproduced signal. The rotation speed of the optical disc is variably adjusted based on the detected interval width. When the width of the detected signal is smaller than a preset reference value, the rotation speed of the optical disc is adjusted downward to adjust the rotation speed of the optical disc. The code recorded on the information area is detected in an optimal state.

Hereinafter, a preferred embodiment of the optical disk information acquisition method according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a configuration diagram of an optical disk reproducing apparatus for implementing the optical disk information obtaining method according to the present invention, comprising: a pickup section 11 for detecting a recording signal from the surface of the inserted optical disk 10; A sled motor 12a for moving the pick-up part 11; A spindle motor 12b for rotating the inserted optical disc 10; A drive unit 21 for driving the motors 12a and 12b; An R / F unit 20 for filtering the signal detected by the pickup unit 11; A servo unit 22 for controlling the driving of the drive unit 21 from the focus and tracking error signals of the pickup unit 11; A signal processing unit 30 for processing the analog BCA signal read out by the pickup unit 11 and converting the digital BCA signal into digital data; And a microcomputer 40 for controlling the driving of the servo unit 22 from the digital data.

In the optical disc reproducing apparatus configured as described above, when the optical disc (rental DVD series) 10 is first inserted and mounted (S10), the microcomputer 40 controls the servo unit 22 to control the initially set drive voltage. The inserted optical disk 10 is applied to the spindle motor 12b for rotationally driving, thereby rotating the optical disk 10 at a predetermined speed (for example, 24 Hz) (S11).

Subsequently, the microcomputer 40 controls the pickup unit 11 through the servo unit 22 and the drive unit 21 to cause the pickup unit 11 to read the BCA code on the optical disc 10. To this end, the microcomputer 40 drives the sled motor 12a through the servo unit 22 to drive the pick-up unit 11 into a lead-in area on the optical disk 10. It moves to the BCA area (see FIG. 2), which is the previous area, and reads the BCA code from the moved position (S12).

The BCA signal as shown in FIG. 3 (a) read out and reproduced by the pickup unit 11 is input to the low pass filter 31 of the signal processing unit 30, so that only the low frequency signal component as shown in FIG. The signal outputted from the low pass filter 31 is compared with the DC level of the reference signal V _re f in the comparator 32, thereby converting and outputting it as a pulse signal as shown in FIG. The A / D converter 33 in the signal processor 30 samples the pulse signal output by the comparator 32 based on the sampling frequency, and the sampling frequency is a cutting interval of the pulse signal. Is a value (eg, frequency 3.3 MHz corresponding to 0.3 μsec, which is 1/10 of 3 μsec), so that the change of the signal section corresponding to the A / D converter 33 is inputted accordingly. The pulse signal is accurately sampled and converted into digital data. All.

The microcomputer 40 detects the size of the L section (a low amplitude section) from the converted BCA code (S13), and the size of the detected L section and a predetermined reference value (a sampling frequency is 3.3 MHz). When the reference value for a continuous value of 0 is 10) (S14), when the number of bits of 0 corresponding to the detected L section is smaller than the reference value, the microcomputer 40 Through the servo unit 22 and the drive unit 21, the driving voltage applied to the spindle motor 12b is adjusted downward, and accordingly, the rotational speed of the optical disk 10 is also adjusted downward ( S22).

As described above, even after the rotation speed of the optical disk 10 is adjusted downward, the size of the L section is continuously detected from the BCA signal read out from the optical disk 10, and again when the size of the L section is smaller than the reference value. As described above, when the rotation speed of the optical disc 10 is adjusted downward, and the size of the L section in the BCA signal becomes a desired value, that is, when a signal corresponding to the optimal BCA code is detected by the above-described method ( S20), the microcomputer 40 decodes the bit length of 1 corresponding to the high among the detected and converted digital bitstreams into an original signal, and stores the result as a BCA code, and then when storing the optical disc 10, This useful BCA code.

The optical disk information acquisition method according to the present invention as described above can detect the BCA data without errors even when the signal corresponding to the width and the interval of the cutting decreases due to an error in optical disk production or damage to the optical disk. It is a very useful invention to output the signal reproduced in the BCA in an optimal state.

Claims (1)

A method of reading data recorded in a BCA area on an optical disc, A first step of reading and reproducing the data recorded in the BCA area; Detecting a width of a burst cutting section of the read-out signal; And And a third step of variably adjusting a rotation speed of the preset optical disc based on the detected interval width.