KR20030093856A - High density dual layer optical disc - Google Patents

Abstract

PURPOSE: An HD dual-layered optical disc is provided to minimize the wave front errors generated by the thickness of a transmission substrate from a first recording surface to a second recording surface, thereby precisely recording and reproducing data. CONSTITUTION: An HD dual-layered optical disc includes first and second recording layers formed on a transmission substrate. A thickness(0.09mm) of the substrate to the first recording layer is a thickness value obtained by adding a thickness(0.1mm) of a recording layer in an HD single-layered optical disc to 1/2 of an interval(0.02mm) between the first and second recording layers. The thickness(0.11mm) of the substrate to the second recording layer is a thickness value obtained by deducting 1/2 of the interval from the thickness of the recording layer in the HD single-layered optical disc.

Description

High density dual layer optical disc

The present invention relates to a high-density dual layer optical disc in which the first recording layer and the second recording layer are formed to be biased from one side of the disc thickness to one side.

FIG. 1 shows a disc structure of a general DVD (Digital Versatile Disc). The DVD 10 has a disc thickness of 1.2 mm, a disc diameter of 120 mm, a 44 mm center hole, and a 44 mm for clamping by a turntable and clamper provided in the optical disc device. It is made of a structure having a clamping area of diameter.

On the other hand, the data recording layer recorded on the DVD in a pit pattern is about 0.6 mm in a direction opposite to the objective lens OL 1 of the optical pickup included in the optical disk device. The objective lens OL of the optical pickup for DVD has a numerical value NA of 0.6.

On the other hand, a typical High Density DVD (HD-DVD), for example, HD-DVD Single Layer (HD-DVD) 20, has a disc thickness of 1.2 mm and 120 mm as shown in FIG. A disk having a diameter of 15 mm and a central hole having a diameter of 15 mm and a 44 mm diameter clamping area clamped by a turntable and a clamper provided in the optical disk device, wherein the data recording layer recorded on the high density single layer DVD is the optical disk device. In the direction opposite to the objective lens (OL) of the optical pickup included in the, is formed in a position spaced about 0.1mm close.

In addition, the objective lens (OL) 2 of the optical pickup for high density DVD has a value of NA = 0.85 in which the numerical aperture NA is relatively larger than that of a general DVD, and records data recorded at high density. In order to reproduce or record, a short wavelength laser beam is used as compared to a general DVD.

That is, a general DVD (DVD) uses a laser beam of 650nm wavelength, while a high-density single-layer DVD (HD-DVD Single Layer) uses a laser beam of 405nm wavelength to reproduce or record data recorded at high density.

Therefore, while making the objective lens OL of the high density DVD optical pickup 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.

Recently, high-density dual-layer optical discs capable of recording and storing about twice as much video and audio data for a long time than HD-DVD Single Layer, for example, high-density dual-layer DVD (HD-DVD Dual) Layer or high density Blu-ray Disc Dual Layer (hereinafter referred to as 'high density dual layer video') is being developed.

However, in such a high-density dual layer optical disc, there is no way to effectively suppress wave front aberration (WFE) generated according to the thickness of the transmission substrate to the first and second recording layers. The solution is urgently required.

Therefore, the present invention was created in view of the above situation, and the first and second recording layers, such as a high-density dual layer DVD or a high-density dual layer BD, are formed. In the high density dual layer optical disc, there is provided a high density dual layer optical disc for minimizing wavefront aberration generated according to the thickness of the transmission substrate to the first and second recording layers. will be.

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

FIG. 2 illustrates a disk structure of a typical high density single layer DVD (HD-DVD Single Layer).

3 shows a disc structure for a high density dual layer optical disc,

4 is a graph showing wavefront aberration values generated according to the thickness of the transmission substrate up to the recording layer of the high density dual layer optical disk;

5 shows a disc structure for a high density dual layer optical disc according to the present invention.

※ Explanation of code for main part of drawing

1,2: objective lens 3: collimator lens

4: laser diode 10: DVD

20: high density DVD 30: high density dual layer DVD

40: high density dual layer optical disc

In the high density dual layer optical disc according to the present invention for achieving the above object, in the high density dual layer optical disc in which the first recording layer and the second recording layer are formed to be shifted from one side of the center of the thickness of the disc, the first recording layer The transmissive substrate thickness up to has a thickness value obtained by adding up the transmissive substrate thickness up to the recording layer of the high density single layer optical disc and the 1/2 spaced interval from the second recording layer, and transmitting the substrate up to the second recording layer. The thickness is characterized by having a thickness of the transmissive substrate up to the recording layer of the high-density single layer optical disc and the thickness value obtained by subtracting the 1/2 spaced distance from the first recording layer

The thickness of the transmissive substrate to the recording layer of the high density single layer optical disc is 0.1 mm, and the separation distance between the first and second recording layers is 0.02 mm, and the transmissive substrate to the first and second recording layers. The thickness is characterized by being 0.09 mm and 0.11 mm, respectively.

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

First, before describing the high-density dual-layer optical disc according to the present invention, the new second recording layer is defined at predetermined intervals based on the first recording layer of the general high-density single-layer DVD (HD-DVD Single Layer). For example, as shown in FIG. 3, when formed with a 0.02 mm spacing from the first recording layer, a high density dual layer DVD or a high density dual layer video (DB-Dual Layer) ( 30) is made of a structure having a disk thickness of 1.2 mm, a disk diameter of 120 mm, a central hole of 15 mm diameter, and a clamping area of 44 mm diameter clamped by a turntable and clamper provided in the optical disk apparatus, the first recording layer Is formed at a position spaced at a distance of 0.1 mm in a direction opposite to the objective lens OL of the optical pickup included in the optical disk device, and the second recording layer is positioned at a distance of 0.12 mm at a distance. It is formed.

In addition, the objective lens (OL) 2 of the optical pickup for the high density dual layer optical disk has a numerical aperture NA of 0.85 and a laser beam 4 having a wavelength of 405 nm, as in a general high density single layer DVD. Data of the first and second recording layers recorded at a high density using the optical pickup using the numerical aperture NA = 0.85 and the wavelength of 405 nm as described above. When reproducing or recording data of the first recording layer and the second recording layer having a thickness, the defocusing margin (DFM) according to the thickness of the transmission substrate to the recording layer is greatly reduced by the following equation (1).

λ: wavelength

NA: numerical aperture

Δt: change in thickness of the transmission substrate to the recording layer

That is, as the wavelength becomes smaller and the numerical aperture becomes larger, the defocusing margin due to the variation in the thickness of the transmission substrate between the first recording layer and the second recording layer is relatively reduced compared to the general DVD, so that system noise ( Noise).

On the other hand, the thickness of the transmissive substrate to the recording layer is assumed to be 0.1 mm, and the wave front aberration (WFE) of the beam spot formed on the recording layer is assumed to be zero. The wavefront aberration (WFE (λrms)) according to mm)) has a graph characteristic as shown in FIG. 4, for example, when the thickness of the transmission substrate to the recording layer is 0.08 mm or 0.12 mm. (WFE) has aberration values of about 0.18 lambda rms, which far exceeds the maximum wavefront aberration value of 0.075 lambda rms that can be used in real systems.

Therefore, as described above, when the thickness of the transmissive substrates to the first and second recording layers is set to 0.1 mm and 0.12 mm, respectively, or is set to 0.08 mm and 0.1 mm, the thickness of about 0.18 lambda rms Because it has aberration values, it can't be applied to the actual system.

On the other hand, in order to compensate for the wave front aberration in the optical disk device, the thickness of the recording layer is formed when the position of the collimator lens 3 is finely moved or when an additional aberration compensation liquid crystal device (LCD) is installed and compensated. Is 0.08 mm or 0.12 mm, the wavefront aberration has an aberration value of about 0.045 lambda rms.

Therefore, in the high density dual layer optical disc according to the present invention, as shown in Fig. 5, the thickness of the transmissive substrate up to the first recording layer t1 is the thickness of the transmissive substrate up to the recording layer of the high density single layer optical disc, and And a thickness value obtained by summing 1/2 spaced distance from the second recording layer, and the thickness of the transmissive substrate (t2) up to the second recording layer is determined by the thickness of the transmissive substrate up to the recording layer of the high density single layer optical disc, The thickness is set so as to have a thickness value obtained by subtracting the 1/2 spaced distance from the first recording layer.

In other words, the high density dual layer DVD, or the high density dual layer DVD according to the present invention, has a disc thickness of 1.2 mm and a disc diameter of 120 mm, and a 44 mm diameter clamped by a turntable and clamper provided in a central hole of 15 mm diameter and an optical disc device. The first recording layer t1 is manufactured in a structure having a clamping area of the optical disc device, and the first recording layer t1 is positioned at a distance of 0.09 mm in a direction opposite to the objective lens OL 2 of the optical pickup included in the optical disk device. The second recording layer t2 is formed at a position spaced 0.11 mm apart.

Therefore, under the conditions as described above with reference to FIG. 4, the wave front aberration (WFE) for the transmissive substrate thicknesses 0.09 mm and 0.11 mm to the first and second recording layers is a maximum of 0.075 lambda rms that can be used in a practical system. The first and second recordings have a value of about 0.08 lambda rms close to the wave front aberration value and finely shift the position of the collimator lens 3 or additionally compensate for the installation of aberration compensation liquid crystal elements (LCDs). Since the wave front aberration for the permeable substrate thicknesses 0.09 mm and 0.11 mm to the layer has an aberration value adjacent to about 0.025 lambda rms, generation of wave front aberration can be suppressed more efficiently.

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 high density dual layer optical disc according to the present invention configured as described above has a high density in which first and second recording layers are formed, such as a high density dual layer DVD or a high density dual layer BD. In a dual-layer optical disc, a thickness value obtained by adding the thickness of the transmission substrate to the first recording layer, the thickness of the transmission substrate to the recording layer of the high-density single layer optical disk, and the 1/2 spaced distance from the second recording layer And a thickness value obtained by subtracting the thickness of the transmissive substrate to the second recording layer from the thickness of the transmissive substrate to the recording layer of the high-density single layer optical disk and the half distance from the first recording layer. It is possible to minimize wavefront aberration caused by the thickness of the transmission substrate to the first and second recording layers, so that signals recorded on the optical disc can be more accurately reproduced or recorded. It is a very useful invention that can be locked.

Claims (4)

In the high-density dual layer optical disc in which the first recording layer and the second recording layer are formed to be offset from one side of the center of the disk thickness, The transmissive substrate thickness up to the first recording layer has a thickness value obtained by adding up the transmissive substrate thickness up to the recording layer of the high density single layer optical disc and 1/2 spaced distance from the second recording layer, The transmissive substrate thickness up to the second recording layer has a transmissive substrate thickness up to the recording layer of the high density single layer optical disc and a thickness value obtained by subtracting a 1/2 spaced distance from the first recording layer. Dual layer optical disc. The method of claim 1, And a transmissive substrate thickness up to a recording layer of the high density single layer optical disc is 0.1 mm. The method of claim 1, And the spacing between the first and second recording layers is 0.02 mm. The method of claim 1, The transmissive substrate thicknesses to the first and second recording layers are 0.09 mm and 0.11 mm, respectively.