KR20020094163A - High density optical disc - Google Patents

Abstract

PURPOSE: A high density optical disk is provided to separate and remove a first optical transmission layer by applying light having specific wavelength to the first optical transmission layer and thereafter attach a new first optical transmission layer if a surface of the high density optical disk has defects, thereby preventing an error in data reading. CONSTITUTION: In a high density optical disk where a high density pit pattern data recording layer is formed mostly on one side from the center of the optical disk thickness, an optical transmitting layer formed in a predetermined thickness to protect the data record layer is made by adhering a plurality of optical transmission layers which are separable from each other and attaching the adhered optical transmission layers to the data record layer.

Description

High density optical disc

The present invention relates to a high-density optical disc such as a high-density digital versatile disc (HD-DVD) in which a high-density pit-shaped data recording layer is formed to be biased from one side of the center of the disc thickness.

A typical CD has a disc thickness of 1.2 mm and a disc diameter of 120 mm, a center hole of 15 mm diameter, a turntable and a clamper provided in an optical disc apparatus, as shown in FIG. It is made of a structure having a clamping area of 44 mm diameter to be clamped by).

On the other hand, the data recording layer recorded on the CD in a pit pattern is about 1.2 mm in a direction opposite to an object lens (OL) of an optical pickup included in the optical disk device. The optical pickup for the CD has a value of NA = 0.45 where the numerical aperture NA is relatively small.

As shown in FIG. 2, a general DVD includes a turntable and a clamper provided in a 1.2 mm disk thickness, a 120 mm disk diameter, and a 15 mm diameter center hole and an optical disk device. The data recording layer, which is manufactured in a structure having a clamping area of 44 mm diameter to be clamped by the optical disc, has a data recording layer recorded in a pit pattern on the DVD, the objective lens of the optical pickup included in the optical disk device. The optical pickup for the DVD has a value of NA = 0.6 with a relatively large numerical aperture NA formed in a position spaced about 0.6 mm apart in the direction opposite to OL.

On the other hand, a typical high-density DVD (HD-DVD), as shown in Figure 3, the disk thickness of 1.2mm, 120mm disk diameter, 15mm diameter center hole and the turntable and clamper provided in the optical disk device The data recording layer, which is manufactured in a structure having a clamping area of 44 mm diameter clamped by a clamper, and which is recorded in a Pit Pattern on the high density DVD, is an optical pickup device included in the optical disk device. In a direction opposite to the objective lens OL, it is formed at a position spaced about 0.1 mm apart.

In addition, the optical pickup for the high-density DVD has a numerical value of NA = 0.85 having the largest numerical aperture (NA), and in order to reproduce or record the pit-shaped data recorded at a high density, the CD (CD) and Compared to DVD, a shorter wavelength laser beam is used.

Therefore, in the state where the objective lens OL of the optical pickup for high density DVD is closer to the recording layer of the high density DVD, the laser beam of short wavelength is emitted and the numerical aperture NA of the objective lens is increased. It is possible to form a laser beam of a larger amount of light into a small beam spot in a pit shape recorded at a high density, and also to shorten the light transmission layer through which a short wavelength laser beam is transmitted to the shortest distance. It is possible to minimize the change in the properties of the beam and the occurrence of aberration.

However, as shown in Fig. 4, the size of the beam spot that passes through the surface of the high density DVD through the objective lens 102 of the optical pickup for the high density DVD having the largest numerical aperture (NA = 0.85) is the CD. Compared with the size of the beam spot transmitted through the surface of the CD through the objective lens 100 of the optical pickup and the size of the beam spot transmitted through the surface of the DVD through the objective lens 101 of the optical pickup for DV Since it becomes relatively small, when the defects such as dust or scratches of the same size (size), respectively, on the surface of the CD 10, DVD 20 and the high-density DVD 30, respectively, There was a problem that a data reading error is most seriously generated due to a defect present on the surface of the DVD 30.

Accordingly, the present invention has been made to solve the above problems, wherein a high-density Pit-shaped data recording layer is formed of a high-density optical disc such as a high-density DVD (HD-DVD) formed to be biased to one side from the center of the disk thickness. It is an object of the present invention to provide a high-density optical disk that can easily separate and replace only a part of the surface of the high-density DVD when there is a defect such as a scratch or the like on the surface.

1 shows a disc structure for a typical CD (CD),

2 shows a disc structure for a general DVD (DVD),

3 shows a disk structure for a typical high density DVD (HD-DVD),

4 illustrates a state in which defects of the same size exist on the surfaces of a typical CD, DVD, and high density DVD,

5 shows a structure of a high density optical disc according to the present invention;

FIG. 6 illustrates a state in which a film, which is a first light transmitting layer of the high density optical disk according to the present invention, is separated.

7 shows a structure of a high density optical disc according to another embodiment of the present invention,

FIG. 8 illustrates a state in which a film, which is the first light transmitting layer of the high density optical disc, according to another embodiment of the present invention is separated.

※ Explanation of code for main part of drawing

10: CD (CD) 20: DVD (DVD)

30,31,32: high density DVD (HD-DVD) 100,101,102: objective lens

200,201: Light irradiation device

A high density optical disc according to the present invention for achieving the above object is a high density optical disc in which a high density pit-shaped data recording layer is formed to be shifted from one side of the center of the disc thickness to a predetermined thickness to protect the data recording layer. The light transmitting layer is bonded to the plurality of light transmitting layers which can be separated from each other, and is attached to the data recording layer,

In the high-density optical disk according to the present invention, in the high-density optical disk in which a high-density pit-shaped data recording layer is formed from one side of the center of the disk, the light-transmitting layer having a predetermined thickness for protecting the data recording layer is formed of a film. And a first light transmitting layer made of a material and a second light transmitting layer made of a resin.

Hereinafter, a preferred embodiment of a high density optical disc according to the present invention will be described in detail with reference to the accompanying drawings.

First, FIG. 5 illustrates a structure of a high density optical disc according to the present invention. The high density optical disc, for example, the high density DVD 31, has a disc thickness of 1.2 mm and 120 mm, as described above with reference to FIG. 3. Disk diameter, and a 15 mm diameter center hole and a 44 mm diameter clamping area clamped by a turntable and clamper provided in the optical disk device, and also as a pit pattern. The data recording layer to be recorded is formed in a direction opposite to the objective lens 102 of the optical pickup included in the optical disk device so as to be formed at a position spaced about 0.1 mm close to one side from the center C of the thickness of the disk. The light transmitting layer having a predetermined thickness for protecting the data recording layer is adhered to a plurality of light transmitting layers that can be separated from each other, and attached to the data recording layer. It is.

Meanwhile, as shown in FIG. 5, the light transmitting layer having the predetermined thickness is composed of a first light transmitting layer and a second light transmitting layer made of a film, and adhered to the data recording layer. At this time, the sum of the thickness of the first light transmitting layer and the thickness of the second light transmitting layer is 0.1 mm suitable for high density DVD (HD-DVD).

For example, the thickness of the first light transmitting layer and the second light transmitting layer of the film material may be 0.05 mm, or as another example, the thickness of the first light transmitting layer is 0.03 mm, and the second light The thickness of the transmissive layer is 0.07 mm, and thus adhesive composition is made of different thicknesses or the same thicknesses in which the sum of the thicknesses is 0.1 mm, and can be attached to the data recording layer.

Therefore, a plurality of light transmitting layers bonded to the film material that can be separated from each other as described above have defects such as scratches on the surface of the high density DVD 31 attached to the data recording layer, thereby causing a data reading error. 6, the light beam projected from the irradiation apparatus is used to transmit the light beam projected from the irradiation apparatus by using the light irradiation apparatus 200 having a specific wavelength that weakens the adhesive force of the adhesive. By irradiating with the light transmitting layer, it is possible to weaken the adhesive force of the adhesive agent inserted between the first light transmitting layer and the second light transmitting layer.

Accordingly, after separating only the first light transmitting layer in which the defect is present from the second light transmitting layer, the newly bonded film is adhered to the second light transmitting layer by re-bonding a new film having no defect. The sum of the thicknesses of the first light transmitting layer and the second light transmitting layer of the material is set to 0.1 mm suitable for the high density DVD, thereby fundamentally preventing data reading error caused by defects present on the surface of the high density DVD 31. Can be prevented.

On the other hand, Figure 7 shows a structure for a high-density optical disk according to another embodiment of the present invention, the high-density optical disk, for example, the high-density DVD 32, as described above, the disk thickness of 1.2mm and 120mm It is manufactured in a structure having a disk diameter, a 15 mm diameter center hole, and a 44 mm diameter clamping area clamped by a turntable and clamper provided in the optical disk device, and also recorded in a pit pattern. The data recording layer is formed in a direction opposite to the objective lens 102 of the optical pickup included in the optical disk device so as to be formed at a position spaced about 0.1 mm close to one side from the center C of the thickness of the disk. The light transmitting layer having a predetermined thickness for protecting the data recording layer may have a predetermined thickness by using a first light transmitting layer made of a film material and a second light transmitting layer made of a resin material. Is formed.

The sum of the thickness of the first light transmitting layer of the film material and the thickness of the second light transmitting layer of the resin material is 0.1 mm, which is suitable for high density DVD, as described above. The thickness of the first light transmitting layer of the material and the second light transmitting layer of the resin may be 0.05 mm, or as another example, the thickness of the first light transmitting layer is 0.07 mm, and the thickness of the second light transmitting layer The thickness may be 0.03 mm, and may consist of different thicknesses or the same thickness, in which the sum of the thicknesses is 0.1 mm, and may be attached to the data recording layer, wherein the second light transmitting layer of the resin material is usually It is formed by a phosphorus injection process, the first light transmitting layer of the film material may be formed by a bonding process.

Therefore, a plurality of light transmitting layers composed of a film material and a resin material that can be separated from each other as described above have defects such as scratches on the surface of the high-density DVD 32 attached to the data recording layer, resulting in a data reading error. In this case, as shown in Fig. 8, a light irradiation apparatus, for example, a light irradiation apparatus 201 of a specific wavelength capable of melting the second light transmitting layer made of a resin material is projected from the irradiation apparatus. By irradiating the light beam with the light transmitting layer of the high density DVD, the second light transmitting layer can be melted and removed.

Accordingly, the first light transmitting layer in which the defect is present is separated from the second light transmitting layer, and the second light transmitting layer of the new resin material and the first film of the new film in which the defect does not exist in the data recording layer. By forming and adhering the light transmitting layer again, the sum of the thicknesses of the first light transmitting layer of the newly bonded film material and the second light transmitting layer of the resin material is made to be 0.1 mm suitable for the high density DVD, and the high density DVD 32 It is possible to fundamentally prevent data reading errors caused by defects present on the surface of the NPC.

As described above, preferred embodiments of the present invention are disclosed for the purpose of illustration, and can be applied to high-density DVDs, general DVDs, CDs, and the like, and those skilled in the art will have the technical idea of the present invention disclosed in the appended claims below. And various other embodiments may be improved, changed, replaced or added to within the technical scope of the present invention.

In the high density optical disc according to the present invention configured as described above, on the surface of a high density optical disc such as a high density DVD (HD-DVD) in which a high density Pit-shaped data recording layer is formed to be shifted from one side of the center of the disc thickness, In the presence of defects such as dust or scratches, in order to be able to easily replace a part of the surface of the high density optical disk, a light transmissive layer for protecting the data recording layer may be separated from each other. The adhesive film is formed of the first light transmitting layer and the second light transmitting layer made of a film material, or the first light transmitting layer made of the film material and the second light transmitting layer made of a resin material, thereby forming a high density optical disk. When a defect is present on the surface, the first light transmitting layer of a new film material is removed after the first light transmitting layer is separated and removed by irradiating light rays having a specific wavelength. It is a very useful invention that makes it possible to use adhesive, thereby preventing data reading errors caused by defects inherently.

Claims (6)

In a high-density optical disc in which a high-density pit-shaped data recording layer is formed by shifting from the center of the disc thickness to one side, A light transmitting layer having a predetermined thickness for protecting the data recording layer is adhered to a plurality of light transmitting layers that can be separated from each other, and is attached to the data recording layer. The method of claim 1, And said plurality of light transmitting layers are attached to the data recording layer by adhering to each other with first and second light transmitting layers whose sum of thickness is 0.1 mm. The method of claim 2, The first and second light transmitting layers are made of a film and bonded to each other, and are separated from each other by light irradiation. In a high-density optical disc in which a high-density pit-shaped data recording layer is formed by shifting from the center of the disc thickness to one side, A light transmitting layer having a predetermined thickness for protecting the data recording layer is formed by a first light transmitting layer made of a film material and a second light transmitting layer made of a resin material. The method of claim 1, The sum of the thicknesses of the first and second light transmitting layers is 0.1 mm. The method of claim 5, And said first light transmitting layer and said second transmitting layer are separated from each other by light irradiation.