KR20050086343A - Method and apparatus for recording management information on optical write once disc - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a write once optical disc, and more particularly, to a recording method and a recording / reproducing apparatus of management information in a write once optical disc such as a BD-WO. According to the present invention, in a write-once optical disc having a plurality of TDMA areas, information indicating the area currently in use among the plurality of TDMA areas is recorded in a specific area of the disc, and the disc is closed. By recording the disk closing information in the area, there is an effect of effectively using an optical disc that can be written once.

Description

Method of recording and reproducing management information of optical disc and optical disc which can be recorded once and method and apparatus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a write once optical disc, and more particularly, to a recording method and a recording / reproducing apparatus of management information in a write once optical disc such as a BD-WO.

As optical recording media, optical disks capable of recording large amounts of data are widely used. Among them, recently, a new high-density optical recording medium (HD-DVD) capable of recording and storing high-quality video data and high-quality audio data for a long time, for example, Blu-ray Disc (hereinafter referred to as "BD"). ) Is being developed.

Blu-ray Disc (BD), the next-generation HD-DVD technology, is a next-generation optical recording solution that can store data that significantly surpasses existing DVDs. Recently, world-standard technical specifications have been established.

In connection with this, various standard proposals relating to Blu-ray Discs (BDs) have been prepared, and various standard proposals for write-once Blu-ray Discs (BD-WOs) have been prepared following the rewritable Blu-ray Discs (BD-RE). .

FIG. 1 shows a recording area structure of a general rewritable Blu-ray Disc (BD-RE). In particular, FIG. 1 shows a recording area structure of a disc having one recording layer.

As shown in FIG. 1, a rewritable Blueray Disc is divided into a lead-in area, a data area, and a lead-out area from the inner circumference of the disc. It is. In the data area, an inner spare area (ISA) and an outer spare area (OSA) for replacing a defective area are provided inside and outside of the data area, respectively, among which user data is located. A user data area for recording the data is provided.

If a defective area (defective area may be caused by various factors such as damage or contamination of the disk surface) exists in the data area while recording data on a rewritable Blu-ray disc (BD-RE) having such a structure, The data recorded in the defective area is moved to the spare area for replacement recording.

At this time, the defect management area (DMA 1, 2, 3, 4) provided in the lead-in / out area includes information such as a location related to a defective area and a replacement recorded area, etc. as the management information on the defective area. ) To perform defect management.

In this regard, the minimum recording unit to be recorded on the optical disc is a minimum unit in the case of a Blu-ray Disc (BD), one cluster is composed of a total of 32 sectors, one sector is 2048 bytes (bytes) It consists of

The rewritable disc can be rewritten in any area of the disc, so that the entire area of the disc can be randomly used regardless of a special recording method, and management information can be stored in the defect management area (DMA). The defect area can be sufficiently managed by using a method of continuously updating and recording the management information even if only a small size of the defect management area is provided as rewritable. In the case of BD-RE, one defect management area is provided. 32 clusters per cluster have been allocated and used.

However, in a disc which can be written once, since recording to a specific area of the disc is only possible once physically, there are many limitations on the recording method, and in a high-density once-writable disc such as the recent BD-WO Defect management was also an important issue when recording data.

Therefore, even in a disc that can be written once, a management area for recording defect management and disc usage status information is required. In particular, an optical disc that can be written once has the defect management and disc usage states due to the characteristic of 'one time recording'. The method of recording and managing information will be more difficult than the rewritable disc. However, since a unified standard that can accommodate the above requirements is not fully equipped, it is urgently required to prepare an efficient way to do this. It is true.

Accordingly, the present invention has been made in view of the above circumstances, and an object of the present invention is to provide a method of recording management information and a recording / reproducing method on an optical disc that can be recorded once.

First, there is provided a method of separately recording and managing management information that includes a plurality of temporary disk management areas (TDMA) in an optical disc that can be written once, and increases the use efficiency of the plurality of temporary disk management areas (TDMA).

Second, to provide a method and apparatus for efficiently recording and reproducing an optical disc using the above recording management method.

In order to achieve the above object, a method of recording management information of a write once optical disc according to the present invention is a write once optical disc having a plurality of TDMA areas, which is currently in use among the plurality of TDMA areas. The information indicating the area is recorded in a specific area of the disk, and when the disk is closed, the disk closing information is recorded in the area.

The optical disc which can be written once according to the present invention includes a plurality of TDMA areas as a temporary disc management area in the optical disc, and information and disc closing information indicating a TDMA area currently being used in a first TDMA area of the plurality of TDMA areas. It is characterized in that the recorded TAI area is provided.

According to the present invention, there is provided a recording / reproducing method of an optical disc of write once type, comprising: reading TAI information from a TDMA0 area of a loaded disc, checking whether the disc is closed from the TAI information, and not closing the disc. In this case, the method may include moving to a TDMA area currently in use through the TAI information, reading the latest TDMS information, and performing recording or reproducing of a disc using the latest TDMS information. .

An apparatus for recording and reproducing an optical disc of write once type according to the present invention comprises a pickup section for recording information on the loaded optical disc, and a microcomputer for controlling to record TAI information in the TDMA 0 area of the optical disc via the pickup section. It is characterized by.

DESCRIPTION OF EMBODIMENTS Hereinafter, a preferred embodiment of a management information recording method, a recording reproducing method and an apparatus for a write once optical disc according to the present invention will be described in detail with reference to the accompanying drawings. In addition, the term used in the present invention was selected a general term that is widely used at present, but according to the emergence of a new technology, the term that the applicant deemed most appropriate in the present invention was arbitrarily used, and the meaning of the term in the corresponding description. It will be explained clearly. Therefore, in the understanding of the present invention, it is intended that the present invention should be understood as the meaning of terms rather than simple names of terms.

2A to 2B show a method of recording the structure and management information of a write once optical disc according to the present invention, FIG. 2A shows a single-layer disc having one recording layer, and FIG. 2B shows two recording layers. A diagram showing a dual layer disk having a.

First, as shown in FIG. 2A, a single layer disk having one recording layer is largely a lead-in zone, a data zone, and a lead-out area from the inner circumference of the disk. In the data area, an inner spare area (ISA) and an outer spare area (OSA) for replacing a defective area, as in the case of the rewritable optical disc of FIG. 1, are respectively included in the data area. It exists in the inner and outer peripheries, and among them, a user data area for recording user data is provided.

In the case of a write once optical disc having such a structure, unlike a rewritable optical disc, due to the characteristics of the write once optical disc, a large number of areas for recording various management information of the disc must be secured. A disk management area (hereinafter referred to as "TDMA") is provided.

In particular, the TDMA can be classified into two types: a TDMA 0 region having a fixed size (2048 physical cluster) in the lead-in region and a variable size in the data region. A spare area (OSA) having is divided into TDMA 1 provided in conjunction with the size of the spare area.

The TDMA 0 is an area that must be provided in the disk, whereas the TDMA 1 is defined as a structure that can be selectively allocated, and the size of the spare area can be variously determined, and a quarter size of the spare area is appropriate. . Therefore, the size of TDMA 1 is preferably P = N * 256/4 cluster.

Also, the plurality of TDMAs are used in a specific order of use. That is, TDMA 0 to TDMA 1 are used in order, and the identification numbers (TDMA0 and TDMA1) attached to the TDMA are assigned in a serial order in consideration of the order of use.

According to the present invention, an area for recording management information for managing the plurality of TDMAs is recorded at the head of the TDMA 0 area. The TDMA management information provides information on where the TDMA is currently being used when the optical disc is inserted into the recording / reproducing apparatus, thereby easily initializing the last defect management and disc status information recorded in the TDMA currently being used. It becomes playable and serves to reduce the initial access time as a whole.

In this regard, information for facilitating easy access to the TDMA currently being used is referred to as "TAI (TDMA Access Indicator) information". In a single layer disk, the TAI information is the head of the fixed 2048 cluster in the TDMA 0 region. Since two clusters are represented, an area corresponding to the first two clusters of the TDMA 0 area will be referred to as a "TAI area". (More details on this will be described later.)

2B is a diagram showing the structure of a dual layer disc having two recording layers. As shown in FIG. 2B, a dual layer disc is a first recording layer. 0) and a second recording layer (Layer 1), each of which has a lead-in / out area (also referred to as an 'inner area') as a management area in the inner and outer areas. Zone and outer zones (Outer Zones 0 and 1) are provided. In addition, spare areas ISA0, ISA1, OSA0, and OSA1 and a user data area are provided in the data zone of each recording layer.

In the case of the write-once dual layer optical disc having such a structure, as in the aforementioned single layer optical disc, a large number of areas for recording various types of management information of the disc must be secured, a plurality of TDMA areas (TDAM0) in addition to the defect management area (DMA) are required. , TDMA1, TDMA2, TDMA3, and TDMA4).

At this time, TDMA 0 and TDMA1 present in the lead-in and lead-out areas (inner areas) have a fixed size (2048 cluster) and are in spare areas OSA0, OSA1, and ISA1 having variable sizes in the data area. TDMA 2, TDMA 3, and TDMA 4 are provided in conjunction with the size of the spare area, but the size is 1/4 of the spare area. Therefore, the size of TDMA2 and TDMA3 is suitably P = N * 256/4 cluster, and the size of TDMA4 is suitably Q = L * 256/4 cluster.

Also, the plurality of TDMAs may be used in a specific order of use, for example, TDMA0 to TDMA4. In other words, the identification numbers (TDMA0 to TDMA4) attached to the TDMAs are assigned in sequence in consideration of the order of use.

According to the present invention, even in the case of a dual-layer disc, an area for recording management information for managing the plurality of TDMAs is recorded at the head of the TDMA 0 area. In particular, when there are a plurality of TDMA areas used, as in the case of the dual layer disk, it is an important problem to provide information on where the TDMA is currently being used. That is, by providing information on where the TDMA is currently being used, it is possible to easily reproduce the last defect management and disc usage status information recorded in the TDMA currently being used, thereby reducing the initial access time of the disc. will be.

Therefore, in the case of the dual layer disk, like the case of the single layer disk, the information for easily accessing the TDMA currently being used is referred to as "TAI (TDMA Access Indicator) information", and the TAI in the dual layer disk Since the information is represented using the first five clusters of the fixed 2048 clusters of the TDMA 0 region, an area corresponding to the first five clusters of the TDMA 0 region will be referred to as a "TAI region". Details will be described later.)

As such, when a TDMS is updated as needed in a specific order of use, for example, the first TDMA 0, and all TDMA 0s are used (recorded), the TDMS is updated in TDMA 1 afterwards. As described above, TAI information indicating which of the TDMAs are currently used among the TDMA areas used in the ascending order of TDMA0 to TDMA4 as described above is described in detail with reference to the accompanying drawings. Same as

3A to 3B illustrate a method of recording management information (TAI) according to the present invention. FIG. 3A shows a case of a single layer having one recording layer, and FIG. 3B shows two recording layers. A diagram illustrating a case of a dual layer.

First, as shown in FIG. 3A, in the case of a single layer disk having one recording layer, TAI information is represented by using two clusters at the head of the TDMA 0 region.

At this time, one of the two clusters is used as a DMA Disc Closing Indicator that indicates whether or not the final recording of the optical disc that can be written once is final. It is used as a TDMA 1 indicator to indicate that it is being used.

In more detail, in the case of a single layer disk, two TDMAs exist in the disk (TDMA0 and TDMA1), and one cluster is required for managing the TAI information. In other words, the cluster in the TAI is defined in a one-to-one correspondence with a specific TDMA, and when the cluster is recorded, the corresponding TDMA is defined as being currently in use.

Thus, if the TDMA 1 indicator cluster of FIG. 3A is not recorded, the first TDMA 0 will be the TDMA currently in use, but if the TAI 1 cluster is written, the second TDMA 1 will be the TDMA currently in use. .

That is, when the optical recording and reproducing apparatus uses TDMA 0 first and is used, the next TDMA 1 is used, and the TAI 1 cluster is recorded to indicate that the TDMA currently being used is TDMA 1.

In relation to recording in the TAI, it is sufficient to confirm that the cluster is in a recording state, but the actual data (TDDS) that is meaningful is recorded, rather than simply recording dummy data. You can also record.

That is, according to the present invention, when recording to the TDMA 1 indicator cluster, the latest TDDS owned by the recording / reproducing apparatus instead of dummy data is recorded. In this case, as another embodiment of the present invention, the first TDDS of the corresponding TDMA region may be recorded instead of the most recent TDDS.

The TDDS is always written to the last sector in the TDMS structure with a size of one sector. Therefore, the TDDS is recorded in the last sector and the remaining 31 sectors may be filled with dummy data, but the 31 sectors are also repeatedly recorded 31 times by the TDDS so that the TDDS can be read more robustly. In conclusion, the TDDS is recorded 32 times in one cluster. (More details of the TDMS and the TDDS will be described later.)

In this way, if the TDDS is repeatedly recorded in one cluster of the TAI, the TDDS information can be read simultaneously in the process of confirming the recording state of the TAI area by the recording / reproducing apparatus at the time of disk initialization, and the TDMA in which the latest TDMS is recorded. The area is found more quickly, and being written 32 times makes it more resistant to defects or scratches. At this time, if one cluster is composed of 16 sectors, 16 times can be recorded is obvious in view of the technical idea of the present invention.

On the other hand, the DMA Disc Closing Indicator (Disc Closing Indicator), as mentioned above, serves to inform whether or not the last recording of the write once optical disc.

In other words, a disc closing is performed when a request of a host or a cluster to be recorded is no longer recorded on a write-once optical disc. In this way, when the disc is closed, the read-only disc is read later. As a disc, no further data recording is possible. This is also known as "Disc Finalize."

In this manner, when the disc is closed, the optical recording / reproducing apparatus transfers the latest management information recorded in the TDMA area into a separate DMA area, and records the DMA disc closing indicator cluster so as to know whether the disc is closed.

Therefore, the term "TAI information" defined in the present invention is used to mean not only information accessing an area currently being used in the TDMA area but also disk closing information, and an area in which the TAI information is recorded is a "TAI area". (Note that the same applies to the dual layer discs described below.)

In this case, the data recorded in the DMA disk closing indicator cluster may record the latest TDDS information in 32 sectors as in the case of the TDMA indicator cluster, instead of meaningless dummy data.

3B is a diagram illustrating a method of recording TAI information when the write once optical disc according to the present invention is a dual layer disc having two recording layers.

That is, in the case of a dual layer disk, as mentioned above, up to five TDMAs can exist in the disk (TDMA0 to TDMA4), and TAI information for managing them requires four clusters as shown in FIG. 3B. In addition, five clusters, including a DMA disk closing indicator cluster for indicating whether the disk is closed, will be required.

In more detail, if the TDMA 1 to TDMA 4 indicator cluster of FIG. 3B is not recorded, the first used TDMA 0 will be the TDMA currently in use, and if the first TAI cluster, the TDMA 1 indicator cluster, is recorded, it is TDMA. 0 is used, which means that the TDMA currently in use becomes TDMA 1.

Similarly, if the TDMA 2 indicator cluster, which is the second TAI cluster, is recorded, this means that TDMA 1 is complete, and the TDMA currently in use becomes TDMA2, and if the third TAI cluster, TDMA 3 indicator cluster, is written, it is used by TDMA2. When completed, the current TDMA is TDMA3, and if the fourth TAI cluster, the TDMA 4 indicator cluster, is recorded, this means that TDMA3 is used and the TDMA currently being used is TDMA 4.

Thus, for example, if two clusters are recorded in the TAI, this means that TDMA0 and TDMA1 are used and TDMA2 is currently available.

That is, when the disc is loaded, the optical recording and reproducing apparatus can check the recording state in the TAI, thereby confirming the position of the TDMA currently being used. Thus, the optical recording and reproducing apparatus moves to the start position of the TDMA and reads the last recorded TDMS information. Various initialization information for recording and reproducing can be acquired early.

Therefore, if the management information (TAI) does not exist, the optical recording / reproducing apparatus must scan all TDMA areas starting from TDMA 0 to find a currently available position, so that the setup time for initial recording / reproducing is excessively consumed. There will be a problem that will be solved through the management information (TAI).

According to the present invention, as the data recorded in the TDMA 1 to TDMA 4 indicator clusters, the latest TDDS information is recorded in 32 sectors instead of meaningless dummy data as in the case of FIG. 3A. Therefore, even in the case of a dual-layer disc, the recording and reproducing apparatus can read TDDS information at the same time in the process of confirming the recording state of the TAI area at the time of disc initialization, thereby finding the TDMA area where the latest TDMS is recorded more quickly. It is recorded 32 times, making it more resistant to defects or scratches.

On the other hand, even in the case of a dual layer disc, a DMA disc closing indicator is assigned to one cluster in the TDMA 0 area and recorded, thereby indicating whether the disc can be closed once. Use it.

That is, when data is recorded in the cluster corresponding to the DMA disk closing indicator, the optical recording / reproducing apparatus recognizes that the loaded writeable optical disk is a disk which is no longer recordable. It may be desirable to record the latest TDDS information instead of meaningless dummy data in the recorded data so that the TDDS information can be obtained together with whether the disk is closed.

4 is a view showing various disk defect management and disk usage state information recorded in TDMA according to the present invention.

As shown in FIG. 4, Temporary Disc Management Structure (TDMS) information is recorded in the TDMA area except the TAI according to the present invention.

The TDMS information is recorded in at least one cluster, which is a minimum recording unit for each recording in the TDMA, and may be composed of various information as follows. This information may be changed or added according to the matter determined by the standard. There may be such kind of information.

First, " TDFL (Temporary Defect List) " for recording disc defect management information; " Sequential Recording Range Information " applied to a sequential recording mode as information indicating a disc usage state; "SBM (Space-Bit Map)" applied to the random recording mode is selectively recorded according to each recording mode, and the TDFL and SRRI are always displayed in the last sector of one cluster (or plural clusters). and "TDDS (Temporary Disc Definition Structure)" for recording various other information including the latest position information of (or SBM).

In this regard, the "TDDS" is also referred to as "temporary disc definition structure information" and is a region containing general recording and reproducing information of a disc. As described above, the latest positions of TDFL and SRRI (or SBM) are designated. The pointer information is included so that information is always checked first when the disc is loaded into the recording / reproducing apparatus.

Since the information in the TDDS is continuously updated according to the use state of the disk, the information in the TDDS is always recorded in the last sector every time it is recorded in the management area TDMA. Therefore, only after confirming the final TDDS, it is possible to confirm all kinds of management information on the current disk use state. (More details about the TDDS will be described later.)

Therefore, according to the present invention, by recording the final TDDS information as the TAI information in the cluster, the final TDDS information can be obtained more quickly, and the TDMA area where the final TDMS is recorded can be found more quickly. will be.

Thus, the structure of the TDDS that plays a major role in the present invention is shown in FIG.

As shown in FIG. 5, the TDDS recorded in the 32nd sector 31 of the TDMS recorded in the TDMA area includes various information.

That is, for example, a "TDDS identifier" field that distinguishes the characteristics of the TDDS, a "TDDS format" field, a "TDDS Update Count" field indicating the number of updates of the TDDS, a "First PSN of Drive Area" field, and a disk are closed. If present, the size of the "First PSN of Defect List" field, the "Location of LSN 0 of User Data Area" field, the "last LSN of User Data Area" field, and the inner spare area 0 representing the first physical sector number of the defect list. "Inner Spare Area 0 size" field representing the size, "Outer Spare Area size" field representing the size of the outer spare area, "Inner Spare Area 1 size" field representing the size of the inner spare area, "Spare Area Full" "Recording Mode" field, "general flag bits" field, "Inconsistency flags" field, "Last Recorded" representing the recording mode such as flags "field, sequential, random, logical overwrite, etc. Address of User Data Area "field, outer spare area "Size of TDMAs in Outer Spare Area" field indicating the size of TDMA, "size of TDMA in Inner Spare Area 1" field indicating the size of TDMA in inner spare area 1, the first physical in the recent defect list in the latest TDMA area. From the "First PSN of 1st Cluster of Defect Lise" field representing the sector number, the "First PSN of 8th Cluster of Defect List" field representing the eighth physical sector number. (The fault list is 4 cluster, dual layer disk for maximum single layer disk. In the sequential or random recording mode, the "first PSN of SRRI / SBM for L0" field, the "first PSN of SBM for L1" field, indicating the recording range information of each mode in the sequential or random recording mode, "Next available PSN of ISA0", "next available PSN of OSA0", "next available PSN of ISA1", and "next available PSN of OSA1" fields indicating the next available physical sector number in the spare area. And it is configured to include a "Drive ID" field indicating that represents the recording time "Year / Month / Data of recording" field and a manufacturer, an additional ID, serial number and so on.

Of the TDDS information including such information, the "TDDS identifier" field, the "Inner Spare Area 0,1 size" field, the "Outer Spare Area size" field, the "Recording Mode" field, and the "size of TDMAs in Outer Spare Area" Fields, such as the "size of TDMAs in Inner Spare Area 1" field, may exist once unchanged (not updated), and the information contained by these fields is "fixed management" for convenience. field) "information.

Since the " fixed management field " information is the same in any TDDS, the structure and recording method of the entire disc can be confirmed through the information.

In addition, the "first PSN of 1st Cluster of Defect List" to "first PSN of 8th Cluster of Defect List" field of the TDDS information, "next available PSN of ISA0", "next available PSN of OSA0", "next available PSN of There may be fields, such as ISA1 "and" next available PSN of OSA1 "fields, that need to be continuously updated as necessary, and information included in these fields is called" variable management field "information for convenience.

Therefore, according to the present invention, when the TDDS information recorded in the TAI information is reproduced, the structure and the recording method of the entire disc can be checked first through the "Fixed management field" information. In particular, the TDMA can be easily accessed through the size information of the TDMA region included in the " fixed management field " information. In addition, the latest TDMS information is obtained through the "variable management field" information.

Therefore, when the disc is loaded, the optical recording and reproducing apparatus should read the TDMS information for initial setting for recording and reproducing in consideration of the above information and the like, which will be described with reference to FIG. .

6 is a flowchart showing an initial setting step of the optical recording and reproducing apparatus according to the present invention.

As shown in Fig. 6, when a disc is loaded in the optical recording / reproducing apparatus, the TAI0 is moved to the TDMA0 area of the disc to read TAI information. (S10) Information indicated by the DMA disc closing indicator among the TAI information. It is determined whether the loaded disk is closed through (S20).

At this time, if the DMA disk closing indicator cluster is recorded and it is determined that the disk is closed, the DMA disk closing indicator cluster moves to the corresponding DMA area and reads the last management information on which the disk has been recorded (S30). Since no more recording is possible, the user may replay the desired data through the management information. (S40)

If the disc is not closed as a result of the determination, the disc moves to the TDMA area indicated by the TDMA indicator cluster of the TAI, and reads the disc management information through the latest TDDS information (S50).

At this time, in addition to the method of moving to the corresponding TDMA area and reading the TDMS information, since the TDDS information is recorded over 32 sectors in the TDMA indicator cluster of the TAI, the " fixed management field among the TDDS information " After reading the "Fixed management field" information first, you can select the method of reading the latest "Variable management field" information by moving to the corresponding TDMA area. There will be a problem with the setting of the playback device.

As described above, during the consecutive holidays in which the management information of the disc is read, data is recorded or reproduced according to a user's selection (S60).

On the other hand, Figure 7 is a block diagram showing the internal configuration of the optical recording and reproducing apparatus for implementing the technical idea according to the embodiment of the present invention.

As shown in FIG. 7, the optical recording and reproducing apparatus according to the present invention is largely composed of a recording and reproducing unit 10 for performing recording and reproducing on an optical disc, and a control unit (or host) 20 for controlling the same. That is, the control unit 20 issues a recording or reproducing command to a specific area to the recording and reproducing unit 10, and the recording and reproducing unit 10 records and reproduces to a specific area of the optical disc according to the command of the control unit 20. It works in the form of. In this case, the recording / reproducing unit 10 may be generally referred to as an "optical disk drive".

More specifically, the recording and reproducing unit 10 may include an interface unit 12 which communicates with the outside, a pickup unit 11 which directly records or reproduces data on an optical disc, and a reproduction signal of the pickup unit. A data-processor 13 for receiving and restoring a desired signal value, or modulating and transmitting a signal to be recorded into a signal recorded on an optical disk, and accurately reading out a signal from the optical disk or accurately recording a signal on the optical disk. To control the pickup section 11, the memory 15 for temporarily storing various information and data including management information, and the control of various components in the recording / reproducing section 10. It is comprised including the microcomputer 16 in charge.

In the optical recording and reproducing apparatus configured as described above, a disc recording and reproducing method using TAI information according to the present invention will be described in detail.

First, when an optical disc is loaded, the recording / reproducing section 10 should obtain various disc information recorded from the loaded optical disc. In particular, if the loaded optical disc is an optical disc capable of recording once, for example, a BD-WO, The microcomputer 16 in the recording / playback section 10 checks the TAI information recorded in the TDMA 0 area to check whether the loaded disk is closed and the position of the TDMA area currently in use.

Through the TAI information, if the disc is closed, no further recording is possible, and under the control of the microcomputer 16 through the playback command of the controller 20, the recording / playback unit 10 performs the playback of the disc. .

If the disk is not closed, the position of the TDMA area currently being used is checked, and the latest TDMS information recorded in the TDMA area is obtained, and the TDMS information is used in accordance with the recording / reproducing command of the controller 20. The recording and reproducing of the recording and reproducing section 10 is performed by the control of the microcomputer 16. In this case, the "the first TDMS" information included in the TAI region can be obtained first.

In addition, the method of recording the TAI information according to the present invention in the optical recording and reproducing apparatus as described above in detail as follows.

The microcomputer 16 in the recording / playback section 10 records the TDMS information in a specific order of use in a plurality of TDMAs whose use is determined in a specific order. For example, the use of TDMA 0 starts at TDMA 0, and the TDMA 0 is started. When the use of is completed, the TDMA 0 is used through the pickup unit 11 to control the change of the TDMA indicator cluster of the TAI in the TDMA 0 area to the recording state to indicate that the TDMA 1 is currently in use. . At this time, the recorded information may be the latest TDDS information.

In this way, if there are no more clusters to record, or if the disk is closed according to the closing instruction of the control unit 20 by the user's request or the like, the latest TDMS information recorded in the TDMA is transferred to the DMA area and recorded. Then, the DMA disk closing indicator cluster of the TAI in the TDMA 0 area is controlled to change to the recording state. The information recorded at this time may be the latest TDDS information.

Of course, the above operation is in the idle state after the completion of the recording process of the disk, or at the time of ejecting the disk, the microcomputer 16 checks the position of the TDMA currently being used, and then in the corresponding TAI. It is also possible to change a specific cluster into a batch recording state.

As described above, the recording method and recording / reproducing method and apparatus for recording optical discs and optical discs of the present invention according to the present invention separately record management information for increasing the use efficiency of a plurality of TDMA areas inside the optical disc which can be recorded once. And the efficient recording and reproducing method of the optical disc using the above recording management method, there is an effect of efficiently using a write once optical disc.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

1 is a diagram showing a recording area structure of a general rewritable Blu-ray Disc (BD-RE).

2A and 2B show a method of recording the structure and management information of a write once optical disc according to the present invention;

3A and 3B illustrate a method of recording management information (TAI) according to the present invention.

4 is a diagram showing various disc defect management and disc usage state information recorded in TDMA according to the present invention;

5 is a diagram showing the structure of a TDDS according to the present invention;

6 is a flowchart showing an initial setting step of the optical recording and reproducing apparatus according to the present invention.

7 is a block diagram showing an internal configuration of an optical recording and reproducing apparatus according to the present invention.

-Explanation of symbols for the main parts of the drawing-

10: recording and playback section 11: pickup

12 interface 13 data-processor

14: Servo 15: Memory

16: microcomputer 20: host or control unit

Claims (19)

A method of recording management information of an optical disc of write once type having a plurality of TDMA areas, Information indicating the area currently being used of the plurality of TDMA areas is recorded in a specific area of the disc, And recording the disc closing information in the area when the disc is closed. The method of claim 1, And information indicating the TDMA area currently in use and the disk closing information are recorded in the TAI area of the first TDMA0 area of the optical disc. The method of claim 2, And the information indicating the TDMA area currently being used is recorded in one fewer cluster than the number of TDMA areas existing in the disc. The method of claim 3, wherein And the clusters have a one-to-one correspondence with the remaining TDMA areas except for the TDMA 0 area of the optical disc. The method of claim 4, wherein And recording the corresponding one cluster when the one TDMA area has been recorded. The method of claim 5, And the recorded information is the last TDDS information present in the TDMA area being used. The method of claim 5, And the recorded information is first TDDS information of a TDMA area being used. The method according to any one of claims 6 to 7, And the TDDS information is repeatedly recorded over one cluster in units of one sector. The method of claim 2, And the disc closing information is recorded in one cluster of the TAI area. The method of claim 9, And wherein the recorded information is the last TDDS information of the currently used TDMA area. In an optical disc recorded and divided into a lead-in area, a data area, and a lead-out area, A plurality of TDMA areas as temporary defect management areas in the optical disc, And a TAI area in which information indicating the TDMA area currently being used and disk closing information are recorded in a first TDMA area of the plurality of TDMA areas. Reading TAI information from the TDMA0 area of the loaded disk, Checking whether the disk is closed from the TAI information; If the disk is not closed, reading the latest TDMS information by moving to a TDMA area currently being used through the TAI information; And recording or reproducing the disc using the latest TDMS information. The method of claim 12, wherein when the disk is closed, Reading information recorded in the DMA area of the disc; And reproducing the disc using the information recorded in the DMA. The method of claim 12, And the TAI information is information indicating a TDMA area currently being used and disc closing information. The method of claim 14, And the TDDS information of the TDMA area currently being used is included in the TAI information. The method of claim 15, And the TDDS information comprises "Fixed management field" information which is not updated and "Variable management field" information which is updated. The method of claim 16, And in the step of reading the TAI information, confirming the " fixed management field " information. A pickup section for recording information on the loaded optical disc; And a microcomputer for controlling to record the TAI information in the TDMA0 area of the optical disc through the pickup section. The method of claim 18, And the TAI information is information indicating a TDMA area currently being used and disc closing information.