KR100714019B1 - Recording medium and method for recording - Google Patents

Abstract

The present invention relates to a data structure for recording data on an optical recording medium at a high density and a recording method therefor.

The frame data structure for high density data recording of the optical recording medium of the present invention and the method for recording the same may further comprise two physical sectors in an ATIP frame of a CD-R / RW disc in a sector number of ID in a DVD data frame structure the sector number is recorded so that the physical sector corresponds to the sector information and the area type and the data type information are assigned to the sector information of the ID. .

Also, the frame data structure for high density data recording of the optical recording medium of the present invention and the recording method thereof are such that in the 6-byte MSF part in the DVD data frame structure, the absolute time information of ATIP in minutes, seconds, frames information is recorded in 3 bytes equally, or absolute time conversion information of ATIP is recorded, and the remaining 3 bytes are allocated in a reserved manner.

Optical recording medium, CD-R, CD-RW

Description

≪ Desc / Clms Page number 1 > Recording medium and method for recording &

1 is a view showing a structure of a data frame of an optical recording medium according to the present invention;

2 is a view showing an ID structure of an optical recording medium according to the present invention;

3 is a view showing an MSF structure of an optical recording medium according to the present invention

The present invention relates to a data structure for recording data on an optical recording medium at a high density and a recording method therefor.

Particularly, the present invention relates to a high-density recording data format of an optical recording medium that enables high-density recording and reproduction by applying a DVD data frame structure when user data is to be recorded on a CD-R / ).

A CD-RW drive is a device that reads data from or writes data to a CD-RW connected to a PC. This CD drive can generally read data recorded on a CD-type disc (CD-ROM, CD-AUDIO) and can record data on a disc (CD-R) (CD-RW). In particular, CD-Rs can only record once, but CD-RWs can be rewritten several times. Each disc is compatible with CD-ROM drives, CD-R drives, and CD-RW drives because it conforms to the standard format of the CD series (format defined in Redbooks, Yellowbooks, etc.).

Specifications for CD-R and CD-RW are specified in Orange Book. Due to the compatibility with the CD-ROM drive and the high recording capacity, CD-R / RW is attracting attention as a main data storage device of PC, and CD-RW is getting more and more attention due to its rewriting characteristic.

In the case of a CD-R or CD-RW disc, grooves in the form of a land groove are formed along the surface of the recording track, and data is recorded along the surface during data recording. Unlike a CD that can be recorded on a read-only disc, a pit row already recorded at the time of initial recording or overwrite can not be used as information of a tracking servo, a focus servo, and a linear velocity control (CLV) servo. In the land groove, absolute position information called Absolute Time In Pre-groove (ATIP) and some disk information are stored in the physical encoding method called wobble. This ATIP is used to realize servo control and position information And is used as an absolute position so as to be synchronized with the address of the actually recorded sector. That is, since the absolute position is determined, recording / reproducing can be performed at any position using the ATIP address.

The data storage space on the disk can be seen as a contiguous set of structures called continuous sectors (= Frame). One sector can store about 2048 bytes of information. Each sector is addressed (addressed) so that it can go directly to its location. In the CD system, an addressing method called MSF (Min, Sec, Frame) is used. One second is 75 sectors, and one minute is 60 seconds. That is, one frame means one sector. In the sector, there is an area for holding its own address information, which is called a sub-queue (SUB-Q). In the CD-R and CD-RW systems, the address of the MSF recorded in the SUB-Q matches the ATIP address of the position. In a CD-R and a CD-RW system, a data storage space composed of a plurality of sectors is divided into a lead-in area, a program area, and a lead-out area. PCA) region.

The lead-in area is an area in front of the program area, and a data structure called a TOC (TOC) is provided. In this TOC, information of tracks recorded in the program area is recorded. Therefore, It is possible to recognize the existence of the location and to find the location.

The program area is an area capable of storing meaningful data, and is made up of one or more track areas. That is, there may be a plurality of tracks in the program area, and in the case of an audio-CD, usually one song is stored in one track.

The lead-out area is a spare area outside the program.

The lead-in area, the program area, and the lead-out area are collectively referred to as a session. Multiple sessions can be formed on one disk, which is called a multi session.                         

The start position of the program area of the first session is physically determined. The data space after 0: 0: 0 as the MSF address is incremented by 1 in order and the front area is decremented by 1 in the first lead-in direction As shown in FIG. The last address of the first lead-in is typically 99:59:74.

The PMA area exists only in the recording CD system, and is used for storing information of the recorded track because it can record one session on a track basis. For example, if you record a single track and then eject the disc without creating a session, there is no way to verify the presence of a track on the disc. For this reason, PMA is needed. In the PMA area, information is added every time a track is recorded, and the start position and end position information of the track and the like are stored in the PMA entry.

A typical recording method for a disc will be described as follows.

If only an additional recording method is allowed from the head of the disc, it is not possible to record the track at an arbitrary position. In the case of the reserved track, the information can be recorded on the next track even if the information is not recorded all over, and the session can be recorded later. However, in order for a session to be crossed, all tracks in the session must be recorded, and incomplete tracks must be crossed. When the session is crossed, the position information of the program area of the next session is recorded in the lead-in end so that the next session can be quickly found. If you do not create a pointer to the next session, the disk becomes a disk that can no longer be written to. In the case of a CD-RW, it is possible to overwrite an already recorded track because it can be rewritten, but it is impossible to change the track length at random. Therefore, in the case of rewriting, the entire disc must be rewritten.

As described above, CDs, CD-ROMs, and CD-Vs have become very successful media for storing audio, MPEG video, and other digital information. However, the storage capacity of 680 Mbytes is insufficient to store graphics-oriented computer applications and high-definition digital video programs. The DVD, which is considered an extension of the CD series, is a new optical recording medium with more than seven times the storage capacity of ordinary CDs. The increase in storage capacity is usually improved by improving the quality of the light source and the objective lens. In addition, the increase in storage capacity of DVDs has been caused by a complete re-design of the logical form of the disc using the more powerful recording codes RS-PC and EFM Plus

With such RS-PC ECC and 8/16 modulation codes, it is possible to record more capacity than conventional CD encoding when recording user data of the same size on a CD-R / RW recording medium.

The present invention proposes a data frame structure for recording data at high density on an existing CD-R / RW disc as a high density recording method for an optical recording medium.

The present invention proposes a method for recording data at a high density and a low density on one disk and a data frame structure therefor.

The present invention proposes a method of recording data by differentiating a data frame structure for low-density recording and a data frame structure for high-density recording on an optical recording medium and a data frame structure therefor.                         

The present invention is based on the assumption that when 2048 bytes of user data is recorded at high density on a CD-R / RW disc using RS-PC ECC and a modulation code having an 8/16 modulation code or a similar code rate, R / RW recording medium when the storage capacity is increased by changing the ID and the MSF portion of the optical recording medium, which can be utilized as information for facilitating high-density recording and reproduction, We propose a data frame structure and its method.

The present invention is a high density recording method for an optical recording medium, wherein the low density data recording method is according to the existing CD recording method, and the high density data recording method is based on a recording method based on frame data of a new structure in which the ID and MSF portions are changed And a main data has data identification display and absolute time information for high density data recording so that the total data size is 2048bytes, and a data structure of the high density recording method of the optical recording medium is proposed.

The frame data structure for high density data recording of the optical recording medium of the present invention and the method for recording the same may further comprise two physical sectors in an ATIP frame of a CD-R / RW disc in a sector number of ID in a DVD data frame structure the sector number is recorded so that the physical sector corresponds to the sector number, and the frame data is recorded including this information.

In addition, the frame data structure for high density data recording of the optical recording medium of the present invention and the recording method thereof can store area type and date type information in the sector information of the ID in the DVD data frame structure And the frame data is recorded including this information.

Also, the frame data structure for high density data recording of the optical recording medium of the present invention and the recording method thereof are such that in the 6-byte MSF part in the DVD data frame structure, the absolute time information of ATIP in minutes, seconds, frames information is recorded in 3 bytes equally, or absolute time conversion information of ATIP is recorded, and the remaining 3 bytes are allocated in a reserved manner.

The frame data structure and the recording method for high density data recording of the optical recording medium of the present invention are characterized in that two physical sectors having the same MSF information exist in the DVD data frame structure and are recorded corresponding to the same ATIP frame A high density recording method of an optical recording medium and a data structure thereof.

FIG. 1 shows the structure of a data frame for explaining the present invention.

12rows including the 4-byte ID, 2-byte IED, 6-byte MSF, and 160 bytes of main data, 172 bytes of main data 10 rows, 168 bytes of main data and 4 bytes of EDC, Frame.

In the present invention, as described above, 2048 bytes of user data are recorded on a CD-R / RW disc using a RS-PC ECC and an 8/16 modulation code (including a modulation code having a similar code rate) Times), the ID and MSF portions in the data frame structure of FIG. 1 are changed as follows.

As shown in FIG. 2, the 4-byte ID (b0-b31) includes sector information (b24-b31) and a sector number (b0-b23) The sector number is recorded so that two physical sectors correspond to one ATIP frame of the CD-R / W disc. That is, the conventional CD-R / RW disk is designed to cope with the recording of twice the capacity, which makes it possible to compensate for the lack of absolute time recording (processing for 99 minutes or more).

Area type b26 and b27 and data type b25 are allocated to the formations b24 to b31 that are the sectors of the ID.

That is, bit 27 (b27) and bit 26 (b26) allocate an area type, where 00b is a data area, 01b is a lead-in area, 10b is a lead- And bit 25 (b25) assigns a data type. In the case of 0b, re-recordable data and 1b, linking data are defined and allocated.

In this way, the ID of the data frame is corrected and the 6-byte MSF part (b0-b47) is processed as shown in FIG.

First, three bytes (b0-b23) of the lower order are reserved. Minutes (b47-b40) to 1 byte from the most significant bit, Seconds (B39-b32) to the next 1 byte Let the bytes contain the 3-byte time information of the Frames (b31-b24). That is, in the MSF part of 6 bytes, the absolute time information of ATIP, such as minutes, seconds, and frame information, is written in 3 bytes and the remaining 3 bytes are reserved. Or the absolute time conversion information of the ATIP, for example, information in which the MSF is converted into the ATIP frame number, and the remaining 3 bytes are reserved. In this way, it is recorded that there are two physical sectors having the same MSF information, which means that they correspond to the same ATIP.

In the MSF structure, the preliminary 3 bytes can be used for, for example, a new copyright management.

In the MSF structure of FIG. 3, time information is represented by BCD, which means that two physical sectors have the same MSF data because one ATIP frame corresponds to two physical sectors.

As described above, when data of 2048 bytes of user data is recorded at high density on a CD-R / RW disc using the RS-PC ECC and the 8/16 modulation code, by using the data frame structure according to the present invention, Can overcome the absolute time processing limit of the conventional CD-R / RW recording medium and provide information for facilitating high-density recording and reproduction.

The present invention corrects an ID and an MSF portion of a data frame suitable for high-density recording when data is recorded at high density (twice the capacity) using the conventional CD-R / RW optical recording medium as it is, / RW can overcome the absolute time processing limit of the recording medium. In addition, it has ensured an environment that enables high-density data recording and reproduction using conventional CD-R / RW discs.

Claims (11)

A recording medium as claimed in claim 1, wherein a data recognition indication and absolute time information for recording data are recorded in a part of the data frame. The method according to claim 1, And a part of the data frame is reserved. The method of claim 1 or 2, wherein the data recognition indication information is recorded by recording a sector number so that two physical sectors correspond to one ATIP frame of a CD-R / RW disc in a data frame ID sector number Recording medium. The recording medium according to claim 1 or 2, wherein the data recognition display information is formed by assigning an area type and data type information to a formatation that is a data frame ID. The recording medium of claim 1 or 2, wherein the absolute time information is recorded by recording the absolute time information of the ATIP in the data frame MSF portion or by recording the absolute time conversion information of the ATIP. 6. The recording medium of claim 5, wherein the absolute time information or absolute time conversion information of the ATIP is recorded in the MSF to indicate that there are two physical sectors having the same MSF information. The recording medium of claim 5, wherein the absolute time conversion information records information obtained by converting an MSF into an ATIP frame number. Wherein the data frame in the recordable optical recording medium includes a 4-byte ID and a 6-byte MSF, the ID includes a 3-byte sector number and a 1-byte sector, and the sector number of the ID includes a CD- A sector number is recorded so that two physical sectors correspond to one ATIP frame of the / RW disc, and an area type and a data type are recorded in a sector formation of the ID, and the area type is allocated to 2 bits to form a data area, The MSF defines absolute time information (Minutes, Seconds, Frames) of the ATIP to be equal to 3 bytes, and defines a read-out area and a read-out area. The data type is allocated to 1 bit to define rewritable data and linking data. And the spare time conversion information of the ATIP is recorded, and the remaining 3 bytes are allocated to the spare. And recording data identification marks and absolute time information for data recording in a data frame of a recordable optical recording medium. The method as claimed in claim 9, wherein, as the data recognition display, the sector number is recorded so that two physical sectors correspond to one ATIP frame, and the area type and data type are recorded in the ID of the data frame, (Minutes, Seconds, Frames) of the ATIP is recorded in 3 bytes equally or the absolute time conversion information of the ATIP is recorded. A method of recording data on a recording medium, Selecting low density recording or high density recording on a recordable optical recording medium; Performing data recording according to an existing CD recording method when selecting the low density recording; And And performing high density data recording including the data recognition indication and the absolute time information when the high density recording is selected.

Images