KR20060118093A - A storage media of optical information - Google Patents

Abstract

A medium for storing optical information is provided to coat a magnetic recording layer on a clamping region, thereby increasing the data storage capacity. A magnetic recording layer(28) is separately coated on a clamping area(22) so that magnetic data can be stored. Optical data are stored in an information area(24). The magnetic recording layer is coated on a surface or both surfaces of an optical disc(30), so that the magnetic recording layer is formed on the clamping area. When the voltage with above the critical value is applied to a laser generating device, the laser beam with the specific wavelength is irradiated and condensed by a condensing lens. The condensed laser beam is reflected by a reflection mirror and irradiated on the information area. A photodiode outputs an electric signal corresponding the intensity of the laser beam. The output electric signal is recognized by a signal recognition member.

Description

Optical information storage medium {A STORAGE MEDIA OF OPTICAL INFORMATION}

1 is a view showing a conventional optical disk structure.

2 is a cross-sectional view showing the structure of an optical disk according to a preferred embodiment of the present invention.

3 is a cross-sectional view showing a region where a magnetic recording film is coated on the optical disk according to the first embodiment of the present invention.

4 is a cross-sectional view showing a region where a magnetic recording film is coated on an optical disc according to a second embodiment of the present invention.

The present invention relates to an optical information storage medium, and more particularly, to an optical information storage medium that can use a clamping area as a storage space.

Optical information storage media are optical media that store and extract information. Optical discs such as Compact Discs (CDs), Digital Versatile Discs (DVDs), and Blu-ray Discs (BDs) It is a representative example.

In such an optical disk, information is stored in a disk-shaped disk, and the information is read by reading a focused laser beam and reading the reflectance or the phase or polarization change of light at the time of reflection.

1 is a view showing a conventional optical disk structure.

Referring to FIG. 1, a conventional optical disc includes a center hole 10, a clamping area 12, an information area 14, and a rim area 16.

The rim area 16 is located at the outermost circumference of the optical disc and functions to maintain the strength of the entire optical disc.

The information area 14 is located between the clamping area 12 and the rim area 16 and is an area in which actual valid information is stored.

The clamping area 12 is located on the inner circumference of the center hole 10, and is an area for fixing the optical disc when the optical disc is loaded into a recording / reproducing apparatus (not shown). The clamping region 12 is made of a transparent polycarbonate material and does not have a separate information storage function.

On the other hand, an optical information storage medium such as an optical disc is required to store more data in a smaller volume storage medium, but there is a limit in the capacity of data that can be recorded in the information area 14. Accordingly, it is required to be able to store certain data in the clamping area 12 which occupies a substantial portion of the optical disk.

In addition, in order to accurately record and reproduce data on the optical information recording medium, additional information about the optical information recording medium must be included in addition to the actual data. However, if all of the additional information is stored in the information area 14, the information storage space that can be actually used is reduced.

Therefore, it is desired to make the clamping area 12 a recordable area capable of storing certain information.

An object of the present invention is to provide an optical information storage medium which can increase the storage capacity of data by forming a magnetic recording film in the clamping area.

It is also an object of the present invention to provide an optical information storage medium capable of recording additional information about an optical information storage medium in a clamping area.

In order to achieve the above object, in the optical information storage medium including the clamping area and the information area according to the preferred embodiment of the present invention, a magnetic recording film is formed which can store magnetization information in the clamping area.

The optical information storage medium has an advantage of increasing the storage capacity of the data by coating a magnetic recording film capable of recording magnetization information in the clamping area.

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

FIG. 2 is a diagram showing the structure of an optical disk according to a preferred embodiment of the present invention, and FIGS. 3 and 4 show a region in which a magnetic recording film is coated on the optical disk according to the first and second embodiments of the present invention. One cross section.

Referring to FIG. 2, when the cross section of the solid line portion AB from the inner circumference to the outer circumference of the optical disk 30 of the present invention is enlarged, the center hole 20, the clamping area 22, It is divided into an information area (24) and a rim area (26).

The center hole 20 is a region located at the innermost circumference of the optical disc 30, and is a hole formed in the center of the optical disc 30 so as to be inserted into a recording / playback apparatus (not shown).

The clamping area 22 is an area in which the optical disk 30 is fixed in contact with a clamper (not shown) in the recording / reproducing apparatus when the optical disk 30 is loaded into the recording / reproducing apparatus (not shown). In addition, the clamping area 22 according to the present invention is an area capable of storing magnetization information, which will be described in detail later.

The information area 24 is located between the clamping area 22 and the rim area 26 and stores optical information. The amount of data that can be stored in the information area 24 varies depending on the type of optical disc 30, but a compact disc (CD) is about 702 MB, a DVD is about 4.7 GB, and a Blu-ray disc (BD). Is about 25GB.

The rim area 26 is located at the outermost circumference of the optical disc 30, and is formed thicker than other areas, thereby maintaining the strength of the entire optical disc 30.

Hereinafter, the information storage form of the optical disc 30 will be described in detail.

3 and 4, the optical disc 30 of the present invention stores different types of data in the clamping area 22 and the information area 24.

In the clamping region 22, a magnetic recording layer 28 is coated separately to store magnetic data, and optical information is stored in the information region 24.

In the method of forming the magnetic recording film 28 in the clamping region 22, the magnetic recording film 28 is coated on one surface of the optical disc 30 as shown in FIG. 3, or the magnetic recording film 28 is formed on both sides of the optical disc 30 as shown in FIG. 4. Any method of coating the recording film 28 may be selected.

The method of reading the optical information stored in the information area 24 is as follows. When a voltage above a threshold is applied to a laser generator (not shown) built in a recording / reproducing apparatus (not shown), a laser beam of a specific wavelength is generated and irradiated by the laser generator. At this time, the laser beam irradiated from the laser generating device is focused by a condenser lens (not shown), and the focused laser beam is reflected by a reflector (not shown) for changing the irradiation path so that the information area 24 of the optical disc Is investigated.

The degree of reflection of the laser beam irradiated to the information region 24 varies depending on the degree of irregularities of the photoresist applied to the surface of the information region 24, and the reflected laser beam is a photodiode (not shown). Is applied). The photodiode outputs an electrical signal corresponding to the intensity of the laser beam being input.

Thereafter, the electrical signal output from the photodiode is recognized by signal recognition means (not shown). In other words, the focused laser beam is irradiated to the optical disk, and the information is read by reading the reflectance or the phase or polarization change of light at the time of reflection.

Meanwhile, a method of reading magnetization information stored in the magnetic recording film 28 of the clamping region 22 is as follows. Since the method of coating the magnetic recording film 28 on the clamping region 22 and the material used for the magnetic recording film 28 are well known in the art, description thereof will be omitted.

The method of reading the magnetization information recorded on the magnetic recording film 28 or recording the magnetization information on the magnetic recording film 28 uses a magnetic head (not shown) to convert magnetic energy into an electric signal or an electric signal. To turn into magnetic energy.

Iron powders are randomly scattered on the magnetic recording film 28 on which no data is recorded. In order to make these iron powders into data having specific information, a magnetic head is brought into contact with the magnetic recording film 28 to flow a current proportional to a voice (or light) signal.

When current flows in this way, a magnetic field proportional to the current is generated in the core portion of the magnetic head, and the contact portion of the magnetic recording film 28 is magnetized. When the magnetized magnetic recording film 28 passes through the magnetic head, the signal is recorded by remaining as a residual magnet in the magnetic material of the magnetic recording film 28.

That is, the magnetization information is read or recorded on the principle of detecting the current (or voltage) in the change of the magnetic field generated by the change of time due to the magnetic head contacting the magnetic recording film 28.

On the other hand, the kind of information stored in the magnetic recording film 28 formed on the information area 24 and the clamping area 22 is also different.

The information area 24 stores contents to be recorded or contents to be read, that is, actual data.

In contrast, the magnetic recording film 28 stores additional information about the optical disk 30. That is, when playing back data recorded on the optical disk 30 or recording data on the optical disk 30, such as a copy protection code of the optical disk 30, manual, management information of the optical disk 30, The information is stored.

Preferred embodiments of the present invention described above are disclosed for purposes of illustration, and those skilled in the art having ordinary knowledge of the present invention will be able to make various modifications, changes, additions within the spirit and scope of the present invention, such modifications, changes and Additions should be considered to be within the scope of the following claims.

As described above, the optical information storage medium according to the present invention has an advantage of increasing the storage capacity of the data by coating a magnetic recording film capable of recording magnetization information in the clamping region.

In addition, the optical information storage medium according to the present invention has an advantage of storing data more accurately by storing additional information about the optical information storage medium in the clamping area.

Claims (6)

In the optical information storage medium including a clamping area, information area, And a magnetic recording film formed on the clamping area to store magnetization information. The method of claim 1, The magnetic recording film is coated on one surface of the optical information storage medium. The method of claim 1, The magnetic recording film is coated on both sides of the optical information storage medium, the optical information storage medium. The method of claim 1, And the additional information about the optical information storage medium is recorded in the magnetic recording film. The method of claim 4, wherein The additional information is an optical information storage medium, characterized in that the copy protection code, manual and management information. The method of claim 1, The optical information storage medium is a compact disc (CD), DVD (DVD) and Blu-ray Disc (BD), characterized in that the optical information storage medium.

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