WO2004019326A1 - 光学的情報記録再生媒体の記録方法、記録再生方法及び再生方法、記録装置、記録再生装置、再生装置、及び光学的情報記録再生媒体 - Google Patents
光学的情報記録再生媒体の記録方法、記録再生方法及び再生方法、記録装置、記録再生装置、再生装置、及び光学的情報記録再生媒体 Download PDFInfo
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- WO2004019326A1 WO2004019326A1 PCT/JP2003/010567 JP0310567W WO2004019326A1 WO 2004019326 A1 WO2004019326 A1 WO 2004019326A1 JP 0310567 W JP0310567 W JP 0310567W WO 2004019326 A1 WO2004019326 A1 WO 2004019326A1
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- Prior art keywords
- recording
- recording layer
- data
- area
- reproducing
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Classifications
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B7/00—Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
- G11B7/24—Record carriers characterised by shape, structure or physical properties, or by the selection of the material
- G11B7/2403—Layers; Shape, structure or physical properties thereof
- G11B7/24035—Recording layers
- G11B7/24038—Multiple laminated recording layers
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B7/00—Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
- G11B7/004—Recording, reproducing or erasing methods; Read, write or erase circuits therefor
- G11B7/0045—Recording
- G11B7/00456—Recording strategies, e.g. pulse sequences
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B7/00—Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
- G11B7/004—Recording, reproducing or erasing methods; Read, write or erase circuits therefor
- G11B7/006—Overwriting
- G11B7/0062—Overwriting strategies, e.g. recording pulse sequences with erasing level used for phase-change media
-
- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B7/00—Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
- G11B7/007—Arrangement of the information on the record carrier, e.g. form of tracks, actual track shape, e.g. wobbled, or cross-section, e.g. v-shaped; Sequential information structures, e.g. sectoring or header formats within a track
- G11B7/00736—Auxiliary data, e.g. lead-in, lead-out, Power Calibration Area [PCA], Burst Cutting Area [BCA], control information
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- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B7/00—Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
- G11B2007/0003—Recording, reproducing or erasing systems characterised by the structure or type of the carrier
- G11B2007/0009—Recording, reproducing or erasing systems characterised by the structure or type of the carrier for carriers having data stored in three dimensions, e.g. volume storage
- G11B2007/0013—Recording, reproducing or erasing systems characterised by the structure or type of the carrier for carriers having data stored in three dimensions, e.g. volume storage for carriers having multiple discrete layers
Definitions
- the present invention relates to a recording method, a recording / reproducing method and a reproducing method of an optical information recording / reproducing medium for recording and reproducing data by irradiating a laser beam, a recording apparatus, a recording / reproducing apparatus, a reproducing apparatus, and an optical information recording / reproducing apparatus.
- a recording apparatus a recording apparatus
- a recording / reproducing apparatus a reproducing apparatus
- an optical information recording / reproducing apparatus for recording and reproducing data by irradiating a laser beam
- An optical disk recording device using laser light has a high recording density and is capable of large-capacity recording. In addition, since it operates in a non-contact manner, high-speed access is possible, and practical use as a large-capacity memory is progressing.
- Optical discs are classified into a read-only type that can only be played back, a write-once type that allows the user to record only once, and a rewritable type that allows the user to record repeatedly.
- Reproduction-only types are used for compact disks and laser disks, and various types are used for external memory of computers and document and image files.
- a reproduced signal is detected by using the change in the amount of reflected light from the pits formed on the optical disk.
- the reproduction signal is detected by using the change in the amount of reflected light from the minute pits formed on the optical disk or the change in the amount of reflected light due to the phase change of the phase change recording film provided in the optical disk. I have.
- rewritable type is a magneto-optical disk, which is installed in an optical disk.
- the recording is performed by irradiating the magneto-optical recording film with high-power laser light to change the magnetization state. Further, utilizing the magneto-optical effect of the magneto-optical recording film, the reproduction signal is detected based on the change in the plane of polarization of the reflected light from the magneto-optical recording film.
- a phase-change optical disc which is another example of a rewritable type
- recording is performed by irradiating a high-power laser beam and changing the phase of a phase-change recording film provided in the optical disc.
- a reproduction signal is detected based on a change in the amount of light reflected from the phase change recording film.
- a thin recording film is formed on the surface of a transparent resin material or a glass substrate on which spiral track grooves (guide grooves) having a pitch of 0.615 ⁇ to 1.6 / im are formed. Is formed. Then, when recording or reproducing data, the focal point of the laser beam is tracked along the track groove, and a data recording signal is recorded on the recording film or a reproduction signal is detected. Generally, only one recording film is formed in an optical disc.
- multilayering This is a method of multiplexing the recording film in the thickness direction of the optical disc.
- the recording capacity is reduced by adopting a two-layer structure. It is increased from 7 GB to 8.5 GB, that is, about 1.8 times that of a single recording film layer.
- rewritable optical disks using a write-once type or a phase change recording film have the following problems when performing multi-layering.
- the recording film on the side closer to the laser beam incident surface has a constant transmittance so that the laser beam with a predetermined intensity reaches the recording film on the farther side than originally.
- the recording since the change in the reflectance of the recording film is used for recording, the recording necessarily changes the transmittance of the recording film. Therefore, when recording is performed on the recording film on the side closer to the laser light incident surface, the intensity of the laser light reaching the recording film on the side farther than this changes, and recording or reproduction on these recording films is There was a problem of adverse effects. For example, non-uniform recording or defective recording occurred during recording, and reproduction failure occurred during reproduction.
- Japanese Patent No. 2928282 discloses management information for identifying the states of a plurality of recording layers on a recording layer closest to a light source among optical information recording members.
- the formed recording member and the recording / reproducing device are disclosed.
- this method when recording / reproducing information on / from an information recording medium having a plurality of recording layers, especially when recording / reproducing information on a laser beam incident surface. If recording is performed on a recording layer farther than this, not on the closest recording layer, unless management information is formed in that layer, an interlayer jump will be performed every time recording or reproduction is performed. This requires the complicated information processing of checking the management information and performing a layer jump again to move to the desired recording layer, which takes too much time for data recording and reproduction.
- an object of the present invention is to provide an optical information recording / reproducing medium having a multi-layered recording film, capable of performing stable recording and reproducing, and capable of performing a high-speed recording / reproducing operation.
- An object of the present invention is to provide a recording / reproducing medium, a recording device, a recording / reproducing device, a reproducing device, a recording method, a recording / reproducing method, and a reproducing method. Disclosure of the invention
- an optical information recording / reproducing medium that achieves the above object has an optical information recording / reproducing medium having a plurality of recording layers that can be recorded and reproduced by irradiating a laser beam.
- the recording layer management information including at least data to be recorded by a user who is a user of the recording area, that is, a recording area in which user data is recorded, and information indicating a recording state of each of a plurality of divided areas in the recording area.
- the recording layer management information of one recording layer is different from the recording layer management information of one recording layer and the other recording layers farther from the laser beam incidence surface than the other recording layer. It is recorded in the record management area.
- the recording layer management information of one recording layer is recorded in each recording management area of one recording layer and the other recording layer farther from the laser light incidence surface than the one recording layer, so that the other recording layer is recorded.
- the recording layer management information of one recording layer can be quickly confirmed without shifting the focus of the laser beam to one recording layer by an interlayer jump operation.
- one recording layer is When recording and generating data on the layer, a laser beam having a relatively high intensity passes, so it is considered that there is a relatively high possibility that the data is rewritten and the recording layer management information is lost. For this reason, the recording layer management information of one recording layer is recorded on another recording layer in which the above-mentioned rewriting is unlikely to occur, so that the risk distribution for the disappearance of the recording layer management information can be achieved.
- defect management information indicating a defect position of the recording layer is further recorded in a recording management area of each recording layer.
- the defect management information is confirmed when recording and reproducing on each recording layer, and the effect of defects on recording or reproduction is suppressed. Can be.
- the defect management information of the one recording layer is recorded in a recording management area of the other recording layer. Accordingly, it is also possible to promptly confirm the defect management information and distribute the risk for the loss of the defect management information.
- At least one recording layer has a guide groove having a wobble shape formed on a track thereof, and the guide groove having a wobble shape is subjected to track modulation for displaying a track address. ing.
- a guide groove having a wobble shape for displaying a track address on a track of the recording layer, unevenness in the degree of scattering of light is suppressed in the surface where the guide groove is formed, and the laser is more laser than the one recording layer. Stable recording or reproduction can be performed on the recording layer far from the light incident surface.
- the optical information recording / reproducing method, recording method, and reproducing method of the present invention record and reproduce data on and from an optical information recording / reproducing medium having a plurality of recording layers capable of recording and reproducing by irradiating a laser beam.
- the optical information recording / reproducing method when data is recorded or reproduced on one recording layer, recording on another recording layer closer to the laser beam incident surface than the one recording layer using the recording layer management information. Check the condition and check the area that overlaps the upper part of the recording area. The laser light output setting for recording or reproduction is changed based on whether or not data is recorded in the memory.
- the recording state of another recording layer closer to the laser beam incident surface than the one recording layer is examined using the recording layer management information, and the recording or reproduction is performed.
- the laser beam output for recording or reproduction based on whether or not data is recorded in the area that overlaps the area where the recording is performed, one recording due to the difference in recording state of other recording layers A change in the intensity of the laser light applied to the layer is suppressed, and stable data recording and reproduction can be performed on one recording layer.
- the output of the laser beam for recording or reproduction is increased.
- the output of the laser beam for performing recording or reproduction is reduced.
- the data of the one recording layer is recorded. Move Elia to another area. If the above areas are mixed in an area that overlaps the upper part of the recording area, and recording is performed in this area, the intensity of the laser beam applied to the recording layer will not be constant, and uneven recording or recording defects will occur. There is fear. Therefore, by moving the data recording area of one recording layer to another area, stable recording can be performed on one recording layer.
- the one recording layer can also be used to reproduce data. Recorded part and not recorded in corresponding area If the reproduction is carried out as it is in a case where the recording medium and the recording medium are mixed, the intensity of the laser beam irradiated to one recording layer varies depending on the location, and thus reproduction failure may occur. For this reason, by recording dummy data in the unrecorded part, the intensity of the laser beam irradiated to one recording layer can be kept constant, and stable data can be reproduced on one recording layer. .
- the intensity of the laser beam applied to one recording layer will not be constant. However, recording failure may occur. For this reason, by recording dummy data in the non-recorded part, it is possible to make the intensity of the laser beam applied to one recording layer constant and to record stable data on one recording layer. it can.
- An optical information recording apparatus, recording / reproducing apparatus, and reproducing apparatus record and reproduce data on and from an optical information recording / reproducing medium having a plurality of recording layers capable of recording and reproducing by irradiation of laser light.
- Optical information recording and playback device Optical information recording and playback device
- the laser beam power switching means has data recorded in an area overlapping an upper area of the recording or reproducing area.
- the output of the laser beam for recording or reproduction is increased or decreased according to the recording conditions.
- the light condensing means when a portion where data is recorded and a portion where no data is recorded are mixed in an area overlapping the area where the recording or reproduction is performed, includes: Move the area to another area.
- the condensing unit may reproduce the data in the one recording layer after recording the dummy data in the unrecorded portion.
- the optical information recording and reproducing medium possible to record data on the recording layer of the one
- the recording layer management information of one recording layer is recorded in each recording management area of the one recording layer and another recording layer farther from the laser beam incident surface than the one recording layer.
- the optical information recording / reproducing method, the recording method, and the reproducing method of the present invention when recording or reproducing data in one recording layer, the data recording / reproducing method is closer to the laser light incident surface than the one recording layer.
- the recording state of whether or not data is recorded on another recording layer is checked, and the laser beam output for recording or reproduction is adjusted based on the recording state.
- stable data recording and reproduction can be performed on one recording layer.
- the optical information recording device, the recording / reproducing device, and the reproducing device according to the present invention it can be formed as a device having the above-described effects.
- FIG. 1 is a cross-sectional view showing a configuration of an optical information recording / reproducing medium according to a first embodiment of the present invention.
- FIG. 2 is a sectional view showing a configuration of an optical information recording / reproducing medium according to a second embodiment of the present invention.
- FIG. 3 is a sectional view showing a configuration of an optical information recording / reproducing medium according to a third embodiment of the present invention
- FIG. 4 is a cross-sectional view illustrating a configuration of an optical information recording / reproducing medium according to a fourth embodiment of the present invention.
- FIG. 5 is a plan view showing a guide groove in which pre-pits are formed
- FIG. 6 is a plan view showing a guide groove in the form of a pebble
- FIG. 7 is a block diagram showing a configuration of an optical information recording / reproducing device according to an embodiment of the present invention.
- FIG. 8 is a cross-sectional view showing the configuration of the optical information recording / reproducing medium of Example 1.
- FIG. 9 is a cross-sectional view showing the configuration of the optical information recording / reproducing medium of Example 7.
- FIG. 10 is a graph showing a reproduced signal measured on a conventional optical information recording / reproducing medium.
- FIG. 1 is a sectional view showing a layer structure of an optical information recording / reproducing medium according to a first embodiment of the present invention.
- the medium 10 is an optical information recording / reproducing medium having a plurality of recording layers that are recordable and reproducible information recording surfaces.
- the recording layer management information of each recording layer includes not only the recording layer but also the recording layer. Recording is also performed on all recording layers farther from the laser light incident surface than the recording layer. Note that the recording layer management information of all the recording layers may be recorded in the recording management areas of all the recording layers. In this case, data management in the recording management area becomes easy.
- each recording layer A combination of a read-only layer and a write-once recording layer, a combination of a read-only layer and a write-once recording layer, and a combination of a read-only layer and a rewritable recording layer Or a combination disc having a write-once recording layer and a rewritable recording layer.
- a rewritable recording layer based on a phase change is used for both recording layers will be described.
- the medium 10 is a two-layered phase-change type optical information recording / reproducing medium, and includes a phase-change-type first recording layer 12 and a second recording layer 14 on a substrate 11, Both recording layers have a configuration optically separated by the spacer layer 13.
- the substrate 11 is made of glass, metal or polycarbonate resin, and has a sufficient thickness of, for example, about 0.6 mm so as to have the same rigidity as an optical disk such as a CD (Compact Disk) and a DVD (Digital Versatile Disk).
- concentric or spiral guide grooves are formed in advance.
- the first recording layer 12 includes a lower protective film 12 A, a phase change recording film 12 B, and an upper protective film 12 C which are sequentially stacked, and is formed on the substrate 11 by a sputtering method or the like. It is formed by a method.
- the phase change recording film 12B is made of a material that undergoes a phase change when irradiated with a relatively high-power laser beam.
- the spacer layer 13 is formed sufficiently thick with respect to the depth of focus determined from the wavelength of the laser to be used and the performance of the condenser lens 24, and has a maximum thickness of about 40 ⁇ m.
- the spacer layer 13 is formed by a method of spreading a highly curable resin or a method of attaching a film-shaped resin having a uniform thickness. Concentric or spiral grooves (not shown) are formed on the surface of the spacer layer 13.
- the guide groove of the spacer layer 13 is formed by a method of transferring the curable resin after development by a stamper or the like, or a method of using a film in which the guide groove is formed in advance.
- the second recording layer 14 is composed of a lower protective film 14 A, a phase change recording film 14 B, an upper protective film 14 C, and a reflective film 14 D which are sequentially laminated. 3 is formed by a film forming method such as a sputtering method.
- the phase change recording film 14 B is made of a material that undergoes a phase change by irradiating a relatively high-power laser beam similarly to the phase change recording film 1 2 B, and the reflection film 14 D has a constant property with respect to incident light. It is made of a material that exhibits a reflectance.
- Lower portion protective film 1 2 A, 1 4 A, the upper protective layer 1 2 C, 1 4 C is, Z n S, S i ⁇ 2, Z n S- S i ⁇ 2, G e N, G e C r N, a 1 N, using a T a O, G e a 1 N, S i 0, a 1 2 0 3, and the dielectric alone, such as S i N, or a multilayer film composed of these dielectric it can.
- the phase change recording films 12B and 14B have GeSbTe, GeSbSnTe, AgInSbTe, GeTe, SbTe, and Thin films such as InSbTe can be used.
- Al, Ag, Au, and NiCr, or an alloy containing these as main components can be used.
- Each recording layer of the medium 10 has a control area 21 and a data recording area 22 along the radial direction of the disk surface between the disk center 20 and the disk edge 23.
- the data recording area 22 stores data to be recorded by the user of the disc, that is, user data
- the control area 21 stores and reproduces data on and from the medium 10 in a favorable manner.
- a recording device, a recording / reproducing device, and control data for controlling the reproducing device There is no particular limitation on the arrangement of the control area 21 and the data recording area 22.
- the control area 21 is arranged on the inner peripheral side of the disk surface, and the data recording area 22 is arranged outside the control area 21.
- control areas 21 may be dispersedly arranged between a plurality of data recording areas 22 developed from the inner circumference to the outer circumference.
- control area 21 also functions as a recording management area.
- the record management area is separate from the control area 21 described here. The area can be provided exclusively.
- the control area 21 stores recording layer management information including at least information indicating the recording state of each area obtained by dividing the data recording area 22 of the first recording layer 12 into a plurality. Further, the recording layer management information of the data recording area 22 of the first recording layer 12 includes not only the control area 21 of the first recording layer 12 but also the control area 21 of the second recording layer 14. Is also stored.
- the transmittance is usually different between a recorded area and an unrecorded area.
- the recording layer changes its phase state, changes in refractive index, changes in shape, phase, and structure.However, if it is limited to the laser wavelength, it can be seen optically as a change in transmittance. It is a phenomenon. For example, in the case of a write-once recording film in which the transmittance of a recorded portion where a recording mark is formed is higher than that of an unrecorded portion, the amount of light reaching the second recording layer 14 is smaller than that of the first recording layer.
- the difference between the case where the recording layer reaches the second recording layer 14 through the unrecorded portion 12 and the case where the recording layer reaches the second layer through the recording portion of the first recording layer 12 is different.
- FIG. 10 shows a change in a reproduction signal when a conventional two-layer optical disc is reproduced from the second recording film.
- the recording unevenness 60 passed through the recording portion and the non-recorded portion of the first recording film, and the light was straddled.
- the transmittance of the first recording layer decreases in the part, This is caused by a decrease in the intensity of the laser beam reaching the second recording layer.
- the recording layer management information of the first recording layer 12 is stored, and when recording or reproduction is performed on the second recording layer 14, the laser beam is emitted by an interlayer jump. It is not necessary to move the focus to the first recording layer 12, and the recording layer management information can be quickly confirmed in the same recording layer. Then, the recording state of the first recording layer 12 is confirmed based on the recording layer management information, and the laser power is adjusted according to the recording state of the first recording layer 12 so that the power reaching the second recording layer 14 is the same. Can be adjusted to Furthermore, in the medium 10, when recording and reproducing on the second recording layer 14, a laser beam having a relatively high intensity passes through the first recording layer 12.
- the recording layer management information of the first recording layer 12 is stored in the control area 21 of the second recording layer 14 where the above-mentioned rewriting is unlikely to occur. Risk diversification for loss of information can be achieved.
- the control area 21 stores defect management information indicating the defect position of the data recording area 22 of each so-called recording layer.
- the defect management information of the first recording layer 12 is stored not only in the control area 21 of the first recording layer 12 but also in the control area 21 of the second recording layer 14. Is done.
- Defects (defects) in optical information recording / reproducing media are generally caused by some unevenness. For example, the presence of deposits, abnormal shape of guide grooves, peeling of recording film, This is due to impurity contamination. These defects cause scattering of the laser light and affect the transmittance of the laser light. That is, if the first recording layer 12 has a defect, the second recording layer 14 Recording and playback will be affected. For this reason, by managing the defect management information of the first recording layer 12, the recording and reproduction of the defect existing in the first recording layer 12 with respect to the recording and reproduction of the second recording layer 14 can be performed using a predetermined method described later. The influence can be suppressed. In addition, since the defect management information of the first recording layer 12 is also stored in the control area 21 of the second recording layer 14, as in the case of the recording layer management information, quick information can be obtained. Confirmation and diversification of risk for loss of defect management information.
- the recording layer management information must include at least information indicating the recording state of each area obtained by dividing the data recording area into a plurality of areas, and the form of the management information has a degree of freedom.
- the information indicating the recording state may be a combination of (recording layer number, start address of recorded part, end address of recorded part), or (recording layer number, target area number, recorded part number). A combination of the start address and the end address of the already recorded section may be used.
- defect management information type of information: recorded information or defect information, target area number, start address of the already recorded section, End address of recorded part, start address of non-recordable part due to defect, end address of non-recordable part due to defect
- flag indicating information of defect, target area number, start address of non-recordable part due to defect A combination of a dress and an end address of a non-recordable portion due to a defect may be used. Further, a plurality of these pieces of information may be mixed and used as management information.
- a combination of (recording layer number, start radius of a recorded portion, end radius of a recorded portion) may be used.
- a combination of (recording layer number, target area radius, start radius of a recorded part, end radius of a recorded part) may be used, and when the defect management information is included, (type of information: recorded information or defect information, Target area radius, start radius of recorded part, end radius of recorded part, defect Start radius of non-recordable area, end radius of non-recordable area due to defect) or (Flag indicating that it is defect information, target area radius, start radius of non-recordable area due to defect, end radius of non-recordable area due to defect)
- a plurality of these pieces of information may be mixed and used as management information, or may be used in combination with the above-mentioned address.
- the position of the reference recording start time of zero is defined on the medium and the recording time is managed based on this.
- the good c the information to be, (recording layer number, recording start time of the recorded portion, the end time of the recorded portion) may be a combination of (a recording layer number, the target area start time of the recorded portion If the information includes defect management information, the type of information is: (recorded information or defect information, target area recording start time, recorded part start time, recorded time, etc.).
- the end time of the recording part, the start time of the non-recordable part due to the defect, the end time of the non-recordable part due to the defect) or (the flag indicating the defect information, the target area recording start time, the defect That the start time of the unrecordable portion, may be a combination of the end time of the unrecordable portion due to a defect). Further, a plurality of these pieces of information may be mixed and used as management information, or may be used in combination with the address and the radial position described above.
- the information indicating the recording state may be in the form of a bitmap.
- a bitmap is created with "1" when the ECC block is recorded and "0" when the ECC block is not recorded so that it is possible to identify whether or not the ECC block was used for recording for each recording layer. May be.
- the first bit shall correspond to the first ECC block of the recording layer.
- This bitmap may be formed for each sector or may be formed for each area.
- information indicating a defect may be in the form of a bitmap.
- a bitmap For each recording layer, create a bitmap for each ECC block with “1” when there is a defect and “0” when there is no defect.
- the first bit shall correspond to the first ECC block of the recording layer.
- this bitmap may be formed in sector units or may be formed separately for each area.
- the recording management information indicates the presence or absence of a recording and the presence or absence of a defect.
- information indicating the type of content, information on the number of repetitive recordings of a recorded part, and the like may be additionally described. .
- the guide groove in which the first recording layer 12 is formed has a guide groove formatted in a wobble shape meandering in a direction perpendicular to the tracking direction as shown in FIG. (Groove) 3 1 is adopted.
- an address giving section 32 is provided on a part of the guide groove in a circumferential direction in order to add address information of each track constituting the guide groove.
- a guide groove 34 having a normal shape without meandering is adopted.
- an irregular island-shaped pre-bit 33 is formed for each track instead of the guide groove 34.
- the shape of the groove is largely different between the addressing section 32 and the other area, and the scattering of the surface of both areas is largely different. Therefore, the intensity of the transmitted light is disturbed in the vicinity of the address providing section 32, and it is difficult to perform stable recording and reproduction on the second recording layer 14.
- the addressable portion 32 has the double groove 31 formed as it is, and has a partially irregular shape.
- the snake Row repeats at position 3 5 and phase 1 8 0. It is out of alignment.
- the wobble groove 31 is formed, the difference in the shape of the groove between the addressing portion 32 and the other groove forming portion is smaller than when the pre-bit 33 is formed. The difference in surface scattering between the two regions is also small. For this reason, even in the vicinity of the address providing section 32, disturbance in the intensity of the transmitted light can be suppressed, and stable recording and reproduction on the second recording layer 14 can be performed.
- the recording layer management information and the defect management information of the first recording layer 12 are stored, so that the recording or reproduction of the second recording layer 14 is always performed. Information can be confirmed and stable recording and reproduction can be performed.
- the recording layer management information and the defect management information of the first recording layer 12 are also stored in the control area 21 of the second recording layer 14, so that the information can be quickly confirmed and the information can be obtained. Risk diversification for loss can be achieved. Further, by forming the wobble groove 31 in the first recording layer 12, it is possible to suppress the disturbance of the transmitted light intensity in the vicinity of the addressing section 32 and perform stable data recording and reproduction.
- a recording / reproducing method, a recording method, and a reproducing method of the medium 10 according to the present embodiment will be described.
- the control area 21 of the second recording layer 14 is checked.
- the recording state of the area 27 of the first recording layer 12 overlapping the upper part of the second recording layer with respect to the target area 26 for recording or reproduction of the second recording layer 14 Check if it is present or unrecorded.
- the area 27 has the track width of the second recording layer 14 and the first recording layer based on the spread of the laser beam 25 focused on the second recording layer 14 on the first recording layer 12. It is set in consideration of the disc eccentricity between the second recording layer 14 and the second recording layer 14.
- the confirmed first recording layer Based on the recording state of the area 27 of the area 12, the output of the laser light is appropriately changed to a predetermined output, and recording or reproduction is performed on the second recording layer 14 c . If the average transmittance of the recording area changes from 50% to 61% by recording, the transmission amount of the laser beam 25 to the second recording layer changes. In this case, the same power reaches the second recording layer if the laser beam output to the first recording layer recording section is set to be 0.82 times that of the unrecorded section. In the case of reproduction, it is preferable that the amount of light received by the photodetector that generates the reproduction signal does not fluctuate rather than the amount of light reaching the second recording layer.
- the output of the reproduction laser beam to the recording layer 1 recording layer is set to 0.67 times that of the unrecorded area, the same power will reach the photodetector. As a result, an optimum transmitted light intensity can be obtained during recording or reproduction with respect to the second recording layer 14, so that stable recording and reproduction can be performed.
- the specified value is recorded in advance in the desired area of the medium and set by reading it before and after recording on the first recording layer.
- the recording / reproducing apparatus may identify the medium, read the specified value specified in advance for the medium, and set the value.
- the recorded state of the area 27 of the first recording layer 12 in which the confirmation has been performed includes both the recorded part and the unrecorded part, the following is performed.
- the recording it is difficult to perform stable recording on the second recording layer 14. For this reason, basically, it is preferable to avoid recording on the second recording layer 14 of this area, and recording is performed by moving to an unrecorded alternative area. As a result, it is possible to prevent the occurrence of uneven recording or loss of recording.
- the defect management information of the first recording layer 12 When recording or reproducing data on or from the second recording layer 14, it is desirable to check the defect management information of the first recording layer 12.
- the defect management information is checked, and if there is a defect in the area 27 of the first recording layer 12 overlapping the area to be recorded in the second recording layer 14, for example, the area is moved to an alternative area.
- the first recording layer 12 is Check the recording state of area 27, and change the output of the laser beam so that the intensity of the transmitted light is optimum. If the area 27 is in a mixed state, the data is moved to the alternative area and recorded, or reproduced after performing pseudo recording. Furthermore, the position of the defect in the first recording layer 12 is confirmed using the defect management information, and a predetermined measure is taken. By using these methods, it is possible to suppress the occurrence of uneven recording, defective recording, and defective reproduction, which have conventionally been problems.
- FIG. 2 is a sectional view showing a layer structure of an optical information recording / reproducing medium according to a second embodiment of the present invention.
- the layer structure of the optical information recording / reproducing medium may be the medium 40 shown in FIG.
- the medium 40 is an optical information recording / reproducing medium having a short focal length by using a condensing lens 30 having a high numerical aperture (NA) in order to increase the density. You. For this reason, a thin cover layer 15 is formed on the laser light incident surface, and the substrate 11 having a large thickness is formed on the side opposite to the laser light incident surface.
- NA numerical aperture
- the medium 10 according to the first embodiment is provided with a thin cover layer 15 having a thickness of about 0.1 mm instead of the substrate 11 on the laser light incident side, It has the same configuration as the medium 10 except that the substrate 11 is provided on the back side of the second recording layer 14. With such a configuration, the medium 40 can achieve a higher density than, for example, DVD.
- FIG. 3 is a sectional view showing a layer structure of an optical information recording / reproducing medium according to a third embodiment of the present invention.
- the layer structure of the optical information recording / reproducing medium may be such as a medium 41 shown in FIG.
- the medium 41 has a double-sided configuration of the medium 10 shown in FIG. 1, and has a configuration in which the second recording layer 14 of the two media 10 faces each other and is bonded via the adhesive layer 16. With such a configuration, it is possible to further increase the capacity. If necessary, one of the bonded media 10 may be used as a dummy substrate.
- FIG. 4 is a sectional view showing a layer structure of an optical information recording / reproducing medium according to a fourth embodiment of the present invention.
- the layer structure of the optical information recording / reproducing medium may be such as a medium 42 shown in FIG.
- the medium 42 has a configuration in which the medium 40 shown in FIG. 2 has a double-sided configuration, and has a configuration in which the substrate 11 is common and two media 40 are formed on both sides of the substrate 11. I have. With such a configuration, it is possible to further increase the capacity.
- the media of the first to fourth embodiments are, for example, write-once so-called recordable media. (R medium) can also be applied.
- the recording layer is used for the laser wavelength to be used.
- a thin film containing a low melting point metal such as Sn, Bi, In, Te or Pb, or a material such as Si or Ge that is easily deformed. Adopted.
- a configuration in which a dielectric protective film and a reflective film are formed above and below these organic dyes and thin films is also adopted.
- FIG. 7 is a block diagram showing a configuration of an optical information recording / reproducing apparatus according to one embodiment of the present invention.
- the basic configuration is as follows: an optical information recording / reproducing medium having a plurality of recording layers that can be recorded and reproduced by irradiating laser light; and a light head for condensing laser light on a recording layer on which data is recorded or reproduced.
- Recording / reproducing circuit, recording layer management information / reproducing means used for reproducing recording layer management information including at least information indicating the recording state of the recording layer, and setting of the recording laser light output.
- a recording power setting means and a reproduction power setting means functioning as a laser light power switching means to be changed, and a pseudo data generation circuit.
- the device 50 is a device that performs recording and reproduction on an optical information recording / reproducing medium while exchanging data with an external host.
- the apparatus 50 includes an optical disk 51 as an optical information recording / reproducing medium, an optical head 52 for performing an optical operation on the optical disk 51, and a spindle motor 5 for supporting and rotating the optical disk 51. 3, a circuit group 54 for controlling the optical head 52 and the spindle motor 53, a controller 110 for controlling the entire circuit group 54, etc., and data transfer with an external host. It has an interface 1 1 1 for sending and receiving.
- the circuit group 54 includes a rotation control circuit 101, a servo control circuit 102, a recording / reproducing circuit 103, a recording data processing circuit 104, a pseudo data generation circuit 105, and a recording power setting circuit 100. 6, a reproduction power setting circuit 107, a reproduction data processing circuit 108, and a recording layer management information reproduction circuit 109.
- the optical disc 51 is an optical information recording / reproducing medium having two recording layers as described in the first to fourth embodiments.
- Light head 52 A laser light source that irradiates the laser light onto the disk 51, and a photodetector that detects reflected light from the optical disk 51 during reproduction.
- the optical head 52 emits a laser light source using a drive signal from the recording / reproducing circuit 103, condenses a laser beam at a predetermined position on the rotating optical disk 51, and emits light at the time of reproduction.
- the reflected light from the optical disk 51 is detected by the detector.
- the laser light source emits a laser beam having a higher output during recording than during reproduction.
- the spindle motor 53 rotates the optical disk 51 to a predetermined rotation position under the control of the rotation control circuit 1 1.
- the rotation control circuit 101 controls the rotation of the spindle motor 53. Based on a servo error signal from the recording / reproducing circuit 103 and a command from the controller 110, the focus conversion circuit 102 performs focus control, tracking control, and optical control of the optical head 52. Perform position control.
- the recording / reproducing circuit 103 widens the signal detected by the photodetector of the optical head 52 at the time of reproduction, and reproduces the reproduced data signal, the signal relating to the recording layer management information stored in the control area 21, and the focus.
- ⁇ Servo error signal and tracking ⁇ Generate signals such as servo error signal.
- a signal received from the recording data processing circuit 104 is supplied to the optical head 52.
- the recording data processing circuit 104 adds an error correction code to the recording data received from the interface 111, and transmits the recording data to the recording / reproducing circuit 103.
- the pseudo data received from the pseudo data generating circuit 105 is processed into recording data, and transmitted to the recording / reproducing circuit 103.
- the pseudo data generation circuit 105 generates pseudo data when performing pseudo recording, and transmits the pseudo data to the recording data processing circuit 104.
- the recording power setting circuit 106 sets the finger from the controller 110 when necessary for recording.
- the laser light output is changed to a predetermined value according to the order. Playback power setting circuit
- Step 107 changes the output of the laser beam to a predetermined value according to a command from the controller 110 when necessary for reproduction.
- the reproduction data processing circuit 108 demodulates the reproduction data signal received from the recording / reproduction circuit 103 into reproduction data, corrects the error, and transmits the data to the interface 111.
- the reproduction circuit 109 receives a signal from the reproduction data processing circuit 108 when reproducing the control area 21, generates data relating to the recording state of the control area 21, and Send to 0.
- the controller 110 controls these circuits, the interface 111, and the like.
- the interface 111 receives recording / reproduction command data and recording data from / to an external host, and transmits reproduction data.
- the device 50 can be formed as an optical information recording / reproducing device having the same effect as the optical information recording / reproducing media of the first to fourth embodiments.
- An optical disk 51 which is an optical information recording / reproducing medium, has a configuration having two recording layers, and is recorded or reproduced using an optical head 52.
- a control area 21 is provided on the first recording layer 12 and the second recording layer 14 of the optical disc 51, and the first recording layer 12
- the recording layer management information related to the recording state of is stored. That is, as described above, the control area 21 functions as a recording management area.
- Recording layer management information in the control area where recording layer management information is stored The arrangement of the recording layer information is not limited, but, for example, when viewed from the laser incident side, the recording layer management information of the second recording layer is arranged at the back of the recording layer management information arrangement position of the first recording layer. Alternatively, the recording layer management information of the second recording layer may be arranged at a position that does not overlap the recording layer management information arrangement position of the first recording layer.
- the recording layer management information of the second recording layer is arranged at a position that does not overlap the position where the recording layer management information is arranged on the first recording layer, the first recording is used for recording and reproduction on the second recording layer. Since the recording state of the layer is not affected, the reliability in recording and reproducing the recording layer management information is improved.
- the first recording layer only needs to record at least the recording layer management information of the first recording layer, but the second recording layer needs to record at least the recording layer management information of the first recording layer. Further, in the recording / reproducing operation of the second recording layer, it is more convenient that the recording layer management information of the second recording layer is also recorded.
- the recording layer management information of each layer is updated when recording is performed on each layer, in the case of a write-once type, a sufficient recording management area as a control area may be secured and the update information may be added. In the case of a rewritable type, update information may be added, or old data may be rewritten.
- the recording layer management information For example, of the addresses used for recording, the start address, the end address, and the used area number are set as a set, and the recording management areas of the first recording layer and the second recording layer are used. It is recorded as the recording layer management information in the following.
- the second recording layer for example, of the addresses used for recording, the start address, the end address, and the used error number are set as a set in the recording management area of the second recording layer. Record as management information. The same operation is performed when the recording layer management information including the position information or the time information is used.
- recording layer management information is recorded in the bitmap format
- first recording layer for example, change the desired bit of the bitmap corresponding to the ECC block used for recording to “1”.
- the desired bit corresponding to the ECC block used for recording is changed to “1” and updated to the recording management area of the second recording layer. Recorded as recording layer management information.
- a procedure for updating the defect management information will be described. If a defect that cannot be used for recording / reproduction is found by performing recording / reproduction on the first recording layer, for example, among the addresses including the defect, the defect start address, the defect end address, and the defect Is recorded as defect management information in the recording management areas of the first recording layer and the second recording layer as a set of the area number in which is present. If a defect that cannot be used for recording / reproduction is found by performing recording / reproduction on the second recording layer, for example, among the addresses including the defect, a defect start address, a defect end address, and a defect exist. The area number to be set is recorded as defect management information in the recording management area of the second recording layer as a set. The same operation is performed when using defect management information composed of position information or time information.
- each track of the optical disc 51 is assigned an address by a predetermined addressing method. For this reason, if the address can be confirmed, the radius of each track on the optical disk can be determined. In a medium in which a plurality of recording layers are superimposed, since the superposition of the recording layers is performed with high accuracy, the amount of disc eccentric deviation of each recording layer is very small. Thus, the radius of the track address in the second recording layer 1 4, in the first recording layer 1 2, c for the radius of the track of the corresponding Adoresu is almost the same, given the second recording layer 1 4 When the track is specified, the device 50 specifies the track existing at the corresponding position of the first recording layer 12 via the address and confirms the recording layer management information, thereby recording the track. It is possible to check the status.
- the address of the track on which the recording is performed on the second recording layer 14 is determined by a command from the controller 110.
- the control area 21 of the second recording layer 14 is checked, and the control area 21 of the second recording layer 14 is included in the area 27 of the first recording layer 12 overlapping the area to be recorded.
- the output of the laser beam is appropriately changed to a predetermined output, and recording or reproduction on the second recording layer 14 is performed.
- the necessary correction conditions can be determined in advance according to the configuration of the optical disk 51, and may be recorded in the control area 21 of the second recording layer 14 in advance, or stored in the device 50. May be.
- the recorded state of the confirmed area 27 is changed between the recorded part and the unrecorded part. If the minutes and minutes are mixed, proceed as follows. When recording, move to the alternative area, which is an unrecorded part, and record. As a result, it is possible to prevent uneven recording.
- reproduction first, pseudo recording is performed on the unrecorded portion of the above-described mixed area to eliminate the mixed state. Next, reproduction is performed by changing the laser beam to a predetermined output. Thereby, stable reproduction is performed by irradiating the second recording layer 14 with transmitted light having a uniform intensity, and reproduction failure which has conventionally been a problem can be suppressed.
- a specific pattern signal previously recorded in the pseudo data generation circuit 105 may be used.
- pseudo recording is performed on an unrecorded portion of the above-described mixed area to eliminate the mixed state.
- recording is performed by changing the laser beam to a predetermined output.
- stable recording can be performed by irradiating the second recording layer 14 with transmitted light having a uniform intensity, and recording unevenness and recording defects, which have conventionally been problems, can be suppressed.
- a specific pattern signal previously recorded in the pseudo data generation circuit 105 may be used, as in the above-described reproduction method.
- Examples 1 to 16 are specific examples of the optical information recording / reproducing medium of the first to fourth embodiments, and the optical information recording / reproducing apparatus of the embodiment, respectively, and are modifications with various modifications. is there. Examples 1 to 6, Examples 7 to 11, and Examples 12 to 16 use the same recording / reproducing medium and recording / reproducing apparatus, respectively.
- FIG. 8 is a cross-sectional view showing the configuration of the optical information recording / reproducing medium of this example.
- the medium 44 has two substrates having a recording film formed on the surface facing each other, It has a configuration in which it is bonded via an ultraviolet curable resin having a predetermined thickness.
- a polycarbonate resin substrate having an outer diameter of 120 mm, an inner diameter of 15 mm, and a substrate thickness of 0.6 mm was used as the first substrate 17.
- the shape of the double groove 31 has a depth of 60 nm and a track pitch of 0.74 ⁇ m.
- the wobbled groove 31 is formed in a spiral shape and has a wobbled frequency of 700 kHz when rotated at a linear velocity of 3.9 m / sec from the inner circumference to the outer circumference of the first substrate 17. did.
- the control area 21 was set to 24 mm, and the data recording area 22 was set to a radius 24 mm to 58 mm outside the control area 21.
- a designated address was previously assigned to each track of the control area 21 and the data recording area 22 according to the method described above.
- a lower protective film 12 A composed of ZnS—Si 0 2 force and a phase change recording composed of GeSbTe are sequentially formed on the first substrate 17 by sputtering. film 1 2 B, and to form a Z n S- S i 0 upper protective layer made of 2 1 2 C.
- the second substrate 18 a polycarbonate resin substrate having an outer diameter of 120 mm, an inner diameter of 15 mm, and a substrate thickness of 0.6 mm was used.
- a wobbled groove 31 formed by mastering is formed in advance, and a spiral shape is formed opposite to the wobbled groove 31 formed on the surface of the first substrate 17. ing.
- the depth, track pitch, wobble frequency, configuration of the control area 21 and the data recording area 22 of the wobble groove 31 of the second substrate 18 were the same as those of the first substrate 17.
- a reflective film 14 D made of A 1 -T i and an upper protection made of ZnS—S i ⁇ 2 are sequentially formed on the second substrate 18 by the Spack method.
- an ultraviolet curable resin is spread on the first recording layer 12 by spin coating so as to have a thickness of 40 ⁇ .
- the first recording layer 12 and the second recording layer 14 are opposed to each other, the eccentricity of the first substrate 17 and the second substrate 18 is suppressed, and these are bonded together. Cured by irradiation.
- the entire surface of the data recording area where the recording of the first recording layer 12 and the second recording layer 14 was performed was initialized using an initialization device.
- the medium was formed as a medium 44 by being in a crystalline state which is an initial state corresponding to an unrecorded state.
- the recording layer management information and the defect management information of the first recording layer 12 are stored in the first recording layer 12 and the second recording layer 14. .
- the optical characteristics of the medium 44 of this example were measured.
- the first recording layer 12 alone has a reflectivity of 10% and a transmissivity of 50% in a crystal state before recording. In the amorphous state at the time of recording, the reflectance was 2.5% and the transmittance was 72%.
- the medium 44 has a reflectance of 3% from the second recording layer 14 when the second recording layer 14 is not recorded and the first recording layer 12 is not recorded.
- the reflectance from the second recording layer 14 became about 4.5%.
- the reflectance from the second recording layer 14 is 7.5%,
- the reflectance from the second recording layer 14 became about 11%.
- the laser wavelength of the light head is 65 nm, and the NA of the condenser lens is 0.65.
- the device 50 according to the embodiment described with reference to FIG. 7 was used.
- the radius of the first recording layer 1 2 3 Omii! Data was recorded in a data recording area 22 of ⁇ 32 mm.
- the control region 2 1 of the second recording layer 1 4 a first recording layer 1 and second radius 3 0 mm to 3 are assigned to 2m m Adoresu (6 9 6 8 0 (hex address to 7E 2 DF hex) was recorded.
- the radius of the data recording area 22 of the second recording layer 14 from the host is 30.5mn! ⁇ 3 1.2
- a command to record at 2 mm was sent.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and confirms that the radius 30 to 32 mm of the first recording layer 12 has been recorded.
- Management information ⁇ Reproduction circuit 109 recognized and transmitted data indicating that to controller 110.
- the focal point of the laser beam of the light head 52 was moved to a position of a radius of 30.5 mm on the second recording layer 14 by a command from the controller 110.
- the controller 110 transmitted an instruction to the recording power setting circuit 106 to reduce the output (recording power) of the laser beam from the initial value of 12 mW to 10 mW.
- good recording was performed on a desired area of a radius of 30.5 mm to 31.2 mm.
- the host transmitted a command to reproduce the position of the data recording area 22 of the second recording layer 14 with a radius of 31 mm.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and the radius 30.5 to 31.5 mm of the first recording layer 12 is already recorded.
- the recording layer management information and the reproduction circuit 109 recognized that there was, and transmitted data to that effect to the controller 110.
- the focal point of the laser beam of the optical head 52 was moved to a position having a radius of 30.5 mm on the second recording layer 14 according to a command from the controller 110.
- the controller 110 transmitted to the reproduction power setting circuit 107 a command to decrease the output (reproduction power) of the laser beam from the initial value of 1.2111 ⁇ "to 1. OmW.
- a good reproduction signal was obtained from a desired area of a radius of 31 mm by a series of operations, etc. As described above, when the first recording layer 12 was already recorded, the output of the laser beam was reduced. As a result, it was confirmed that good reproduction was performed from the second recording layer 14.
- the radius of the first recording layer 12 is 30 mn! ⁇ 2 2 mm data recording area 2 Data was recorded in 2.
- the control area 21 formed on the inner periphery of the first recording layer 12 has a radius of 30 mn! Information indicating that the address (addresses 696680 hex to 7E2DF hex) assigned to 332 mm was already recorded.
- the host transmitted a command to perform recording in the radius 31.8 mni to 32.2 mm of the data recording area 22 of the second recording layer 14.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and the radius of the first recording layer 12 is 30 mn!
- the recording layer management information / reproducing circuit 109 recognized that ⁇ 32 mm was already recorded, and transmitted data to that effect to the controller 110.
- the controller 110 sets the radius of the first recording layer 12 to 31.8 mn! ⁇ 32.0 mm has already been recorded, that is, when recording on an area of the above radius of the second recording layer 14, the area 27 of the first recording layer overlapping the upper part of the recording target part 26 is mixed Therefore, the recording here was stopped, and the recording position was moved to the replacement area with a radius of 34.8 mm.
- the control area 21 of the second recording layer 14 is reproduced, and it is confirmed that the radius 34.5 mm to 35.5 mm of the first recording layer 12 is unrecorded.
- the regenerating circuit 109 recognized it and sent data to that effect to the controller 110.
- the controller 110 transmitted a command to set the laser beam output (recording power) to the initial value of 12 mW to the recording power setting circuit 106.
- good recording was performed for a radius of 34.8 mm to 35.2 mm, which is an alternative error.
- the area 27 of the first recording layer 12 is in a mixed state, by moving to the alternative area and performing the recording, good recording can be performed on the second recording layer 14. It could be confirmed.
- Reproduction from the second recording layer 14 was attempted using the medium 44 of Example 1 and the device 50 according to the embodiment.
- the radius 3 O mn of the second recording layer 14 Data was recorded in a data recording area 22 of ⁇ 32 mm.
- data was recorded in the data recording area 22 of the first recording layer 12 having a radius of 30.5 mm to 31.5 mm.
- the address (6) assigned to the radius 30.5 mm to 31.5 mm of the first recording layer 12 is stored in the control area 21 of the second recording layer 14 according to the procedure described above. Information indicating that ED 90 he X address to 79 BDF he X address) was already recorded.
- the host transmitted a command to reproduce the radius 30.3 mm to 30.7 mm of the data recording area 22 of the second recording layer 14.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and the radius 30.5 to 31.5 mm of the first recording layer 12 is already recorded.
- the recording layer management information 'reproducing circuit 109 recognized that this was the case, and transmitted data to that effect to the controller 110.
- the focal point of the laser beam of the optical head 52 is moved to a position of a radius 30.0 mm of the first recording layer 12 by a command of the controller 110, and then the radius 30.0 mm Pseudo data was recorded for ⁇ 30.5 mm.
- the data transmitted from the pseudo data generating circuit 105 to the recording data processing circuit 104 was used for recording the pseudo data.
- the focal point of the laser beam of the optical head 52 was moved to the second recording layer 14 by a command from the controller 110.
- the controller 110 transmitted to the reproduction power setting circuit 107 a command to reduce the output (reproduction power) of the laser beam from the initial value of 1.2 mW to l.OmW.
- the desired area which is a radius of 30.3 mm to 30.
- a good reproduction signal was obtained up to 7 mm.
- data was recorded in the data recording area 22 of the second recording layer 14 having a radius of 30 mm to 31 mm.
- data was recorded in the data recording area 22 of the first recording layer 12 having a radius of 30.5 mm to 31.5 mm.
- the address (6) assigned to the radius 30.5 mm to 31.5 mm of the first recording layer 12 is stored in the control area 21 of the second recording layer 14 according to the procedure described above. Information indicating that ED 90 hex address to 79 BD F hex address) is already recorded.
- the host transmitted a command to record a position in a radius of 31 mm to 32 mm of the data recording area 22 of the second recording layer 14.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and the radius 30.5 to 31.5 mm of the first recording layer 12 is already recorded.
- the recording layer management information / reproducing circuit 109 recognized that this was the case, and transmitted data to that effect to the controller 110.
- the focal point of the laser beam of the optical head 52 is moved to a position of a radius 31.5 mm of the first recording layer 12 by a command of the controller 110, and then the radius 31.5 ⁇ ! Pseudo data was recorded for ⁇ 32.0 mm.
- the data transmitted from the pseudo data generating circuit 105 to the recording data processing circuit 104 was used for recording the pseudo data.
- the laser beam of the optical head 52 is The focus was moved to the second recording layer 14.
- the controller 110 transmitted to the recording power setting circuit 106 a command to decrease the output (recording power) of the laser beam from the initial value of 12 mW to 1 OraW.
- good recording was performed from the desired area of 31.0 mm to 32.0 mm.
- the good recording is performed on the second recording layer 14 by recording the doubt data in the unrecorded portion. It could be confirmed.
- Example 2 Using the medium 44 of Example 1 and the device 50 according to the embodiment, a recording / reproducing operation was performed in a case where an area having a defect exists in the first recording layer 12.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-mentioned procedure, and the radius 30 to 32 mm of the first recording layer 12 is already recorded.
- the recording layer management information and the reproducing circuit 109 recognize that the radius 31.6 mm to 31.7 mm of the first recording layer 12 is a defect area, and the controller 1 Data indicating this is transmitted to 10.
- the controller 110 sets the radius of the first recording layer 12 to 31.6 mn! Since 3 to 1.7 mm is a defect area, recording on the second recording layer 14 near this area was stopped, and the recording position was moved to a position with a radius of 34.5 mm as an alternative area. Then, the control area 21 of the second recording layer 14 is reproduced, and the recording layer management information indicates that the radius 34.2 mni to 35.1 mm of the first recording layer 12 is unrecorded. ⁇
- the reproduction circuit 109 recognized and transmitted data indicating that to the controller 110. Subsequently, the controller 110 transmitted to the recording power setting circuit 106 a command to set the output (recording power) of the laser beam to the initial value of 12 mW. Through such a series of operations, good recording was performed in the alternative area of radius 34.5 mni to 34.8 mm.
- FIG. 9 is a cross-sectional view showing the configuration of the optical information recording / reproducing medium of this embodiment.
- the optical information recording / reproducing medium of the present embodiment is a write-once medium 45, and differs from the medium 44 of the first embodiment in the configuration of the first recording film 12 and the second recording film 14. Except for, it has the same configuration as the medium 44.
- the first recording layer 1 sequentially on a substrate 1 1 by sputtering, Z n S - S i 0 lower protective layer 1 made of 2 2 A, T e recordable recording film made of a S n based alloy 1 2 2, and Z n S - to form S i 0 upper protective layer made of 2 1 2 C.
- the second recording layer 14 is formed on the second substrate 18 by sputtering.
- a reflective film 14 A composed of A 1 —T i
- an upper protective film 14 C composed of ZnS—Si 2
- a write-once recording film 14 2 composed of a Te Sn alloy
- the optical characteristics of the medium of this example were measured.
- the first recording layer 12 alone has a reflectance of 6% and a transmittance of 70% when no recording is performed.
- the average reflectance was 8% and the average transmittance was 60%.
- the second recording layer 14 was used alone, the reflectance when not recorded was 16%, and the average reflectance when recorded was 21%.
- the medium according to the present embodiment has a reflectance from the second recording layer 14 when the second recording layer 14 is not recorded and the first recording layer 12 is not recorded.
- the reflectance from the second recording layer 14 was about 5.85%.
- the reflectance from the second recording layer 14 is 10.3%, but the first recording layer When the layer 12 was already recorded, the reflectance from the second recording layer 14 was about 7.6%.
- the laser wavelength of the optical head is 65 nm, and the NA of the condenser lens is 0.65.
- the apparatus 50 according to the embodiment described with reference to FIG. 7 was used.
- the radius of the first recording layer 12 is 30 mn! Data was recorded in a data recording area 22 of ⁇ 32 mm.
- the control area 21 of the second recording layer 12 has an address (696 880) assigned to a radius of 30 mm to 32 mm of the first recording layer 12. (hex address to 7E 2 DF he X address) was recorded.
- the host computer the radius 3 of the data recording area 22 of the second recording layer 14 0.5mm to 31.2 A command to record at 1.2mm was sent.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and confirms that the radius 30 to 32 mm of the first recording layer 12 has been recorded.
- the circuit 109 recognized and transmitted data to that effect to the controller 110.
- the focal point of the laser beam of the light head 52 was moved to a position having a radius of 30.5 mm on the second recording layer 14 according to a command from the controller 110.
- the controller 110 transmitted to the recording power setting circuit 106 a command to increase the laser beam output (recording power) from the initial value of 6 mW to 7 mW.
- the radius of the desired area is 30.5mn! Good recording was performed for ⁇ 31.2 mm.
- the second recording layer Using the medium of Example 7 and the device 50 according to the embodiment, the second recording layer
- Data was recorded in 2.
- data was recorded in the data recording area 22 of the first recording layer 12 having a radius of 30.5 mm to 31.5 mm.
- the control area 21 of the second recording layer 14 has the address (6) assigned to the radius 30.5 mm to 31.5 mm of the first recording layer 12.
- Apparatus 50 follows the procedure described above. First, the control area 21 of the second recording layer 14 is reproduced, and the recording layer management information indicates that the radius 30.5 to 31.5 mm of the first recording layer 12 has been recorded. ⁇ The reproduction circuit 109 recognized and sent data indicating that to the controller 110. Next, the focal point of the laser beam of the optical head 52 was moved to a position having a radius of 30.5 mm on the second recording layer 14 according to a command from the controller 110. Subsequently, the controller 110 sent a command to the reproduction power setting circuit 107 to increase the laser beam output (reproduction power) from the initial value of 0.6111 to 0.7 mW.
- Example 7 Using the medium of Example 7 and the apparatus 50 according to the embodiment, recording on the second recording layer 14 was attempted.
- data was recorded in the data recording area 22 of the first recording layer 12 having a radius of 30 mm to 32 mn.
- the radius 3 Omn! Of the first recording layer 12 is provided in the control area 21 of the second recording layer 12 according to the above-described procedure.
- Information indicating that an address (address 696 680 hex to address 7E2DFhex) assigned to m32 mm is already recorded.
- the host computer transmitted a command to perform recording in a radius 31.8 mm to 32.2 mm of the data recording area 22 of the second recording layer 14.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and confirms that the radius 30 mm to 32 mm of the first recording layer 12 has been recorded. Recording layer management information.
- the reproduction circuit 109 recognized and transmitted data indicating that to the controller 110.
- controller 1 1 0 Since the radius 31.8 mm to 32.0 mm of the first recording layer 12 has already been recorded, that is, when recording is performed in the above-mentioned radius area of the second recording layer 14, the area 2 7 of the recording target portion 26 Therefore, recording on the second recording layer 14 near this area was stopped, and the recording position was moved to a position having a radius of 34.8 mm, which is an alternative area.
- control area 21 of the second recording layer 14 is reproduced.
- the radius 34.5 to 35.5 mm of the first recording layer 12 is unrecorded.
- 109 recognized it and sent data to that effect to controller 110.
- the controller 110 output command data for setting the output (recording power) of the laser beam to the initial value of 6 mW to the recording power setting circuit.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and the radius 30.5 to 31.5 mm of the first recording layer 12 is already set.
- the recording layer management information / reproducing circuit 109 recognized that the recording was performed, and transmitted data indicating that to the controller 110.
- the focus of the laser beam of the light head 52 is moved to a position of a radius 30.0 mm of the first recording layer 12 by a command of the controller 110, and then the radius of the Pseudo data was recorded for 0 to 30.5 mm.
- the data transmitted from the pseudo data generation circuit 105 to the recording data processing circuit 104 was used for recording the pseudo data.
- the focal point of the laser beam of the light head 52 was moved to the second recording layer 14 by a command from the controller 110.
- the controller 110 transmitted to the reproduction power setting circuit 107 a command to increase the output (reproduction power) of the laser light from the initial value of 0.6111 ⁇ ⁇ to 0.7 mW.
- a good reproduced signal was obtained from a radius of 30.3 mm to 30.8 mm, which is a desired area.
- Example 7 Using the medium of Example 7 and the apparatus 50 according to the embodiment, recording on the second recording layer 14 was attempted.
- data was recorded in the data recording area 22 with a radius of 30.0 mm-31.0 mm of the second recording layer 14.
- data was recorded in the data recording area 22 of the first recording layer 12 having a radius of 30.5 mm to 31.5 mm.
- the control area 21 of the second recording layer 14 has the address (6 ED 9) assigned to the radius 30.5 mm-31.5 mm of the first recording layer 12.
- the host transmitted a command to perform recording at a position of a radius of 31.0 mm to 32.0 mm of the data recording area 22 of the second recording layer 14.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and the radius 30.5 to 31.5 mm of the first recording layer 12 is already recorded.
- the recording layer management information / reproduction circuit 109 recognized that there was, and transmitted data indicating that to the controller 110.
- the focal point of the laser beam of the optical head 52 is moved to a position of a radius 31.5 mm of the first recording layer 12 by a command of the controller 110, and then the radius 31.5 mn! Pseudo data was recorded for ⁇ 32.0 mm.
- the data transmitted from the pseudo data generating circuit 105 to the recording data processing circuit 104 was used for recording the pseudo data.
- the focal point of the laser beam of the optical head 52 was moved to the second recording layer 14 by a command from the controller 110.
- the controller 110 transmitted to the recording power setting circuit 106 a command to increase the output (recording power) of the laser beam from the initial value of 6 mW to 7 mW.
- good recording was performed in the desired area of a radius of 31.0 mm to 32.0 mm.
- the pseudo data is recorded in the unrecorded portion, so that good recording can be performed from the second recording layer 14. Was confirmed.
- the optical information recording / reproducing medium of the present embodiment has been described with reference to FIG. 9 is a specific example of an optical information recording / reproducing medium according to a second embodiment. That is, a polycarbonate resin substrate having an outer diameter of 120 mm, an inner diameter of 15 mm, and a substrate thickness of 0.6 mm was used as the substrate 11. As the substrate 11, the one in which the double groove 31 shown in FIG. 6 was formed in advance by mastering was used. The shape of the wobbled groove 31 has a depth of 35 nm and a track pitch of 0.30 / xm.
- the wobbled groove 31 is helical and formed so as to have a wobbled frequency force S 800 kHz when rotating at a linear velocity of 5.0 m / sec from the inner circumference to the outer circumference of the substrate 11. .
- the control area 2 1 is the radius 2 2 mm-24 mm of the substrate 11, and the outer radius 2 4 mn! 558 mm was defined as the data recording area 22.
- a designated address is assigned in advance to each track of the double groove 31 by the above-mentioned predetermined method.
- a reflective film 14 D composed of A 1 — Ti and an upper protective film 14 C, G composed of ZnS—Si 0 2 are sequentially formed on the substrate 11 by sputtering.
- e S b Ding e force et consisting phase change recording film 1 4 B, to form a Z n S- S I_ ⁇ 2 power et made lower protective layer 1 4 a.
- an ultraviolet curable resin having a thickness of 15 ⁇ m is spread as a spacer layer 13, and the surface of the ultraviolet curable resin is stamped on the surface of the substrate.
- the wobbled groove 31 having the same shape as the wobbled groove 31 formed on the surface was formed.
- the depth, the track pitch, the wobble frequency, the configuration of the control area 21 and the data recording area 22 of the double groove 31 on the surface of the spacer layer 13 were the same as those of the substrate 11.
- an upper protective film 12 C composed of ZnS_SiO 2 and a GeSbTe are sequentially formed on the spacer layer 13 by sputtering.
- Bottom protection consisting of phase change recording film 1 2 B and ZnS—Si0 2 Film 12A was formed.
- a polycarbonate cover film having a thickness of 90 ⁇ was bonded on the second recording layer 14 with an ultraviolet curable resin. At this time, the total thickness of the cover film and the ultraviolet curable resin was 95 m.
- the entire surface of the data recording area where the recording of the first recording layer 12 and the second recording layer 14 was performed was initialized using an initialization device. That is, the medium of the present example was formed by setting the crystal state, which is the initial state corresponding to the unrecorded state.
- the optical characteristics of the medium of this example were measured.
- the first recording layer 12 alone has a reflectance of 5% and a transmittance of 60% in a crystal state before recording.
- the reflectance was 13% and the transmittance was 45%.
- the second recording layer 14 alone had a reflectivity of 13% in an unrecorded crystalline state, and had a reflectivity of 35% in an amorphous state when recorded.
- the medium 40 has a reflectance of 4.7 when the second recording layer 14 is unrecorded and the first recording layer 12 is unrecorded.
- the reflectance from the second recording layer 14 became about 3.6%.
- the reflectance from the second recording layer 14 is 12.6%, but the first recording layer 14 has a reflectance of 12.6%.
- the reflectance from the second recording layer 14 became about 9.7%.
- the optical head for a phase change recording medium Using the optical head for a phase change recording medium, recording on the medium of this example was attempted.
- the laser wavelength of the optical head is 405 nm, and the NA of the condenser lens is 0.85.
- the device 50 according to the embodiment described with reference to FIG. 7 was used.
- data was recorded in the data recording area 22 of the first recording layer 12 having a radius of 30 mm to 31 mm.
- the control area 21 of the second recording layer 14 has an address (16 88 00 00) assigned to a radius of 30 mm to 31 mm of the first recording layer 12.
- Information indicating that hex address to 1 A3 17 F hex address) has already been recorded.
- the host computer transmitted a command to perform recording in a radius of 30.3 mm-30-7 mm of the data recording area 22 of the second recording layer 14.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and confirms that the radius 30 to 31 mm of the first recording layer 12 has been recorded.
- Management information 'Reproduction circuit 109 recognized and transmitted data to that effect to the controller.
- the recording position was moved to a position having a radius of 30.3 mm on the second recording layer 14 by a command from the controller 110.
- the controller 110 sent a command to the recording power setting circuit 106 to increase the output (recording power) of the laser beam from the initial value of 4 mW to 5 mW. Through such a series of operations, good recording was performed on a desired area of a radius of 30.3 mm to 30.7 mm.
- the output of the laser beam is increased to improve the second recording layer 14. It was confirmed that recording was performed.
- Example 12 Using the medium of Example 12 and the device 50 according to the embodiment, reproduction from the second recording layer 14 was attempted.
- the radius of the second recording layer 14 is 30 mn! Data was recorded in a data recording area 22 of ⁇ 31 mm.
- the radius of the first recording layer 12 is 30.2 mn! Data was recorded in a data recording area 22 of ⁇ 30.8 mm.
- the first recording layer 1 is stored in the control area 21 of the second recording layer according to the above-described procedure. Information indicating that the address assigned to the radius 30.2 mm to 30.8 mm of address 2 (addresses 1374800 hex to 1975 FF hex) was already recorded was recorded.
- the host transmitted a command to reproduce the position of a radius 30.5 mm of the data recording area 22 of the second recording layer 14.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and the radius 30.2 to 30.8 mm of the first recording layer 12 is already recorded.
- the recording layer management information 'reproducing circuit 109 recognized this fact, and transmitted data to that effect to the controller 110.
- the focal point of the laser light of the optical head 52 was moved to a position having a radius of 30.5 mm on the second recording layer 14 according to a command from the controller 110.
- the controller 110 sent a command to the reproduction power setting circuit 107 to increase the laser beam output (reproduction power) from the initial value of 0.4 mW to 0.5 mW. Through such a series of operations, a good reproduction signal was obtained from the desired area of a radius of 30.5 mm.
- the medium 40 according to the second embodiment when the first recording layer 12 is already recorded, by increasing the output of the laser beam, good reproduction can be performed from the second recording layer 14. It was confirmed that it was done.
- Example 12 Using the medium of Example 12 and the apparatus 50 according to the embodiment, recording on the second recording layer 14 was attempted.
- the radius of the data recording area 22 of the second recording layer 14 from the host 3 0.8mm to 31.2 A command to perform recording was sent to the mni.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and the radius 30 mm to 31 mm of the first recording layer 12 is already recorded.
- the recording layer management information and the reproduction circuit 109 recognized that there was, and transmitted data indicating that to the controller 110.
- the controller 110 records the radius 30.8 mm to 31.0 mm of the first recording layer 12 because the recording has already been performed, that is, the controller 110 records the radius in the above-mentioned radius area of the second recording layer 14.
- the area 27 of the recording target part 26 is mixed, so the recording on the second recording layer 14 near this area is stopped, and the recording position is changed to a position with a radius of 32.0 mm as an alternative area.
- the radius of the first recording layer 12 is 32.0 mix!
- the recording layer management information and the reproduction circuit 109 recognized that the data of ⁇ 32.4 mm was unrecorded, and transmitted data indicating that to the controller 110.
- the controller 110 output command data for setting the laser beam output (recording power) to the initial value of 4 mW to the recording power setting circuit. Through such a series of operations, good recording was performed in the replacement area of radius 32.0 mm to 32.4 mm.
- the recording is performed by moving to the alternative area to perform the recording. It was confirmed that good recording was performed for
- Example 12 Using the medium of Example 12 and the device 50 according to the embodiment, reproduction from the second recording layer 14 was attempted.
- the radius of the second recording layer 14 3 Omn! Data was recorded in a data recording area 22 of ⁇ 31 mm.
- the radius of the first recording layer 12 is 30.2 mm ⁇ 3.
- Data was recorded in the 0.8 mm data recording area 22.
- the radius of the first recording layer 12 is set to 30.2 mn! In the control area 21 of the second recording layer 14 according to the procedure described above.
- Information indicating that the addresses assigned to 130.8 mm (addresses 17380 hex to 1975 FF hex) were already recorded was recorded.
- the host transmitted a command to reproduce a radius of 30.0 mm to 30.4 mm of the data recording area 22 of the second recording layer 14.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and the radius 30.2 to 30.4 mm of the first recording layer 12 is already recorded.
- the recording layer management information / reproducing circuit 109 recognized that this was the case, and transmitted data to that effect to the controller 110.
- the focal point of the laser beam of the optical head 52 is moved to a position of a radius 30.0 mm of the first recording layer 12 by an instruction of the controller 110, and then the radius of the ! Pseudo data was recorded for ⁇ 30.2mni.
- the data transmitted from the pseudo data generating circuit 105 to the recording data processing circuit 104 was used for recording the pseudo data.
- the focal point of the laser beam of the optical head 52 was moved to the second recording layer 14 by a command from the controller 110.
- the controller 110 transmitted to the reproduction power setting circuit 107 a command to increase the output (reproduction power) of the laser beam from the initial value of 0.4111 to 0.5 mW.
- a good reproduced signal was obtained from a radius of 30. O mm, which is a desired area, to 30.4 mm.
- the pseudo data is recorded in the unrecorded portion, so that good reproduction can be performed from the second recording layer 14. It was confirmed that it was done.
- Example 16 Using the medium of Example 12 and the apparatus 50 according to the embodiment, recording on the second recording layer 14 was attempted.
- the radius of the second recording layer 14 is 30.0 mil! Data was recorded in a data recording area 22 of ⁇ 30.5 mm.
- the radius of the first recording layer 12 is 30.2 mn! Data was recorded in a data recording area 22 of ⁇ 30.8 mm.
- the address (1) assigned to the radius 30.2 mm to 30.8 mm of the first recording layer 12 is stored in the control area 21 of the second recording layer 14 in accordance with the above-described procedure.
- the host transmitted a command to perform recording at a position of a radius 30.5 mm to 31.0 mm of the data recording area 22 of the second recording layer 14.
- the device 50 first reproduces the control area 21 of the second recording layer 14 according to the above-described procedure, and the radius 30.5 to 30.8 mm of the first recording layer 12 is already recorded.
- the recording layer management information / reproduction circuit 109 recognized that there was, and transmitted data to that effect to the controller 110.
- the focal point of the laser beam of the optical head 52 is moved to a position of a radius 30.8 mm of the first recording layer 12 by a command of the controller 110, and then the radius 30.8 mn! Pseudo data was recorded for ⁇ 31.0 mm.
- the data transmitted from the pseudo data generation circuit 105 to the recording data processing circuit 104 was used for recording the pseudo data.
- the focal point of the laser beam of the optical head 52 was moved to the second recording layer 14 by a command from the controller 110.
- the controller 110 transmitted to the recording power setting circuit 106 a command to increase the output (recording power) of the laser beam from the initial value of 4 mW to 5 mW.
- good recording was performed in a desired area of a radius of 30.5 mm to 31.0 mm.
- the write-once medium when the area 27 of the first recording layer 12 is mixed, the pseudo data is recorded in the unrecorded portion. Good recording can be performed from the second recording layer 14. It was confirmed that it was done.
- Example 12 to 16 the medium having the configuration shown in FIG. 2, that is, a thin power layer was formed on the laser light incident surface, and a substrate having a large thickness was applied to the medium having the structure shown in FIG. A medium formed on the side opposite to the incident surface, a high NA lens, that is, a condenser lens with NA 0.85 and a wavelength of 40
- control area 21 of the second recording layer 14 is reproduced, and the recording layer management information and the defect management information on the data recording area 22 of the first recording layer 12 are reproduced. It was confirmed. However, there is no need to be concerned with the reproduction of the control area 21 of the second recording layer 14, and the reproduction of the control area 21 of the first recording layer 12 is directly performed unless the above-mentioned speed or risk is a problem. May go.
- the present invention has been described based on the preferred embodiments, the optical information recording / reproducing medium, the recording device, the recording / reproducing device, the reproducing device, the recording method, the recording / reproducing method and the reproducing method of the present invention are as described above.
- the present invention is not limited only to the configuration of the embodiments and the like, and optical information recording / reproducing media obtained by making various modifications and changes from the configurations of the above-described embodiments and the like are also included in the scope of the present invention.
- the present invention relates to optical information having a plurality of recording layers, such as a phase change type and a write-once type.
- the present invention is suitable for a recording / reproducing medium, a recording method, a recording / reproducing method, and a reproducing method of the optical information recording / reproducing medium, a recording device, a recording / reproducing device, and a reproducing device.
Abstract
Description
Claims
Priority Applications (5)
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JP2004530593A JP4379726B2 (ja) | 2002-08-21 | 2003-08-21 | 光学的情報記録方法および光学的情報記録装置 |
AU2003257644A AU2003257644A1 (en) | 2002-08-21 | 2003-08-21 | Optical information recording/reproduction medium recording method, recording/reproduction method, and reproduction method, recording device, recording/reproduction device, reproduction device, and optical information recording/reproduction medium |
US10/525,079 US7489620B2 (en) | 2002-08-21 | 2003-08-21 | Optical information recording and reproducing medium |
EP03792767A EP1538609A4 (en) | 2002-08-21 | 2003-08-21 | METHOD FOR RECORDING OPTICAL DATA RECORDING / READING MEDIUM, RECORDING / READING METHOD AND READING METHOD, RECORDING DEVICE, RECORDING / READING DEVICE, READING DEVICE, AND MEDIA DEVICE RECORDING / READING OPTICAL DATA |
US12/347,264 US20090116361A1 (en) | 2002-08-21 | 2008-12-31 | Recording Method, Recording and Reproducing Method, Reproducing Method, Recording Device, Recording and Reproducing Device, and Reproducing Device for Optical Information Recording and Reproducing Medium, and the Optical Information Recording and Reproducing Medium |
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JP2002240122 | 2002-08-21 | ||
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US12/347,264 Division US20090116361A1 (en) | 2002-08-21 | 2008-12-31 | Recording Method, Recording and Reproducing Method, Reproducing Method, Recording Device, Recording and Reproducing Device, and Reproducing Device for Optical Information Recording and Reproducing Medium, and the Optical Information Recording and Reproducing Medium |
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WO2004019326A1 true WO2004019326A1 (ja) | 2004-03-04 |
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US (2) | US7489620B2 (ja) |
EP (1) | EP1538609A4 (ja) |
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WO (1) | WO2004019326A1 (ja) |
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Also Published As
Publication number | Publication date |
---|---|
JP4379748B2 (ja) | 2009-12-09 |
EP1538609A1 (en) | 2005-06-08 |
EP1538609A4 (en) | 2008-03-05 |
JP2008192308A (ja) | 2008-08-21 |
JPWO2004019326A1 (ja) | 2005-12-15 |
AU2003257644A1 (en) | 2004-03-11 |
US20050270953A1 (en) | 2005-12-08 |
JP4379726B2 (ja) | 2009-12-09 |
US7489620B2 (en) | 2009-02-10 |
US20090116361A1 (en) | 2009-05-07 |
JP2008192307A (ja) | 2008-08-21 |
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