JPH11273082A - Multi-layer optical disk reproducing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To accurately and speedily obtain a layer in which a desired data to be read is recorded and the recorded position of the data on the layer when it is requested to read the desired data to an optical disk of a multi-layer structure. SOLUTION: Based on the externally set logic address and the final physical address of a data area in a layer 0 of the optical disk, this device judges whether the data to read is on the layer 0 or the layer 1. Here, when it is judged that the data to read is on the layer 1, the externally set logic address is arithmetically processed for calculating the physical address showing the start position of the data to read from the layer 1, and when it is judged that the data to read is on the layer 0, it is judged that the externally set logic address is judged as the physical address showing the recording start position of the data to read from layer 0.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement of a multi-layer optical disc reproducing apparatus for reproducing a multi-layer optical disc having two or more signal recording layers.

[0002]

2. Description of the Related Art As is well known, in recent years, DVDs (Digi
An optical disk called a “tal Video Disk” has been developed and put into practical use. This DVD is a music CD (Co
mpactDisk) on one side of the same 12cm diameter disc,
Digital data of 5 gigabytes or more can be recorded at high density.

For this reason, DVDs are expected to be widely used in various fields as large-capacity recording media in the future. Further, in this DVD, a plurality of optical disks each having a signal recording layer are stacked and bonded to form a multilayer structure, thereby further increasing the recording capacity.

[0004]

By the way, when the optical disk has a multi-layer structure as described above, a multi-layer optical disk reproducing apparatus for reproducing the same, for example, when a search for desired data is requested, is performed. There is a need to quickly and accurately determine the recorded layer and the data recording position in that layer so that a high-speed search operation can be realized.

Therefore, the present invention has been made in view of the above circumstances, and when reading of desired data is requested for an optical disc having a multilayer structure, a layer on which data to be read is recorded, It is an object of the present invention to provide an extremely good multilayer optical disc reproducing apparatus capable of quickly and accurately obtaining a data recording position in a layer.

[0006]

A multi-layer optical disc reproducing apparatus according to the present invention reproduces data specified by an externally set logical address from a multi-layer optical disc having a first layer and a second layer. It is intended for those who do.

Then, by reading data recorded on the optical disk, the optical disk is moved to the first layer and the second layer.
A first discrimination is made to determine whether the optical disc is a parallel format optical disc having the same physical address as that of the optical disc or an optical disc of an opposite format having a physical address continuously increasing from the first layer to the second layer. And a logical address set externally and a final physical address of the data area of the first layer in a state where the optical disc is determined to be a parallel format optical disc by the first discriminating means. Second determining means for determining whether the data specified by the address is recorded on the first layer or on the second layer; and data recorded on the second layer by the second determining means. The logical address set externally, the final physical address of the data area of the first layer, and the start physical address of the data area of the second layer are determined. The physical address of the recording position of the data specified by the logical address on the second layer is calculated based on the logical address. The first arithmetic unit that uses the set logical address as the physical address of the recording position on the first layer of the data specified by the logical address, and the first determination unit determines that the optical disk is an opposite format optical disk. By comparing the externally set logical address with the final physical address of the data area of the first layer in the state, the data specified by the logical address can be compared between the first layer and the second layer. A third discriminating means for discriminating which one is recorded, and a logical address externally set in a state where the third discriminating means determines that the data is recorded on the second layer; Layer of The physical address of the recording position of the data specified by the logical address on the second layer is calculated based on the final physical address of the data area, and it is determined that the data is recorded on the first layer by the third determining means. And a second calculating means for setting the externally set logical address to the physical address of the recording position on the first layer of the data specified by the logical address in the state set.

Further, the multi-layer optical disc reproducing apparatus according to the present invention converts data specified by a logical address set externally from a multi-layer optical disc of a parallel format having the same physical address in the first layer and the second layer. It is intended for playback.

Then, an externally set logical address,
Determining means for determining whether the data specified by the logical address is recorded in the first layer or the second layer by comparing with the final physical address of the data area of the first layer; When the discriminating means determines that the data is recorded on the second layer, the logical address set externally, the last physical address of the data area of the first layer, and the data area of the data area of the second layer are determined. Based on the starting physical address, the physical address of the recording position on the second layer of the data specified by the logical address is calculated, and the first address is determined by the determination unit.
Calculating means for setting a logical address set externally as a physical address of a recording position on the first layer of data specified by the logical address in a state where it is determined that the logical address is recorded on the first layer. It was done.

Further, the multi-layer optical disc reproducing apparatus according to the present invention is a multi-layer optical disc reproducing apparatus having a physical address continuously increasing from the first layer to the second layer. It is intended for those that reproduce data that

Then, an externally set logical address,
Determining means for determining whether the data specified by the logical address is recorded in the first layer or the second layer by comparing with the final physical address of the data area of the first layer; When the discriminating means determines that the data is recorded in the second layer, the logical address specified by the logical address is set based on the externally set logical address and the final physical address of the data area of the first layer. The physical address of the recording position of the data to be recorded on the second layer is calculated, and in a state where the discriminating means determines that the data is recorded on the first layer, an externally set logical address is designated by the logical address. Computing means for setting the physical address of the recording position on the first layer of the data.

According to the above configuration, data to be read from the optical disk is stored in the first layer based on the externally set logical address and the final physical address of the data area of the first layer of the optical disk. It is determined whether it is in the second layer. When it is determined that the data to be read from the optical disc is in the second layer, the logical address set externally is subjected to a predetermined arithmetic processing, and the physical address indicating the recording start position of the data to be read from the second layer is performed. The address is calculated, and when it is determined that the data to be read is in the first layer, the externally set logical address is determined to be the physical address indicating the recording start position of the data to be read from the first layer.

Therefore, when a logical address is input, 2
When reading of desired data is requested from an optical disk having a layer structure, a layer on which data to be read is recorded and a physical address indicating a position from which reading of data is started from the layer are quickly and accurately obtained. And a high-speed search operation can be realized.

[0014]

Embodiments of the present invention will be described below in detail with reference to the drawings. In FIG. 1, reference numeral 11 denotes an optical disk having a multilayer structure conforming to the DVD format. In this embodiment, it is assumed that the optical disk has a two-layer structure. The optical disk 11 is driven to rotate at a predetermined rotation speed by a disk motor 12.

On the signal recording side of the optical disk 11,
An optical pickup 13 is provided. The optical pickup 13 is supported so as to be movable in the radial direction of the optical disc 11, and functions to read recorded data from the optical disc 11 that is driven to rotate.

The data on the optical disk 11 read by the optical pickup 13 is supplied to a control circuit 14 and restored to the original data. Further, the control circuit 14 performs a rotation speed control of the disk motor 12 and a focus control and a tracking control for an objective lens (not shown) built in the optical pickup 13 in accordance with the reading of the data from the optical disk 11. ing.

Further, ID (Identifier) information is supplied to the control circuit 14 through an input terminal 15. The ID information is a logical address indicating the position of data recorded on the optical disk 11 in units of sectors. For example, when searching for desired data from the optical disk 11, the ID information indicating the recording start position of the data Is supplied to the input terminal 15.

As will be described in detail later, when the ID information is input, the control circuit 14 determines, based on the ID information, the layer of the optical disk 11 on which the data to be read is recorded and the data in that layer. A physical address indicating the recording start position of the optical pickup 13 is obtained, and the position of the optical pickup 13 is controlled to read data at the position specified by the ID information.

Here, the type of the optical disk 11 having a two-layer structure will be described. In the case of the optical disk 11 shown in FIG. 2, there is a lead-in area (22.6 to 24 cm from the center) at the innermost periphery for both layers 0 and 1, respectively.
There is a lead-out area in the outermost periphery, and a data area in the middle.

In each of the layers 0 and 1, a physical address is set so that the physical address gradually increases from the innermost peripheral portion toward the outer peripheral portion. In this case, layer 0 and layer 1 have the same physical address at the same radial position.
The optical disc 11 of the type shown in FIG. 2 employs a method (Parallel Track Path) in which the layers 0 and 1 are alternately reproduced from the innermost periphery toward the outer periphery.

In the case of the optical disk 11 shown in FIG. 3, there is a lead-in area at the innermost periphery of the layer 0, a middle area at the outermost periphery, and a data area at an intermediate part. On the other hand, the layer 1 has a lead-out area at the innermost periphery, a middle area at the outermost periphery, and a data area at an intermediate part. In layer 0, physical addresses are set so as to sequentially increase from the innermost peripheral portion toward the outer peripheral direction. In layer 1, physical addresses are set so as to sequentially increase from the outermost peripheral portion toward the inner peripheral direction. Address is set.
In this case, the physical address of the layer 1 and the physical address of the layer 0 have a relationship in which each bit value of 0 is inverted to 1 and 1 to 0.

Here, an optical disk 1 of the type shown in FIG.
For layer 1, first, the layer 0 is reproduced from the innermost periphery toward the outer periphery, and after the reproduction of layer 0 is completed,
A method (Opposite Track Path) of reproducing the layer 1 from the outermost periphery toward the inner periphery is employed.

In the optical disk 11 having a multilayer structure conforming to the DVD format, whether the optical disk 11 has a one-layer structure or a two-layer structure is included in PFI (Physical Format Information) described in the lead-in area. And the data indicating the parallel format or the opposite format in the case of a two-layer structure.

Next, based on the input ID information, the control circuit 14 determines a layer of the optical disk 11 on which data to be read is recorded and a physical address indicating a data recording start position in the layer. The operation to be determined will be described with reference to the flowchart shown in FIG.

First, when started (step S1), the control circuit 14 reads the PFI from the lead-in area of the optical disk 11 in step S2. After that, in step S3, the control circuit 14 sends the ID
Get information. Then, the control circuit 14 determines in step S
In step 4, it is determined whether or not the optical disk 11 has a two-layer structure based on the contents of the PFI. If it is determined that the optical disk 11 does not have the two-layer structure (NO), the process ends (step S11).

If it is determined in step S4 that the structure is a two-layer structure (YES), the control circuit 14
In step 5, it is determined whether the optical disk 11 is in the parallel format or the opposite format based on the contents of the PFI. If it is determined that the format is the parallel format, the control circuit 14 determines in step S6 the input ID information, that is, the logical address, and the last sector EDA (End sector n) of the layer 0 data area shown in FIG.
umber of the Data Area)
It is determined whether ID> EDA.

If it is determined in step S6 that ID> EDA (YES), the control circuit 14 first determines in step S7 that data to be read from the optical disk 11 is in layer 1. In step S7, assuming that the physical address of the start sector of the data area of layer 1 is 30,000h (h indicates a hexadecimal number), control circuit 14 performs the calculation of (ID-EDA-1) + 30000h. Thereby, the physical address indicating the recording start position of the data to be read in the layer 1 is calculated, and the processing is ended (step S11).

The calculation of the physical address is performed, for example, by using the ID
Assuming that the logical address indicated by the information is 50,000h and the physical address of the EDA is 40000h, (5000
0h-40000h-1) + 30000h = 3FFFF
h. That is, it is sufficient to start reading data from the physical address 3FFFFh of the layer 1.

On the other hand, if it is determined in step S5 that the optical disk 11 has the opposite format based on the contents of the PFI, the control circuit 14 proceeds to step S8.
Then, the input ID information, that is, the logical address, and the last sector EL0 (Endsequence) of the layer 0 data area shown in FIG.
Then, it is determined whether or not ID> EL0 by comparing with the physical address of (ctor number in Layer 0).

If it is determined in step S8 that ID> EL0 (YES), the control circuit 14 first determines in step S9 that data to be read from the optical disk 11 is in layer 1. In step S9, the control circuit 14 determines that (ID-EL0-1) + (EL0 XO
R FFFFFFh) is calculated to calculate the physical address indicating the recording start position of the data to be read in layer 1, and the operation is terminated (step S11).
In the above expression, XOR is an exclusive OR operation.

The calculation of the physical address is performed, for example, by using the ID
Assuming that the logical address indicated by the information is 50,000h and the physical address of EL0 is 40000h, (5000
0h-40000h-1) + (40000h XOR
FFFFFFh) = FCFFFEh. That is, it is sufficient to start reading data from the physical address FCFFFEh of the layer 1.

Next, if it is determined in step S6 that ID> EDA is not satisfied (NO), or
If it is determined in step 8 that ID> EL0 is not satisfied (NO), the control circuit 14 first proceeds to step S10 to
It is determined that the data to be read from 1 is in layer 0. The control circuit 14 determines in step S10 that the input I
The logical address indicated by the D information is determined to be a physical address for starting data reading from the layer 0, and the process ends (step S11).

According to the above-described embodiment, first, the logical address indicated by the input ID information and the physical address of the last sector (EDA, EL0) of the data area of layer 0 on the optical disk 11 having the two-layer structure are stored. By comparing the sizes, the data to be read from the optical disc 11 is
It is determined whether it is in layer 0 or layer 1.

When it is determined that the data to be read from the optical disk 11 is in the layer 1, a predetermined operation is performed on the logical address indicated by the ID information, and the physical address indicating the recording start position of the data to be read from the layer 1 is performed. The address is calculated, and when it is determined that the data to be read is in layer 0, the logical address indicated by the ID information is determined to be the physical address indicating the recording start position of the data to be read from layer 0.

For this reason, when ID information is input and reading of desired data is requested from the optical disc 11 having a two-layer structure, the layer on which the data to be read is recorded and the data reading from that layer are read. The physical address indicating the start position can be obtained quickly and accurately, and a high-speed search operation can be realized. It should be noted that the present invention is not limited to the above-described embodiment, and can be variously modified and implemented without departing from the scope of the invention.

[0036]

As described in detail above, according to the present invention,
When reading of desired data is requested for an optical disc having a multilayer structure, it is possible to quickly and accurately obtain a layer on which data to be read is recorded and a data recording position on the layer. It is possible to provide a good multilayer optical disc reproducing device.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is a view for explaining a parallel format two-layer optical disc.

FIG. 3 is a view for explaining a two-layer optical disc in an opposite format.

FIG. 4 is a flowchart shown to explain the operation of the embodiment;

[Explanation of symbols]

 11: optical disk, 12: disk motor, 13: optical pickup, 14: control circuit, 15: input terminal.

Claims (3)

[Claims] 1. A multi-layer optical disc reproducing apparatus for reproducing data designated by an externally set logical address from a multi-layer optical disc having a first layer and a second layer, comprising: Is read, the optical disc is a parallel format optical disc having the same physical address in the first layer and the second layer, or the physical address continuously increasing from the first layer to the second layer is First discriminating means for discriminating whether the disc is an opposite-format optical disc, and in a state where the first discriminating means has determined that the disc is a parallel-format optical disc, the externally set logical address; The data specified by the logical address is compared with the last physical address of the data area of the A second discriminating means for discriminating which of the first layer and the second layer is recorded, and a state where the second discriminating means determines that the data is recorded on the second layer, Based on the externally set logical address, the last physical address of the first layer data area, and the start physical address of the second layer data area, the data specified by the logical address The physical address of the recording position on the second layer is calculated, and the externally set logical address is replaced with the logical address in a state where the second discriminating means determines that the logical address is recorded on the first layer. A first calculating means for setting a physical address of a recording position of the designated data on the first layer; and an externally set optical disc in a state where the first discriminating means judges that the optical disc is an opposite format. By comparing the logical address and the final physical address of the data area of the first layer, the data specified by the logical address is recorded in either the first layer or the second layer. A third discriminating means for discriminating whether or not the logical address is set in the second layer. The second physical address specified by the logical address based on the last physical address of the data area;
The physical address of the recording position on the layer is calculated, and the logical address externally set is specified by the logical address in a state where it is determined by the third determination means that the logical address is recorded on the first layer. And a second calculating means for setting a physical address of a recording position of the data to be recorded on the first layer. 2. A multi-layer optical disc reproducing apparatus for reproducing data specified by a logical address set externally from a multi-layer optical disc of a parallel format having the same physical address in a first layer and a second layer. By comparing the set logical address with the final physical address of the data area of the first layer, the data specified by the logical address is stored in the first layer.
Discriminating means for discriminating which of the layer is recorded on the second layer and the second layer. In a state where the discriminating means determines that the data is recorded on the second layer, the externally set logical address and , The first
The physical address of the recording position on the second layer of the data specified by the logical address based on the last physical address of the data area of the second layer and the start physical address of the data area of the second layer. After calculating and determining that the logical address is recorded on the first layer by the determination means, the externally set logical address is replaced with the recording position of the data designated by the logical address on the first layer. A multi-layer optical disc reproducing apparatus comprising: a calculating means for setting a physical address. 3. A multi-layer optical disc reproducing apparatus for reproducing data specified by an externally set logical address from a multi-layer optical disc of an opposite format having a physical address continuously increasing from a first layer to a second layer. By comparing the externally set logical address with the final physical address of the data area of the first layer, the data specified by the logical address is stored in the first layer.
Discriminating means for discriminating which of the layer is recorded on the second layer and the second layer. In a state where the discriminating means determines that the data is recorded on the second layer, the externally set logical address and , The first
Based on the final physical address of the data area of the layer
The physical address of the recording position of the data specified by the logical address on the second layer is calculated, and the external setting is performed in a state where the determination unit determines that the data is recorded on the first layer. Arithmetic means for setting a logical address as a physical address of a recording position of the data specified by the logical address on the first layer, the multi-layer optical disk reproducing apparatus comprising: