KR100727951B1 - Multi-layer information storage medium, method for formatting thereof, and apparatus for recording/reproducing data thereof - Google Patents

Abstract

The present invention relates to a multi-layered information storage medium, a pre-recording method and a recording / reproducing apparatus, in which a pre-recording is performed in a different manner according to a recording mode so that recording / reproducing characteristics are kept the same for each of a plurality of recording layers. The multi-layered information storage medium is characterized in that the recording area sizes of the recording layers closest to the pickup and the other recording layers of the plurality of recording layers are different from each other. According to the present invention, when recording predetermined data on a multi-layered information storage medium having a plurality of recording layers, the influence of any one recording layer on the recording characteristics of another recording layer can be reduced, and the recording mode can be different from each other. By performing pre-recording in a scheme, and only pre-recording first the recording layer used for recording, it is possible to shorten the time consumed when pre-recording for all recording layers is performed.

Description

Multi-layer information storage medium, method for formatting, and apparatus for recording / reproducing data

1A is a view showing a general structure of a rewritable optical disc according to the prior art;

1B is a view showing a general structure of a read-only optical disc according to the prior art;

2A and 2B are views for explaining an example of a data recording method on a dual recording layer disc according to the prior art;

3A and 3B are views for explaining another example of a data recording method on a dual recording layer disc according to the prior art;

4A and 4B are views for explaining still another example of a data recording method on a dual recording layer disc according to the prior art;

5A and 5B are graphs showing recording characteristics of the recording layer L2 depending on whether or not the recording layer L1 is recorded in an information storage medium having two recording layers L1 and L2.

FIG. 6 is a view for explaining an area of the recording layer L1 affected by light irradiated to the recording layer L2.

7 is a diagram schematically showing a configuration of a multi-layered information storage medium according to an embodiment of the present invention.

8 is a view showing an example of OPC parameter setting information included in a predetermined area of a multi-layered information storage medium according to the present invention.

9A to 9E illustrate a pre-recording method performed for a multi-layered information storage medium according to the present invention.

10 is a block diagram of a recording / reproducing apparatus of a multi-layered information storage medium according to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-layered information storage medium, and more particularly, to a multi-layered information storage medium in which pre-recording in a different manner is performed according to a recording mode so that recording / reproducing characteristics are kept the same for each of a plurality of recording layers. And a recording / reproducing apparatus.

In general, an information storage medium is widely used as an information recording medium of a pickup unit for recording / reproducing information in a non-contact manner. An optical disc, which is a type of information storage medium, is a compact disk (CD) or a digital multifunction disk according to an information recording capacity. (DVD; digital versatile disk). In addition, optical discs capable of recording, erasing and reproducing include 650MB CD-R, CD-RW, 4.7GB DVD ROM and the like. In addition, HD-DVD or Blu-ray discs with recording capacity of 15GB or more are being developed, and super-resolution discs that can play data beyond the resolution limit are also being developed.

For recordable DVDs on the market, only single-layer discs with a capacity of 4.7GB are available. However, in the case of a DVD-ROM, there is already a two-layer disk having a capacity of 8.5 GB, and in order to back up a disk of such a capacity, a recordable DVD of the same capacity is also required. In this case, the recording time is basically doubled, which may be a disadvantage for the user. Of course, there is also a method of improving the recording speed, but since the improvement of the disk technology must be preceded, in order to introduce it into the market immediately, a method capable of effectively recording at the existing speed is required.

Fig. 1A shows a general structure of a rewritable optical disc according to the prior art, and Fig. 1B shows a general structure of a read-only optical disc according to the prior art. The structure of the lead-out area of the rewritable optical disc shown in FIG. 1A is almost the same as that of the lead-in area.

2A and 2B are diagrams for explaining an example of a data recording method on a dual recording layer disc according to the prior art. FIG. 2A illustrates a case where the recording direction is an OTP (Opposite track pass), and FIG. 2B illustrates a case where the recording direction is a PTP (Parallel track pass).

As shown in Figs. 2A and 2B, the user data is first recorded in the recording layer L1 where the data is reproduced, and the remaining user data which is not recorded in the recording layer L1 is recorded in the recording layer L2. In the area of the recording layer L2, the area where the user data is not recorded is filled with the pattern data having the lead-out attribute. Usually, the area connecting the recording layers in this manner is referred to as a connection area by being distinguished from the lead-in area and the lead-out area. The recording methods shown in Figs. 2A and 2B can be equally applied to the case of a read only disc and a rewritable disc.

3A and 3B are views for explaining another example of a data recording method on a dual recording layer disc according to the prior art. FIG. 3A shows a case where the recording direction is an OTP (Opposite track pass) and FIG. 3B shows a case where the recording direction is a PTP (Parallel track pass). 3A and 3B show data before the lead-out area in each recording layer so that when the total data capacity to be recorded is less than the data capacity recordable in the two recording layers, the same capacity can be recorded in each of the two recording layers. The portion after recording represents the case of recording pattern data with lead-out attributes. In particular, record the pattern of the lead-out attribute to the outermost circumference of the disc.

4A and 4B are diagrams for explaining another example of a data recording method on a dual recording layer disc according to the prior art. FIG. 4A illustrates a case where the recording direction is an OTP (Opposite track pass), and FIG. 4B illustrates a case where the recording direction is a PTP (Parallel track pass). Similarly to the data recording method shown in FIGS. 3A and 3B, the data recording method shown in FIGS. 4A and 4B is the same for each of the two recording layers when the total data capacity to be recorded is less than the data capacity recordable in the two recording layers. In order to allow the capacity to be recorded, data is recorded in each recording layer before the lead-out area, and the subsequent part shows the case in which pattern data having the lead-out attribute is recorded. However, in the data recording method shown in FIGS. 3A and 3B, the pattern of the lead-out attribute is recorded to the outermost circumference of the disc, whereas the data recording method shown in FIGS. 4A and 4B records the pattern of the lead-out attribute to the outermost circumference of the disc. Record only the parts you need without recording them.

According to the data recording method according to the related art described above, additional data recording time is required to record pattern data having a lead-out attribute in an area where user data is not recorded.

On the other hand, in the case of the dual recording layer optical disc, the recording characteristics of the recording layer L2 vary depending on whether or not recording is made in the recording layer L1 close to the pickup and whether the recording mode is used. Therefore, the recording method must vary depending on the characteristics of each recording layer or the recording mode. Of course, the recording layer L1 is pre-recorded in advance so that the recording characteristics of the recording layer L2 are always the same, but recording is performed in advance including all of the user area, the power calibration area (PCA) and the lead-in area. There is a need. Such pre-recording may be performed at the time of manufacture of the disc, or at the time of formatting before the user uses the disc. However, such pre-recording may be time consuming and inconvenient for a user, especially in a multi-layered information storage medium having a plurality of recording layers.

In addition, when it is necessary to perform random access in units of sectors (2 KB) having a smaller capacity than ECC blocks, which are basic ECC (Error Correction Code) units, the entire area of the recording layer can be used beforehand.

Accordingly, the present invention has been made to solve the above problems, and in the multi-layered information storage medium including a plurality of recording layers, the size of the recording area of each recording layer is increased so that each recording layer has the same recording / reproducing characteristics. It is an object of the present invention to provide a multi-layered information storage medium formed differently, a pre-recording method thereof, and a recording / reproducing apparatus.

It is also an object of the present invention to provide a multi-layered information storage medium, a pre-recording method thereof, and a recording / reproducing apparatus for ensuring reliable recording of user data by performing pre-recording differently according to a recording mode.

In order to solve the above technical problem, according to an aspect of the present invention, in a multi-layered information storage medium including a plurality of recording layers, a recording area of a recording layer different from the recording layer closest to a pickup among the plurality of recording layers Provided is a multi-layered information storage medium characterized by different sizes.

According to another aspect of the present invention, in a recordable multi-layered information storage medium including a plurality of recording layers, the recording layer is pre-recorded in a different manner depending on the recording mode.

According to still another aspect of the present invention, in a multi-layered information storage medium including a plurality of recording layers, there is provided a multi-layered information storage medium, wherein pre-recording is performed first from the recording layer closest to the pickup.

A method of pre-recording a multi-layered information storage medium having a plurality of recording layers according to the present invention includes the steps of sequentially pre-recording the recording layer, wherein the recording area of the recording layer close to the pickup is different from that of another recording layer. The size is different from the recording area.

Further, the method for pre-recording a multi-layered information storage medium having a plurality of recording layers according to the present invention is characterized in that it comprises the steps of pre-recording the recording layer in a different manner depending on the recording mode.

Further, the method for pre-recording a multi-layered information storage medium having a plurality of recording layers according to the present invention is characterized in that it comprises the step of performing pre-recording first from the recording layer closest to the pickup.

A recording and / or reproducing apparatus for a multi-layered information storage medium according to the present invention includes a recording / reading unit for recording data or reading recorded data in a multi-layered information storage medium having a plurality of recording layers; And a control unit which pre-records the recording layer closest to the pickup among the plurality of recording layers, and controls the recording / reading unit to pre-record the remaining recording layers during use.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As used herein, the term dictionary recording refers to formatting an information storage medium that is generally used, and the dictionary recording is performed in advance on the information storage medium in order to enable overwriting and arbitrary read / write. do.

The recordable multi-layered information storage medium includes at least two or more recording layers, each recording layer having a lead-in area, a user data area, and a lead-out area.

The recording / reproducing apparatus of the information storage medium performs an Optimal Power Control (OPC) process for determining a recording power suitable for the information storage medium when data is recorded on the recordable information storage medium. To this end, the recordable information storage medium includes a PCA (Power Calibration Area), which is an area for determining recording power, in a lead-in area of the information storage medium.

When user data is recorded or OPC is performed on a recordable information storage medium having a plurality of recording layers, recording / reproducing characteristics according to data recording in each recording layer may vary. For example, if recording / reproducing characteristics are changed according to the recording order or recording mode of each recording layer, it is difficult to reliably record / reproduce user data. Therefore, a multi-layered information storage medium capable of finding conditions under which recording / reproducing characteristics can vary depending on the state of the recording layer, and ensuring reliable recording / reproducing of user data regardless of the recording order or recording mode in consideration of these conditions It is necessary to provide.

First, the influence on the recording / reproducing characteristics of data depending on which recording layer has been recorded in a multi-layered information storage medium will be described.

5A and 5B are graphs showing the recording characteristics of the recording layer L2 depending on whether or not the recording layer L1 is recorded in an information storage medium having two recording layers L1 and L2. Here, the recording layer L1 refers to the recording layer located closer to the pickup than the recording layer L2. In addition, jitter and asymmetry in the recording characteristics of the recording layer L2 is changed while changing the recording power in the case where predetermined data is recorded in the recording layer L1 (L1 rec) and in the unrecorded case (L1 unrec). (asymmetry) was measured.

5A and 5B, it can be seen that the recording characteristics of the recording layer L2 vary depending on whether or not recording is made in the recording layer L1 close to the pickup. That is, the jitter characteristic and the asymmetry characteristic of the recording layer L2 are changed when predetermined data is recorded in the recording layer L1 close to the pickup and when it is not. Therefore, in the multi-layered information storage medium having at least two or more recording layers, it is necessary to perform pre-recording in the recording layer L1 close to the pickup in order to maintain the same recording / reproducing characteristics of each recording layer.

FIG. 6 is a diagram for explaining an area of the recording layer L1 affected by light irradiated to the recording layer L2. When the light 20 is focused at a specific position of the recording layer L2 through the objective lens 10 of the data recording and / or reproducing apparatus, an area of the recording layer L1 corresponding to the radius y as shown in FIG. Will be affected.

In other words, when the light 20 is focused to record predetermined data at a specific position of the recording layer L2 or to reproduce the recorded data, the area of the recording layer L1 through which the light 20 passes is recorded in the recording layer L2. / Playback characteristics are affected. That is, the recording / reproducing characteristic of the recording layer L2 may vary depending on whether predetermined data has been recorded in the area of the recording layer L1 through which the light 20 passes. This characteristic change is caused by a difference in transmittance or reflectance that occurs when data is recorded in the area where light passes and when it is not recorded. Therefore, it is preferable that data is recorded in advance in the area of the recording layer L1 included in the portion where the light 20 passes.

On the other hand, the recording mode for recording predetermined data on the information storage medium is the Disc At Once recording mode (hereinafter referred to as "DAO recording mode"), which is used to record all of the recording area of the information storage medium at once, like a tape. Incremental Recording mode, which is used to partially record data, as a method of recording certain data from then on, and Restricted Overwrite Mode, which is used to make all areas of the information storage medium accessible at any time. overwrite mode). The limited overwrite mode is used when writing data to a formatted information storage medium.

In the multi-layered information storage medium according to the present invention, the size of a predetermined recording area of a different recording layer and a recording layer close to the pickup among the recording areas of the multi-layered information storage medium is formed so that the recording / reproducing characteristic of each recording layer does not change. In particular, the multi-layered information storage medium according to the present invention performs pre-recording only in a predetermined recording area of the recording layer close to the pickup in advance in order to prevent the recording / reproducing characteristic of each recording layer from changing in the specific recording mode. Shorten the time required.

7 is a diagram schematically illustrating a configuration of a multi-layered information storage medium according to an embodiment of the present invention.

The multi-layered information storage medium shown in FIG. 7 includes a first recording layer L1 and a second recording layer L2. In addition, the first and second recording layers L1 and L2 include lead-in areas 101 and 131, user data areas 105 and 135, and connection areas 107 and 137. The lead-in areas 101 and 131 are provided with PCAs 103 and 133 which are areas for determining recording power.

The PCA is an area provided to find the optimal recording condition, that is, the optimal recording power level. The recording / reproducing apparatus needs to measure the characteristics while changing the recording / reproducing conditions in order to determine the optimal recording / reproducing condition. It takes a lot of time. In other words, the optimum recording condition depends a lot on the characteristics of the recording medium and the recording / reproducing apparatus. Similarly, optimal servo conditions such as focus position, tracking position, gain, etc., which determine various servo operations during recording / reproduction, and optimum reproduction signal processing conditions such as equalization characteristics and binarization slice levels are also determined by the characteristics of the medium and the recording / reproducing apparatus. It depends a lot.

Therefore, each time the recording / reproducing apparatus is activated for recording on the information storage medium mounted therein, test recording is performed while changing recording / reproducing conditions such as reproducing processing signal conditions such as pulse conditions and servo conditions. At this time, the quality of the reproduced signal is compared with a predetermined criterion to determine an optimal recording / reproducing condition, and information based on the optimal recording / reproducing condition is recorded in the PCA areas 103 and 133 to record the second and subsequent information storage media. It is possible to determine the optimal recording / reproduction conditions at the time of playback.

In the two recording modes of the recording mode, the DAO recording mode and the incremental recording mode, since the recording is performed from the innermost circumference X1 at the time of data recording, there is no need to pre-record in the user data area. In other words, in the DAO recording mode and the incremental recording mode, at the time of data recording, the next recording in the direction of the OTP or PTP recording from the innermost (X1) to the outermost (X2) direction of the user data area 105 of the recording layer L1. Since data is recorded in the user data area 135 in the order of the layer L2, when data is recorded in the user data area 135 of the recording layer L2, predetermined data is already recorded in the recording layer L1. Therefore, at the time when data is recorded in the user data area 135 of the recording layer L2, predetermined data is recorded in the recording layer L1, thereby affecting the recording / reproducing characteristics of the recording layer L2 due to the difference in transmittance due to the unrecorded portion. Will not affect.

However, in the present invention, as described with reference to FIG. 6, when the light is focused on the recording layer L2, the user data of the second recording layer L2 is considered in consideration of the difference between the available recording areas of the recording layer L1 and the recording layer L2. The recording area 135b of the area is set smaller than the recording area of the user data area 105 of the first recording layer L1. That is, in the user data area 135 of the second recording layer L2, both areas corresponding to the innermost periphery X1 and the outermost periphery X2 become unused areas in which data is not recorded.

Further, the PCA areas 103 and 133 used to determine the optimal recording power in the DAO mode and the incremental recording mode have a second recording layer depending on whether or not the PCA area 103 of the first recording layer L1 is recorded. It may affect the recording / reproducing characteristic of (L2). Therefore, in the above two recording modes, at least the PCA area 103 of the first recording layer L1 should be pre-recorded. That is, when the predetermined light is focused on the PCA area 133 of the second recording layer L2 in order to record the predetermined data in the second recording layer L2, the PCA area of the first recording layer L1 ( It may be influenced depending on whether or not data is recorded in 103, so at least the PCA area 103 of the first recording layer L1 performs pre-recording. In this case, as described with reference to FIG. 6, since a difference between usable PCA areas of the first recording layer L1 and the second recording layer L2 occurs, recording of the PCA area of the second recording layer L2 is performed. The area 133b is formed smaller than the recording area 103 of the PCA area of the first recording layer L1.

Further, in consideration of all influences such as the eccentric effect of each recording layer and errors that may occur during mastering, the size of the recording area of the PCA area and the user data area is appropriately configured.

8 is a diagram illustrating an example of OPC parameter setting information included in a predetermined area of a multi-layered information storage medium according to the present invention.

As shown in FIG. 8, when determining the optimal recording power using the PCA, when the optimal recording power is used, the first recording is performed on the physical format information by using the embossed physical format information included in a predetermined area of the information storage medium. If the parameter information in the case of pre-recording in the layer L1 is stored, the optimum recording power can be determined without preliminary recording in the first recording layer L1.

In the case of the limited overwrite recording mode among the recording modes, it is necessary to perform random access and recording / reproducing on a sector basis with respect to the recordable multi-layered information storage medium, particularly the rewritable multi-layered information storage medium. However, unlike DVD-RAM, when addresses are recorded in ECC blocks rather than sectors, such as DVD ± RW, before recording user data, arbitrary data is recorded in the entire recording area of the recording layer in advance, and the ROM The sector address is recorded as follows. Then, the recording / reproducing apparatus of the information storage medium can be accessed in units of sectors.

Also in the multi-layered information storage medium according to the present invention, it is necessary to pre-record all the recording areas of the recording layer in order to enable sector-by-sector access. However, in the past, a long time was required for pre-recording by recording each recording layer of the multi-layered information storage medium in advance. Of course, the product can be released after performing pre-recording in advance in the manufacture of the multi-layered information storage medium, but this causes a cost increase.

Therefore, in the case of performing pre-formatting, the multi-layered information storage medium according to the present invention does not pre-record the entirety of the plurality of recording layers, but pre-records only the first recording layer first. For the recording layer, prerecording is first performed while using the prerecorded recording layer. Through such pre-recording, it is possible to guarantee the use of at least one recording layer of the at least a plurality of recording layers only by the time required for the pre-recording in the information storage medium of a single layer. Here, the dust pre-recorded recording layer needs to record the entire recording area, that is, the entire area located from the PCA to the outermost circumference.

9A to 9E are diagrams showing a pre-recording method performed for a multi-layered information storage medium according to the present invention. 9A to 9E illustrate the case where the recording direction is OTP as an example, but the same applies to the case where the recording direction is PTP.

Specifically, Fig. 9A shows a multi-layered information storage medium before prior recording is performed. In this state, referring to FIG. 9B, first recording is first performed on the first recording layer L1 close to the pickup. At this time, the PCA area used to determine the optimum recording power is also pre-recorded. Performing pre-recording on the first recording layer L1 near the pickup first may be performed when the recording mode is a random recording mode, a random access mode, an overwrite mode, or the like. 9B to 9E, the area indicated by the dotted pattern in the user data area 203 indicates the area where pre-recording has been performed. In addition, sector-based access can be made possible by recording addresses in units of sectors in the recording layer on which pre-recording has been completed.

Next, referring to FIG. 9C, arbitrary data d can be recorded in the user data area 203 of the first recording layer L1 pre-recorded as shown in FIG. 9B.

Next, referring to FIG. 9D, the pre-recorded first recording layer L1 is used to record arbitrary data d, while the pre-recording of the remaining second recording layer L2 is performed.

Referring to FIG. 9E, when the pre-recording is completed in the remaining second recording layer L2 through the above process, the first or second recording layer L1 accesses predetermined data by sector in the limited overwrite recording mode. , L2 can be recorded in the user data areas 203 and 233.

As described above, by pre-recording the recording layer closest to the pickup first, and then sequentially recording the remaining recording layers as the user uses them, there is no need to wait until all recording layers are pre-recorded. By using the time for which the information storage medium is not used, the pre-recording for the remaining recording layers can be performed, thereby saving extra time required for the pre-recording.

Further, according to the multi-layered information storage medium according to the present invention, since all the areas of the recording layer have been previously recorded, it is possible to prevent the problem of the change in the recording characteristics caused by the change of the transmittance depending on whether the recording layer is recorded. .

In the above embodiment, the information storage medium having two layers having the first and second recording layers L1 and L2 has been described as an example, but the present invention can be equally applied to an information storage medium having three or more recording layers. In the description of the present invention, a rewritable information storage medium will be described. However, the idea according to the present invention can be applied to a read-only information storage medium.

10 is a block diagram of a recording / reproducing apparatus of a multi-layered information storage medium according to the present invention.

Referring to FIG. 10, the recording / reproducing apparatus 300 according to the present invention includes a recording / reading unit 301, a control unit 302, and a memory 303. The information storage medium 100 is a multi-layered information storage medium according to an embodiment of the present invention as described above.

The recording / reading unit 301 records data in the information storage medium 100 or reads the recorded data under the control of the control unit 302. The memory 303 temporarily stores user data to be recorded in the information storage medium 100 under the control of the controller 302. In addition, the memory 303 stores various control data or data read from the information storage medium 100 generated during data recording or reproduction in the information storage medium 100.

In particular, the control unit 302 according to the present invention controls the recording / reading unit 301 to pre-record the recording layer closest to the pickup among the plurality of recording layers, and to pre-record the remaining recording layers during use. That is, the controller 302 first records the recording layer used for recording first, and then controls the recording / reading unit 301 to sequentially perform pre-recording for the remaining recording layers while the user is using it. do. Therefore, according to the recording / reproducing apparatus 300 according to the present invention, the user does not have to wait until all the recording layers of the multi-layered information storage medium have been pre-recorded, and also uses the time not used by the user to record the rest of the recording. By taking a preliminary record of the floor, no time is required.

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disks, optical data storage devices, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet). It includes being. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

According to the present invention as described above, it is possible to reduce the influence of one recording layer on the recording characteristics of another recording layer when recording predetermined data on a multi-layered information storage medium having a plurality of recording layers.

Further, according to the present invention, different types of pre-recording are performed according to the recording mode, and only the first recording layer used for recording is pre-recorded first, thereby reducing the time consumed when the pre-recording for all the recording layers is performed. Can be.

In addition, the present invention provides a multi-layered information storage medium and a pre-recording method thereof for enabling reliable recording / reproducing of data when recording / reproducing predetermined data on a dual layer DVD-RW, which is currently discussed in the art. A recording / reproducing apparatus can be provided.

Claims (28)

delete delete delete delete A recordable multilayer information storage medium including a plurality of recording layers, And the recording layer is pre-recorded in a different manner depending on the recording mode. The method of claim 5, And when the recording mode is a Disc At Once (DAO) recording mode or an incremental recording mode, at least a power calibration area (PCA) area of the multilayer information storage medium is pre-recorded. The method of claim 6, And the size of the recording area of the PCA area of the recording layer closest to the pickup is larger than the size of the recording area of the PCA area of the other recording layer. The method of claim 5, And when the recording mode is the limited overwrite mode, only the recording layer nearest to the pickup is pre-recorded first, and the remaining recording layers are pre-recorded at an unused time. delete delete delete delete delete delete delete delete delete A method of pre-recording a multi-layered information storage medium having a plurality of recording layers, And pre-recording the recording layer in a different manner depending on the recording mode. The method of claim 18, And when the recording mode is a Disc At Once (DAO) recording mode or an incremental recording mode, at least a PCA (Power Calibration Area) area of the multi-layered information storage medium is pre-recorded. The method of claim 19, And the size of the recording area of the PCA area of the recording layer closest to the pickup is larger than the size of the recording area of the PCA area of the other recording layer. The method of claim 18, And when the recording mode is the limited overwrite mode, only the recording layer closest to the pickup is pre-recorded first, and the remaining recording layers are pre-recorded at an unused time. delete delete delete delete delete delete delete

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