KR100584266B1 - Optical recording media - Google Patents

Abstract

The length of the recording unit block limited by the three ADIPs applied to the existing BD has been difficult to apply to the compact disc. In the optical recording medium of the present invention, a recording unit block for recording data including address information is partitioned, and the minimum length of the recording unit block is limited by one ADIP.

BD, compact disc, RUB, ADIP

Description

Optical recording media             

1 illustrates a typical BD structure.

FIG. 2 is a diagram showing the structure of a recording unit block (RUB) allocated to the data area of FIG.

3 is a diagram showing the size of a miniature disc according to a preferred embodiment of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical recording medium, and more particularly, to an optical disc recording medium in which a RUB of a BD can be applied to a compact disc without generating an error.

High density optical discs (eg CD (Compact Disc) -R, CD-RW, Digital Versatile Disc (ROM) -ROM, DVD-R, DVD-RAM) capable of recording and storing various data such as audio and video data have been developed. It is commercialized. The DVD having the largest recording capacity among these optical discs can record approximately 4.7 GB of data.

However, with the current DVD capacity, it is difficult to meet the demand for the recent recording capacity.

Accordingly, BD (Blue ray Disc), which has emerged as a superb concern as high definition HD digital broadcasting is spreading around the world, is being developed. BD adopts an objective lens having an NA of 0.85 in a blue violet laser having 405 nm, and can have a capacity of 23.3 GB or 25 GB.

1 illustrates a general BD structure. As shown in FIG. 1, the BD includes a clamping area, a transition area, a burst cutting area (BCA), a lead-in zone, and a data area. ) And a lead-out area.

Among these areas, data is recorded in the data area. As shown in FIG. 2, a recording unit block (RUB) of a predetermined recording size corresponding to one ECC block unit is described below. Data is recorded. The RUB is allocated to a run-in area of 2760 channel bits, a physical cluster area of 958272 channel bits, and a run-out area of 1104 channel bits. A guard region (Guard 3) of 540 channel bits may be allocated after the RUB. At this time, the actual data is recorded in the physical cluster area. In this RUB structure, only one RUB having temporal continuity may be recorded, or multiple RUBs with temporal continuity may be recorded. The guard area is allocated to prevent the next recorded data from being overwritten with previously recorded data after the end of recording. That is, when data is recorded in one or multiple RUBs with temporal continuity and data is recorded again later, the guard area is allocated to distinguish the previously recorded data and the data to be recorded next from being overwritten. Will be.

As such, when data is recorded on the BD, such data includes address information for random access to the RUB. Since the address information is usually modulated and encoded together with the A / V data, the address information is distributedly recorded in the physical cluster area within the RUB.

In order to display one address information 1ADIP, 56 wobble * 83 pieces are required. In this case, one RUB may include three address in pre-groove (ADIP) words.

When the length is 1RUB, it is 5.52 탆 * 56 * 83 * 3 = 76976.96 탆 ≒ 77mm in 23.3GB BD, and 5.1405 탆 * 56 * 83 * 3 = 71679.12 탆 ≒ 71.7mm in 25GB BD. Here, 5.52 micrometers and 5.1405 micrometers show the length of one wobble.

On the other hand, in recent years, with the development of technology, the development of ultra-compact disks corresponding to high density and miniaturization has been actively progressed. The innermost radius of a recently developed micro disc is about 5.5 mm. Therefore, the innermost circumference length of the microminiature disc is 2 * mm * 5.5 = 35mm.

In this case, when the address information of the currently used BD is applied as it is in the ultra-compact disc, one RUB length (71.7 mm or 77 mm) cannot fit in one track of the innermost circumference. In other words, while the length of one track of the innermost disk of a compact disc is about 35mm, the length of 1RUB applied to a BD is 70mm or more, so at least two tracks are required to record 1RUB on the innermost circumference of the compact disk. Done.

When one RUB is recorded on two or more tracks, current address information can be determined only by reading address information of at least two tracks during reproduction.

When two tracks are read in order to identify address information, it is difficult to track the start and end of one RUB, and thus an error occurs because the address information is not accurately understood.

An object of the present invention is to provide an optical disc recording medium which can apply a RUB of a BD to an ultra-compact disc without generating an error.

According to a preferred embodiment of the present invention for achieving the above object, in the optical recording medium, a recording unit block for recording data including address information is partitioned, and the minimum length of the recording unit block is one ADIP Limited by

It is preferable that the diameter of the innermost circumference is at least 11 mm or more, and the diameter of the outermost circumference is at least 89 mm or less so that the recording unit block is partitioned.

According to another preferred embodiment of the present invention, in the optical recording medium, a recording unit block for recording data including address information is partitioned, and the minimum length of the recording unit block is limited to at least 35 mm or less.

Only one ADIP can be used for recording by the minimum length of the recording unit block limited to at least 35 mm or less.

It is preferable that the diameter of the innermost circumference is at least 11 mm and the diameter of the outermost circumference is at least 89 mm or less so that the minimum length of the recording unit block limited to the at least 35 mm or less is allocated.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

First, the diameter of the innermost circumference and the outermost circumference of the microminiature disc of the present invention are defined.

3 is a view showing the size of a micro disk according to an embodiment of the present invention.

As shown in Fig. 3, the diameter of the innermost circumference of the microminiature disc is at least 11 mm and the diameter of the outermost circumference is at least 89 mm or less. At present, the diameter of the innermost circumference of the disc must be 11 mm or more in order to be reproduced in most disc reproducing apparatuses. In addition, since the diameter of the outermost circumference of a normal disk is 89 mm or more, the diameter of the outermost circumference must be 89 mm or less in order to become a microminiature disc. Therefore, data can be recorded and stored in a section ranging from 11 mm, the innermost circumference of the micro-disc disc, to 89 mm, the outermost circumference.

The method for applying the RUB of the existing BD to the ultra-small disc in which the size is defined as described above will be described.

The first way is to limit the length of the minimum RUB to less than 1ADIP. That is, in the case of BD, three ADIPs are required to be 1RUB. However, in the specification, three ADIPs are used, and in fact, three ADIPs have the same information, and one of these three ADIPs may be used. Accordingly, in the present invention, only one ADIP (address information) can be recorded and stored in the RUB. In this case, the minimum RUB can be obtained as follows on a 23.3GB mini disk and a 25GB mini disk.

The minimum RUB length is 5.52㎛ * 56 * 83 * 1 = 25656.96㎛ ≒ 26mm for 23.3GB class mini disk, and the minimum RUB length is 5.1405㎛ * 56 * 83 * 1 = 23893.044㎛ ≒ 24mm for 25GB BD do.

At this time, since the innermost diameter of the microminiature disc is 11 mm or more, the innermost circumference is 34.54 mm. Therefore, since the length of the innermost one track of the ultra-compact disk is at least 34.54 mm or more, the minimum RUB length (26 mm in the 23.3GB class and 24 mm in the 25GB class) is smaller than the innermost 1 track length of the ultra-small disc. The address information of 1RUB can be recorded and stored within the innermost track 1 without any problem.

The second method is to limit the length of the minimum RUB to at least 35mm. That is, since the innermost circumference is at least 11 mm or more in the microminiature disk, the innermost circumference is at least 35 mm or more. Therefore, since the length of the innermost track 1 is at least 35 mm or more, if the minimum RUB length is at least 35 mm or less, the address information of the minimum RUB can be recorded and stored in the innermost track 1 without difficulty.

In order to make the minimum RUB length less than 35mm, it is possible to use only 1ADIP as described in the first method. Various other methods may reduce the minimum RUB length to less than 35mm.

As described above, according to the present invention, by adopting only one 1ADIP to one RUB, the length of one RUB can be reduced and applied to a compact disk.

According to the present invention, the length of 1 RUB is set to 35 mm or less for recording and storing in one track of the ultra-compact disk.

As a result, one or more RUBs are allocated to one track of the micro-disc disk. Therefore, when a RUB specified in an existing BD is applied to the micro-disc disk as it is, an error caused by incorrectly reading data due to the RUB is allocated to one or more tracks. Can be prevented.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (6)

And a recording unit block for recording data including address information, and the minimum length of the recording unit block is limited by one ADIP. The optical recording medium according to claim 1, wherein the one ADIP includes 83 wobbles of 56 wobbles. The optical recording medium according to claim 1, wherein the innermost circumference has a diameter of at least 11 mm or more and the outermost circumference has a diameter of at least 89 mm or less for partitioning the recording unit block. And a recording unit block for recording data including address information, and limiting the minimum length of the recording unit block to at least 35 mm or less. An optical recording medium according to claim 4, wherein only one ADIP is used for recording by the minimum length of the recording unit block limited to at least 35 mm or less. 5. The optical recording medium according to claim 4, wherein an innermost circumference has a diameter of at least 11 mm or more and an outermost circumference has a diameter of at least 89 mm or less for allocating a minimum length of the recording unit block limited to at least 35 mm or less. .

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