KR100748496B1 - Apparatus for protecting copy of photo disk and method thereof - Google Patents

Abstract

The present invention relates to an apparatus and method for copy protection of an optical disk, and the conventional method for preventing copying of an optical disk is software-protected against physical copying, and there is a problem in that there is no method for preventing the copying at its source. In view of the above problems, the present invention provides an optical disc reproducing apparatus that reads data of an optical disc using light of a laser diode, comprising: a light source for outputting light having a wavelength at which absorption is classified according to a material of a substrate of the optical disc; And a detector for detecting output light of the light source passing through the substrate of the light source and control means for controlling the amount of light detected by the detector to reproduce the optical disk if the amount is equal to a reference value. Irradiating light having a specific wavelength to; detecting the transmitted light transmitted by the irradiated light through the substrate of the optical disk; calculating a transmittance by comparing the amount of light transmitted from the transmitted light with the original light; If the transmittance is equal to the set value, the optical disc is judged to be genuine and played. In other cases, it is judged to be a duplicate and not reproduced, so that only optical discs using a substrate of a specific material are recognized as genuine, and only optical discs recognized as genuine can be physically prevented from copying. There is an effect of preventing the fall of the disk price and the inhibition of the distribution order.

Description

Copy protection device and method of optical disc {APPARATUS FOR PROTECTING COPY OF PHOTO DISK AND METHOD THEREOF}

1 is a flow chart of a typical optical disc manufacture.

2 is a graph showing the transmittance according to the wavelength of light to be irradiated for each type of optical disk substrate.

The present invention relates to an apparatus and method for copy protection of an optical disc, in particular, by varying the wavelength according to the chemical structure of the material used, so as to recognize the change in the unique wavelength as a usage right so as to be suitable for preventing reproduction and duplication of the optical disc. An optical disk copy protection device and method.

In general, since the development of optical discs, research has been conducted to improve the recording density of optical discs. DVD (-5, -9, -10, -18) having various structures based on the shape of two substrates of 0.6 mm thickness bonded together. TYPE), DVD-R capable of recording only once, DVD-RAM capable of rewriting, and the like have been developed.

In case of DVD-5 type optical disc, it has a recording capacity of 4.7Gbyte on one side, which is about 7 times the capacity of 780Mbyte, which is the capacity of CD. This improvement in recording density is due to the reduction of optical spot, signal of modulation code or error correction code. It has been realized by processing efficiency and physical change of the optical disc, that is, pit size, reduction of track pitch, reduction of the distance between the light incident surface and the light reflection surface, and the method of manufacturing the optical disk will be described in detail with reference to the accompanying drawings. Is as follows.

Fig. 1 is a flow chart showing the entire manufacturing steps of an optical disc. As shown in this figure, a pre-preparation for preparing, editing and encoding a material to be stored on an optical disc, creating an image of the result, formatting it in a predetermined format, verifying and storing it, A mastering step; A mastering step of forming a stamper for displaying the data set in the pre-mastering step as a step of a photosensitive agent; An optical disk substrate is formed using the stamper formed in the mastering step, and a replication step of completing the optical disk by depositing a necessary film such as a reflective film.

Hereinafter, a general optical disc manufacturing method as described above will be described in more detail.

First, the pre-mastering step is often referred to as the AUTHORING process, which prepares video, audio, still pictures, subpictures, etc., compresses the prepared material, and compresses the prepared material. Enter and edit scenario information. At this time, menu information, a connection operation of the menu, and the like are edited according to the type of contents stored in the optical disc.

Next, a system multiplexing process of preparing the prepared contents as an image and converting elements / streams of encoded materials into MPEG2 program streams, which are multiplexed streams for storage media, A formatting process is performed to form a disc image data by creating a presentation data file, a navigation file, and a file system using various information about the title generated by the MPEG2 program stream and scenario editing.

The final stage of the authoring process confirms that the image of the disc has been created correctly. In other words, it validates the conformance of DVD standard and its operation as intended. In the case of a DVD, an emulator that makes it possible to operate by activating a DVD disk by a hard disk is finally confirmed whether the operation is abnormal, and then stored in a recordable disk.

Then, the mastering process, that is, the process of forming a stamper, forms a photoresist on the upper portion of the transparent substrate, irradiates a laser on the upper portion of the photoresist, forms a pattern, and uses nickel by electroless plating or sputtering. After depositing, a nickel layer having the deposited nickel as a seed is formed by electroplating.

Then, the nickel layer is separated to form a stamper.

Forming a stamper in this way allows a large amount of DVD production by injection-compression molding or the like. The manufacturing process of the CD is the same, but in the DVD production process, the bonding process is performed by gluing the two optically compressed optical disks with the adhesive, and the printing process including the printing and packaging of the label on the optical disk formed through such a process is performed. REPLICATION).

The substrate material of the optical disk as described above should have a transparency that transmits more than 85% of the laser wavelength, and should have excellent molding processability to uniformly fill the fine pits. In addition, birefringence due to molecular orientation should be small, and micron-sized dust (DUST) should be extremely small. It should be excellent in heat resistance and moisture resistance, free from warping and change of dimensions, and excellent in bonding property with the recording film, and having all the conditions of generating less static electricity.

In addition, in order to prevent illegal copying of optical discs, DVDs are trying to prevent software copying such as granting a REGIONAL CODE during the disc production process. The signal from the pickup can be copied to a recordable disc and by a direct stamper manufacturing method.

That is, the disk substrate material is melted to a part where the aluminum reflective film is formed by using a solvent, a new stamper is made by using a plating process, and a disk having the same information can be mass produced.

As described above, the software copy protection measures have limitations, and even in the case of DVDs, there is a possibility that a serious damage may be caused to the market formation due to the price drop due to the illegal copying effect.

As described above, the conventional copy protection method of the optical disk is software-protected against physical copying, and there is a problem in that there is no method for preventing the copying at its source.

It is an object of the present invention to provide an apparatus and method for copy protection of an optical disk having a software copy protection method and a physical copy protection means.

The above object is to provide an optical disk reproducing apparatus for reading data of an optical disk using light of a laser diode, comprising: a light source for outputting light having a wavelength at which absorption is classified according to a material of a substrate of the optical disk, and a substrate of the optical disk. And a detector for detecting the output light of the light source that has passed through, and control means for controlling the optical disk to be reproduced if the amount of light detected by the detector is equal to a reference value, and in the optical disk reproducing apparatus. Irradiating light of a specific wavelength, detecting the transmitted light transmitted through the substrate of the optical disk, calculating the transmittance by comparing the amount of light transmitted from the transmitted light with the original light, and calculating the calculated transmittance If the setting is the same, the optical disc is judged to be genuine and played back. To be achieved by forming the step is determined by the product does not play, will be described in detail with reference to the accompanying drawings such a present invention.

2 is a graph showing the light transmittance according to the wavelength of light by the substrate material, whereby the ultraviolet, as shown ^{(ULTRAVIOLET LIGHT, 10 -9 ~ 8} m), visible light ^{(VISIBLE LIGHT, 10 -7 ~ 6} m), IR When light with a certain wavelength passes through the substrate of the optical disk within the range of (INFRARED RADIATION, 10 ^{-5 ~ 4} m), the transmittance of the light varies depending on the material of the substrate.

Currently, the wavelength of a laser used for reading an optical disc is 780 nm for a CD and 635 nm to 650 nm for a DVD. In addition to the light of such a laser diode, a light source having a specific wavelength is provided in the optical disc reproducing apparatus.

In this way, by using an additional light source as well as a laser diode for the purpose of reproduction, the material of the substrate of the optical disc to be reproduced can be known by detecting the transmittance of the light source.

As shown in FIG. 2, there is a difference in light transmittance of an optical disk having light having a wavelength of 300 nm with optical materials A, B, and C. It has a unique vibration frequency according to the chemical coupling structure of the plate material of the optical disk, and when light of a wavelength corresponding to each vibration frequency is incident, it absorbs energy and causes vibration movement to cause changes in absorbance or transmittance.

In this way, by adding a light source having a specific wavelength and reading the material of the optical disk substrate, it is determined whether the material is a material of a unique substrate used for genuine products, and a circuit for determining whether to reproduce or not is added according to the determination result. Non-genuine copy products using a substrate made of a specific material cannot be regenerated.

Currently used substrate materials are PMMA (POLYMETHYLMETHACRYLATE), PC (POLYCARBONATE), EPOXY resin, amorphous POLYOLEFIN, CYCLO-OLEFIN COPOLYMER, etc. Since the structure of the monomer itself used for polymerization or copolymerization is slightly different in order to control the fluidity, local or overall joint agreements are made between the substrate material of the optical disc, the maker of the disc, and the reproducing apparatus, so that additional light sources are installed in each reproducing apparatus. If so, it is possible to know whether it is genuine or not according to the material of the substrate.

When the beam from the additionally installed light source is transmitted to the portion where the reflective film is not coated, the position of the detector for measuring the amount of transmitted light is incident when the beam is returned back by using a mirror or the opposite beam direction incident on the optical disk substrate. Direction, and the detector should be installed in the incident direction when measuring the reflected light amount.

As described above, the present invention additionally adds a light source for outputting light of a constant wavelength and a detector for detecting the absorbance of the output light of the light source so as to determine the substrate material of the optical disc. By only recognizing a genuine product and reproducing only the optical disc recognized as the genuine product, physical copying of the optical disc can be physically prevented, thereby reducing the price of the disc and the impairment of the distribution order due to illegal copying.

Claims (4)

An optical disc reproducing apparatus which reads data of an optical disc using light of a laser diode, A light source for outputting light having a wavelength of which absorption is classified according to a material of a substrate of the optical disc; A detector for detecting output light of the light source passing through the substrate of the optical disk; And control means for controlling the amount of light detected by the detector to reproduce the optical disc when the amount is equal to a reference value. The apparatus of claim 1, wherein the detector is disposed opposite to a direction of light incident on a substrate of the optical disk. The apparatus of claim 1, wherein the control means sets a reference value according to the type of material of the substrate of the optical disc. Irradiating light of a specific wavelength to the optical disc in the optical disc player; Detecting the transmitted light through the irradiated light through the substrate of the optical disc; Calculating a transmittance by comparing the amount of light of the transmitted light with the original light; And if the calculated transmittance is equal to the set value, determine and reproduce the optical disc as a genuine product, and if it is different from the set value, determine that the optical disc is a duplicate and not play the optical disc.

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