JP4175344B2 - Optical disc and optical disc playback apparatus - Google Patents

Description

  The present invention operates in accordance with optical discs such as various DVD discs including DVD-ROM (Digital Versatile Disk Read Only Memory), DVD-R (Recordable), and DVD-RW (Rewriteable), and information recorded on the optical disc. Optical disk drive apparatus and optical disk drive method, data processing apparatus connected to the optical disk drive apparatus, optical disk recording apparatus or reproduction apparatus equipped with the optical disk drive apparatus (the one that performs at least one of recording and reproduction on an optical disk The present invention also relates to an operation test optical disc and an operation test method.

  The technologies that make it possible to easily and accurately determine the physical characteristics of a disc or unit area while maintaining compatibility with existing format discs include recording medium material information, type information, linear velocity information, and track pitch information. In addition, there is one in which physical characteristic information such as moment of inertia information, shape or size is recorded in a subcode in a disk format, and the recording device or reproducing device reads the subcode (for example, patents) Reference 1).

JP 2001-312860

  When recording or reproducing a plurality of optical disks having different physical characteristics or one optical disk having different physical characteristics for each area, it is necessary to realize recording and reproduction control suitable for both optical disks and each area.

However, in the above prior art, the physical characteristic information is recorded in the subcode of the disc. However, if the recording density is different as the physical characteristic, the physical characteristic information itself may not be read. Appropriate recording and playback control is not possible.
This problem is particularly noticeable in a hybrid optical disc in which a standard density recording area and a high density recording area are introduced in one optical disc, which has been proposed as a next generation optical disc.
In such a hybrid optical disc, an optical pickup designed to be suitable for a standard density recording area cannot perform a desired operation in the high density recording area, and may cause a malfunction. For example, the linear recording density is different in the high-density area, so the linear velocity cannot be detected, the disk rotation control becomes impossible, the disk rotation motor runs away, and the tracking operation becomes impossible because the track density is different. There is a possibility that an overcurrent flows through the actuator and the tracking actuator burns out.

  In addition to the case where the recording density is different as a physical characteristic, a problem may arise when the allowable reproduction power is different. For example, in a recordable or rewritable optical disc in which the maximum value of the reproduction power is defined in advance, if it is repeatedly reproduced with a reproduction power that is equal to or greater than the prescribed value, the recorded information is erased.

  Therefore, the present invention prevents an optical disk drive device from damaging a disk or an optical disk drive apparatus itself, and enables optimal control, an optical disk drive apparatus and an optical disk drive method, and data processing connected to the optical disk drive apparatus. It is an object of the present invention to provide an apparatus, an optical disk recording / reproducing apparatus including an optical disk drive, an optical disk for operation test, and an operation test method.

  The present invention is an optical disc used in an optical disc drive device in which information is accessed by an optical head and the accessed information is read out, and the optical disc drive device can access a specific area of the optical disc. An optical disc characterized in that access operation identification information indicating whether or not there is is held in a second area other than the specific area.

  According to the present invention, it is possible to prevent the optical disc from being damaged by the optical disc driving device and the optical disc driving device itself, and to perform optimal control.

Embodiments according to the present invention will be described below with reference to the drawings.
Embodiment 1
FIG. 1 is a diagram showing a recording area format of the optical disc 1 in the present embodiment. As shown in FIG. 1A, the optical disc 1 has a BCA (Burst Cutting Area) area 20 in which information after the production of the optical disc 1 is recorded, and physical characteristic information of the optical disc 1 from the inner circumference side to the outer circumference side. A lead-in area 21 to be recorded, a user data area 22 in which the content data main body is recorded, and a lead-out area 23 in which the same contents as the lead-in area 21 are recorded. The optical disk 1 is reproduced in order from the inner circumference side by the optical disk drive device.
As shown in FIG. 1B, operation management information 24 for managing and controlling the operation of the optical disk drive for reproducing the optical disk 1 is recorded in the lead-in area 21.

  FIG. 1C shows the recording format of the operation management information 24. In FIG. 1 (c), the operation management information 24 includes identification information 25, 28... That defines an operation performed by the optical disk drive when reproducing the optical disk 1, and the identification information 25, 28. When the optical disk drive device cannot be understood, the operation definitions 26, 29,... That define the operations performed by the optical disk drive device, and reserve areas 27, 30,. It consists of and. The optical disk 1 can define a plurality of identification information 25, 28,... For various operations performed by the optical disk drive.

  Here, as shown in FIG. 1 (d), the operation management information for the identification information A25 and the operation definition A26 is an access for managing the access operation (seek operation) by the optical head of the optical disk drive device with respect to the user data area 22. Operation management information. That is, the identification information A25 describes the access operation identification information 31 that is an identification code for the access operation by the optical head of the optical disk drive, and the operation definition A26 contains the optical disk 1 on which the optical disk drive is mounted. If the access operation identification information 31 cannot be understood, an access operation prohibition bit 32 that defines whether to prohibit the access operation to the user data area 22 is assigned. Therefore, when the optical disk drive device cannot understand the access operation identification information 31 of the mounted optical disk 1 and confirms that the access operation prohibition bit 32 is “1”, the optical disk drive device moves to the user data area 22. The access operation is stopped and the reading operation by the optical head is not performed. Even if the access operation identification information 31 of the mounted optical disk 1 cannot be understood, if the access operation prohibition bit 32 is “0”, the optical disk drive device continues normal operation as it is. If the access operation identification information 31 can be understood, the normal operation is continued without reading the access operation prohibition bit 32.

In the present embodiment, the operation management information 24 is recorded in the lead-in area 21, but may be recorded in the BCA area 20 and the lead-out area 23.
In addition, when the optical disk drive confirms that the access operation prohibition bit 32 is “1”, the access operation to the user data area 22 is stopped, but even the remaining lead-in area 21 is read. Instead, the access operation may be stopped immediately.
Although the optical disk 1 is exemplified as a read-only optical disk such as a DVD-ROM disk, in this case, the operation management information 24 is preferably recorded in advance by the optical disk manufacturer.

  According to the present embodiment, the user can read the operation management information 24 in the lead-in area 21 by reading the operation management information 24 in the lead-in area 21 even when the optical disk 1 contains information that cannot be read by the optical disk drive device due to a version upgrade or the like. Since the access operation itself by the optical head to the data area 22 can be prohibited, the contents of the optical disk can be protected, and the worst situation such as damage to the optical disk can be avoided.

Embodiment 2
FIG. 2 is a block diagram showing the configuration of the optical disc driving apparatus 100 corresponding to the optical disc 1 of the first embodiment.
As shown in FIG. 2, the optical disc 1 is read by an optical pickup (PU) 2 and amplified by an RF signal processing unit 5. Then, the reproduction RF signal output from the RF signal processing unit 5 is generated to the binarization unit 6, and a signal such as a tracking error signal and a focus error signal that can be used for servo control is generated to the servo processor 13. Supplied.
The servo processor 13 generates a focus drive signal and a tracking drive signal according to the tracking error signal and the focus error signal supplied from the RF signal processing unit 5 and supplies them to the two-axis driver 15. The biaxial driver 15 drives the focus coil and tracking coil in the light PU 2 to control focus and tracking.

The operation at the time of access (seek) to a desired address is performed as follows. The servo processor 13 generates a thread control signal based on a thread error signal obtained as a low frequency component of the tracking error signal supplied from the RF signal processing unit 5, an access execution control from the system controller 12, and the like. 14. The sled driver 14 drives the sled 3 according to the sled control signal, so that the light PU2 is slid.
During reproduction, the optical disk 1 is controlled to rotate at a constant speed or a constant angular speed by driving the spindle motor 4 in accordance with a control signal from the spindle motor (SPM) driver 16. Further, in response to the laser control signal from the system controller 12, the automatic laser power control unit (ALPC) 11 performs reading from the light PU2 with a predetermined reproduction laser power.
The optical head is constituted by the optical PU 2, the thread 3, and the spindle motor 4.

Next, an operation for reproducing information recorded on the optical disc 1 will be described.
The reproduced RF signal obtained by the RF signal processing unit 5 is digitized by the binarizing unit 6 and supplied to the encoding / decoding unit 7 as a modulation signal. The encoding / decoding unit 7 includes a functional part as a decoder during reproduction and a functional part as an encoder during recording. At the time of reproduction, the signal is demodulated and subjected to signal processing such as error correction and deinterleaving through the buffer memory 8 to decode the modulated signal. The decoded signal is output to the host 10 via the I / F 9 such as ATAPI. The system controller 12 transmits / receives commands and various information to / from the servo processor 13, the encode / decode unit 7, and the host 10.

An initial operation in the optical disc driving apparatus 100 will be described below.
First, when the optical disc 1 is inserted into the optical disc driving apparatus 100 and the power is turned on, the optical disc 1 is accessed in order from the inner periphery, and when access to a predetermined address in the lead-in area 21 is performed, encoding / decoding is performed. The unit 7 starts buffering data in the buffer memory 8, and error correction and deinterleave processing are performed on the reproduced information.

  As a result of error correction, the encoding / decoding unit 7 extracts the operation management information 24 from the information of the lead-in area 21 that has been correctly reproduced by the operation management information extraction unit 17 and outputs the operation management information 24 to the system controller 12. In the system controller 12, the operation management information analysis unit 18 analyzes the operation management information 24. Specifically, the system controller 12 first detects identification information 25, 28... Related to each operation management information 24, and the detected identification information 25, 28. If it can be understood, the normal operation is performed. If the identification information 25, 28,... Cannot be understood, control is performed so as to operate according to the operation definitions 26, 29,.

  When the detected identification information 25, 28,... Is the identification information 31 for the access operation management information, in the optical disc drive device 100 that cannot understand the operation corresponding to the identification information, an operation definition that defines the operation at that time. Follow the operation described in A26. When the access operation prohibition bit 32 is “1”, the servo control signal S1 is supplied to the servo processor 13 so as to prohibit the access operation to the user data area 22 other than the lead-in area 21. As a result, movement of the optical head to the user data area 22 is prohibited, and a still (still) reproduction operation is performed in the lead-in area 21.

As an example of prohibiting the access operation, a still (still) reproduction operation in the lead-in area 21 has been described. However, stop processing such as 1) and 2) below may be performed.
1) In response to the focus control signal from the servo processor 13, the biaxial driver 15 turns off the focus of the light PU2.
2) In response to the laser control signal S2 from the system controller 12, the automatic laser power controller (ALPC) 11 turns off the reproduction laser power and stops light emission.

  As a result of analysis of the access operation management information 24, when an access operation to the user data area 22 is possible, a read command is issued from the host 10 and information is reproduced.

  In the present embodiment, the case where the optical disk drive apparatus 100 is a recording / reproducing apparatus and the reproduction-only optical disk 1 is reproduced by the recording / reproducing apparatus has been described. However, a write-once type such as a DVD-R or a DVD-RW disk is described. The present invention can also be applied to optical discs and rewritable optical discs. When data is recorded on a write once optical disc or a rewritable optical disc, the data encoded and modulated by the encoding / decoding unit 7 is controlled by an automatic laser power control unit (ALPC) 11 to have a predetermined recording laser power. Recording with the optical PU2 is performed. The operation management information 24 is recorded in advance in the lead-in area 21 by the disk manufacturer. Alternatively, if there are two types of read-only area and write-once or rewritable area in the lead-in area 21, the disc manufacturer may record in the read-only area of the lead-in area 21 in advance. The optical disc drive apparatus 100 may record the operation management information 24 in the write-once or rewritable area of the lead-in area 21 according to the user's request or the type of data to be recorded. As a result of analysis of the operation management information 24 by the system controller 12, when an access operation to the user data area 22 is possible, a write command is issued from the host 10 and additional data is added to the user data area 22. Or rewriting is performed.

  Even when the information that cannot be read by the optical disk drive device is included in the optical disk 1 due to a version upgrade or the like, the access operation prohibition bit 32 is “1”. Since the access operation itself by the optical head to the user data area 22 is prohibited, the contents of the optical disk can be protected and the worst situation such as damage to the optical disk can be avoided.

Embodiment 3
An operation flow when the optical disc 1 of Embodiment 1 is loaded in the optical disc drive apparatus 100 will be described with reference to FIG.
When the optical disc 1 is loaded into the optical disc drive device 100, the optical disc drive device 100 performs various adjustments while automatically acquiring various information on the optical disc 1 regardless of commands from the host 10, and performing a series of startup operations. Run the sequence. During the startup operation sequence, the operation management information extracting unit 17 of the optical disc driving apparatus 100 acquires the operation management information 24 of the optical disc 1 and extracts the access operation identification information 31 (ST11), and the operation management information analyzing unit 18 Then, it is determined whether or not it matches the held identification information (ST12). When the identification information 31 matches, the access operation restriction on whether or not to prohibit the access operation is determined with reference to the operation definition held by the optical disc driving apparatus 100 (ST13). When the identification information 31 does not match, that is, when the optical disk drive device 100 cannot understand the access operation identification information 31, the operation definition 32 is acquired from the optical disk 1, and the access operation restriction is determined according to the operation definition 32 (ST14). . After determining the access operation restriction whether or not to prohibit the access operation in this way, it is determined whether the subsequent operation in the startup sequence violates this access operation restriction (ST15). If there is a conflict, that is, if the subsequent operation in the startup sequence is prohibited from the access operation, the access operation is not performed and the startup operation is stopped and the host 10 waits for a command from the host 10 (ST16). . On the other hand, if there is no conflict, the startup operation is continued, and finally the state shifts to a command waiting state from the host 10 and waits (ST17).

  Next, an operation flow when a command is received from the host 10 when the optical disc driving apparatus 100 is in a standby state after performing a series of startup operations as shown in FIG. 3 will be described with reference to FIG. . If the optical disk drive 100 has been activated and is waiting for a command from the host 10, when a command is received from the host 10 (ST21), does the command violate the access operation restriction determined in ST13 or ST14 at the time of activation? In the case of conflict, an error signal is output to the host 10 (ST23), and immediately, a transition is made to a command waiting state. On the other hand, if the access operation restriction determined at the time of activation is not violated, the execution of the command is performed (ST24), and the process waits again in the command waiting state.

  Even when the information that cannot be read by the optical disk drive device is included in the optical disk 1 due to a version upgrade or the like, the access operation prohibition bit 32 is “1”. Since control is performed to prohibit the access operation itself to the user data area 22 by the optical head, the contents of the optical disk can be protected, and the worst situation such as damage to the optical disk can be avoided.

Embodiment 4
In the present embodiment, a description will be given of a hybrid optical disc 40 in which a standard density recording area 41 and a high density recording area 42 having a higher linear recording density are mixed.
FIG. 5 is a diagram showing a recording area format of the optical disc 40 in the present embodiment. In FIG. 5A, a BCA area 43, a lead-in area 44, and a lead-out area 46 are standard density recording areas 41, and a user data area 45 is a high density recording area 42. The standard density recording area 41 is a read-only area, and the high density recording area 42 is a rewritable area.

In this embodiment, address information 50 is recorded in the operation management information 47 in addition to the access operation identification information 48, the access operation prohibition bit 49, and the reserved area 51. The access operation identification information 48, the access operation prohibition bit 49, and the reserved area 51 are the same as those described in the first embodiment.
As the address information 50, the final address of the lead-in area 44 is recorded as a logical address from the head of the lead-in area 44. However, the address information 50 may be a logical address or an absolute address.

FIG. 6 shows an operation flow when the optical disc 40 is reproduced by an optical disc driving apparatus. The configuration of the optical disk drive device is the same as that of the optical disk drive device 100 shown in the second embodiment.
In FIG. 6, ST11, ST12, and ST13 are the same as those in the third embodiment. When the optical disk drive device 100 cannot understand the access operation identification information 48, the operation management information extraction unit 17 of the optical disk drive device 100 acquires the operation definition 49 and the address information 50 from the optical disk 40 and accesses according to the operation definition 49. An operation restriction is determined (ST31). After the access operation restriction whether or not to prohibit the access operation is determined, it is determined whether or not the subsequent operation in the startup sequence violates this access operation restriction (ST15). If there is a conflict, that is, if the subsequent operation in the startup sequence is an access operation prohibition, the access operation is stopped according to the acquired address information 50, and the host 10 waits for a command from the host 10 (ST32). ). If there is no conflict, the startup operation is continued, and finally the state waits for a command from the host 10 (ST17). The subsequent operation flow is the same as that shown in FIG.

  As the hybrid optical disk 40, the standard density recording area 41 and the high density recording area 42 are mixed, but physical characteristics such as allowable reproduction power, material, linear velocity, track pitch, etc. are mutually different. It may have a different area. In this case, as the address value 50, a boundary address value having different physical characteristics or a final address that can be read by the optical disc driving apparatus 100 may be recorded.

In addition, although the reproduction-only area and the rewritable area are mixed, the reproduction-only area and the write-once area may be mixed, or the lead-in area as shown in the second embodiment. 44 and the lead-out area 46 may include both a read-only area and a rewritable area or a write-once area.
Furthermore, the entire disk surface is exclusively for reproduction, the recording density is not uniform, and the density of the recording area may change from the middle. Similarly, the entire disk surface may be rewritable and / or write once.

  This embodiment avoids the problem that recorded information disappears in a hybrid optical disc 40 in which a plurality of regions having different physical characteristics such as linear recording density are included in one optical disc. can do. Further, even in such an optical disk drive for reproducing or recording a hybrid optical disk, the disk rotation control becomes impossible and the disk rotation motor runs out of control, or the tracking operation becomes impossible and the tracking actuator burns out in the worst case. It is possible to avoid problems such as

Embodiment 5
FIG. 7 is a diagram showing a recording area format of the two-layer hybrid type optical disc 52 in the present embodiment. In FIG. 7A, the first layer 53 is a standard density recording area, and includes a BCA area 55, a lead-in area 56, and a part of user data area 57. The second layer 54 is a high-density recording area having a higher linear recording density, and includes a remaining user data area 58 and a lead-out area 59. That is, the user data areas 57 and 58 are divided into the first layer 53 and the second layer 54 and have different linear recording densities. The user data areas 57 and 58 are rewritable areas, and the other areas are reproduction-only areas. The addresses of the first layer 53 are assigned in order from the inner periphery to the outer periphery, and the addresses of the second layer 54 are assigned in order from the outer periphery to the inner periphery.

7B and 7C, the operation management information 60 in the lead-in area 56 includes access operation identification information 61, an access operation prohibition bit 62, address information 63, and a reserve area 64. The access operation identification information 61, the access operation prohibition bit 62, and the reserved area 64 are the same as those described in the first embodiment.
As the address information 63, the final address of the first layer 53, that is, the boundary address having a different linear recording density is recorded as the logical address from the head of the user data area 57. However, as in the fourth embodiment, the address information 63 may be a logical address or an absolute address.
The operation flow when the optical disk 52 is reproduced by the optical disk drive is the same as that of the fourth embodiment.

  As the two-layer hybrid optical disc 52, the first layer 53 is a standard density recording area and the second layer 54 is a high density recording area. However, the first layer 53 is a high density recording area and the second layer 54 is a second recording medium. The layer 54 may be a standard density recording area. Further, although the two-layer hybrid optical disc 52 has been shown in which a standard density recording area and a high density recording area are mixed, similar to the fourth embodiment, allowable reproduction power, material, linear velocity, track It may have layers having different physical properties such as pitch. In this case, as the address value 63, an address value at a boundary having different physical characteristics or a final address that can be read by the optical disc driving apparatus 100 may be recorded.

In addition, although the reproduction-only area and the rewritable area are mixed, the reproduction-only area and the write-once area may be mixed, or the lead-in area as shown in the second embodiment. 56 and the lead-out area 59 may include both a read-only area and a rewritable area or a write-once area.
Furthermore, the entire disk surface is exclusively for reproduction, the recording density is not uniform, and the density of the recording area may change from the middle. Similarly, the entire disk surface may be rewritable and / or write once.
In addition, although the number of layers is two, the number may be two or more, and is not limited thereto.

  By reading the operation management information 60 on the two-layer hybrid optical disc 52 in which a plurality of regions having different physical characteristics such as linear recording density are recorded in two layers according to the present embodiment, the user data region Since the access operation itself to the optical head 57 or 58 by the optical head can be prohibited, it is possible to avoid the problem that recorded information disappears. Further, even in such an optical disk drive for reproducing or recording the two-layer hybrid optical disk 52, the disk rotation control becomes impossible and the disk rotation motor runs out of control or the tracking operation becomes impossible and the tracking is performed in the worst case. Problems such as actuator burnout can be avoided.

Embodiment 6
In the present embodiment, the case where identification information indicating the type of the optical disc itself, that is, identification information indicating a hybrid optical disc is recorded as the identification information in the operation management information.
FIG. 8 is a diagram showing a recording area format of the optical disc 70 in the present embodiment. In FIG. 8A, a BCA area 73, a lead-in area 74, and a lead-out area 76 are standard density recording areas 71, and a user data area 75 is a high density recording area 72. The standard density recording area 71 is a read-only area, and the high density recording area 72 is a rewritable area.

In the present embodiment, disc identification information 78 indicating a hybrid type optical disc is recorded in the operation management information 77 instead of the access operation identification information 48 of the fourth embodiment. The access operation prohibition bit 49 and the reserved area 51 included in the operation management information 77 of FIGS. 8B and 8C are the same as those described in the fourth embodiment. That is, this embodiment is the same as the fourth embodiment except that disc identification information 78 indicating a hybrid type optical disc is recorded instead of the access operation identification information 48 of the fourth embodiment.
As an operation flow when the optical disk 70 is reproduced by the optical disk drive device, the operation management information extraction means 17 of the optical disk drive device 100 acquires the operation management information 77 of the optical disk 70 in ST11 and ST12 of the third embodiment. Except that the disk identification information 78 is extracted and it is determined whether or not it matches the identification information held by the operation management information analysis means 18, the same as in the third embodiment.

  According to the present embodiment, even when an optical disc of a type that cannot be reproduced by the optical disc drive apparatus 100 is reproduced, the access operation itself by the optical head to the user data area 75 is performed by reading the operation management information 77. Since the content can be prohibited, the contents of the optical disk can be protected, and the worst situation such as damage to the optical disk can be avoided. Also in such an optical disk drive for reproducing or recording the hybrid optical disk 70, the disk rotation control becomes impossible and the disk rotation motor goes out of control, or the tracking operation becomes impossible and the tracking actuator burns out in the worst case. It is possible to avoid problems such as

Embodiment 7
In the present embodiment, a case where identification information indicating a version of a standard document is recorded as identification information will be described.
FIG. 9 is a diagram showing a recording area format of the optical disc 80 in the present embodiment. In FIG. 9A, a BCA area 83, a lead-in area 84, and a lead-out area 86 are standard density recording areas 81, and a user data area 85 is a high density recording area 82. The standard density recording area 81 is a read-only area, and the high density recording area 82 is a rewritable area.

In the present embodiment, the operation management information 87 records identification information 88 indicating the version of the standard document that the optical disc 80 complies with. The access operation prohibition bit 49 and the reserved area 51 included in the operation management information 87 in FIGS. 8B and 8C are the same as those described in the fourth embodiment. That is, this embodiment is the same as the fourth embodiment except that the identification information 88 indicating the version of the standard document that the optical disc 80 complies with is recorded instead of the access operation identification information 48 of the fourth embodiment.
As an operation flow when the optical disc 80 is reproduced by the optical disc driving apparatus 100, the operation management information extracting means 17 of the optical disc driving apparatus 100 acquires the operation management information 87 of the optical disc 80 in ST11 and ST12 of the third embodiment. The standard version identification information 88 is extracted, and it is the same as in the third embodiment, except that it is determined whether or not it matches the identification information held by the operation management information analysis means 18.

In the sixth and seventh embodiments, the case where the address information is not recorded in the operation management information 77 and 87 has been described. Needless to say, the address information may be recorded.
In the sixth and seventh embodiments, the case where the disc identification information 78 or the standard version identification information 88 is recorded has been described. However, the multilayer structure information, the recording density information, the linear velocity information, the track pitch information, and the maximum reproduction power. It may also be identification information indicating other physical characteristics of the optical disc, such as maximum write power (recording power).

  According to the present embodiment, even when the optical disc 80 of the standard document version that is not supported by the optical disc driving apparatus 100 is reproduced, the access operation by the optical head to the user data area 85 is read by reading the operation management information 87. Since the content itself can be prohibited, the contents of the optical disk 80 can be protected, and the worst situation such as damage to the optical disk can be avoided. Further, even in an optical disk drive that reproduces or records a standard version of the optical disk 80 that is not supported by such an optical disk drive, the disk rotation control becomes impossible and the disk rotation motor runs out of control or the tracking operation cannot be performed. In the worst case, problems such as burning of the tracking actuator can be avoided.

Embodiment 8
FIG. 10 is a diagram showing a recording area format of the optical disc 101 in the present embodiment. In FIG. 10A, a BCA area 120, a lead-in area 121, a user data area 122 in which the content data body is recorded, and a lead-out area 123 in which the same contents as the lead-in area 121 are recorded. .
As shown in FIG. 10B, in the lead-in area 121, operation management information 124 for managing and controlling the operation of the optical disk drive for reproducing the optical disk 101 is recorded.

  FIG. 10C shows the recording format of the operation management information 124. 10C, the operation management information 124 includes parameter information 125, 128... In which parameters of the optical disc are recorded when the optical disc 101 is reproduced, and the conditions of the parameter information 125, 128. When the drive device cannot be satisfied, the operation definitions 126, 129,... Defining the operations performed by the optical disk drive device, and the reserve areas 127, 130,. It is composed of

  Here, as shown in FIG. 10 (d), the operation management information for the parameter information P125 and the operation definition P126 is an access for managing the access operation (seek operation) by the optical head of the optical disk drive device with respect to the user data area 122. Operation management information. That is, the parameter information P125 describes the maximum reproduction power parameter information 131 for laser emission when the optical disc 101 is read. The operation definition P126 defines an access operation prohibition that defines whether or not the access operation to the user data area 122 is prohibited when the optical disk drive device cannot satisfy the condition of the maximum reproduction power parameter information 131 of the mounted optical disk 101. Bit 132 is assigned. For example, when the maximum reproduction power parameter information 131 of the optical disc 101 is N and the optical disc driving apparatus can only set the reproduction power up to M (M> N), the reproduction specified as the maximum reproduction power parameter information 131 of the optical disc 101 The optical disk drive apparatus cannot satisfy the power condition N.

  When the optical disk drive device cannot satisfy the condition of the maximum reproduction power parameter information 131 of the loaded optical disk 101 and confirms that the access operation prohibition bit 132 is “1”, the user data area 122 The access operation to the is stopped, and the reading operation by the optical head is not performed. Even if the condition of the maximum reproduction power parameter information 131 of the loaded optical disk 101 cannot be satisfied, if the access operation prohibition bit 132 is “0”, the optical disk drive device continues normal operation as it is. If the maximum reproduction power parameter information 131 can be satisfied, the normal operation is continued without reading the access operation prohibition bit 132.

  According to the present embodiment, an access operation itself to the user data area 122 is prohibited for an optical disk drive device that cannot satisfy the maximum reproduction power parameter information 131 and can read the optical disk 101 only with a reproduction power higher than that. Therefore, it is possible to avoid the worst situation such as damaging the contents of the optical disc with overpower or erasing the recorded information.

  In the present embodiment, the case where the maximum reproduction power parameter information 131 is recorded as the parameter information 125, 128... Is shown, but the maximum value of the write power (recording power) may be recorded. Further, it may be parameter information of other optical disc 101 that affects recording conditions or reproducing conditions by the optical disc driving apparatus, or parameter information of recording conditions or reproducing conditions themselves.

  In the sixth and seventh embodiments, the maximum reproduction power and the maximum write power (recording power) may be recorded as identification information indicating the physical characteristics of the optical disc. However, in the sixth and seventh embodiments, In contrast to prohibiting the optical head access operation when the optical disk drive device cannot understand the maximum reproduction power and maximum write power, the eighth embodiment prohibits conditions for the maximum reproduction power and maximum write power (recording power). Is different in that the access operation of the optical head is prohibited when the optical disk drive is not satisfied.

Embodiment 9
The operation when the optical disc 101 according to the eighth embodiment is inserted into the optical disc drive apparatus 100 according to the second embodiment will be described with reference to FIG.
The encoding / decoding unit 7 extracts the operation management information 124 from the optical disc 101 by the operation management information extraction unit 17 and outputs it to the system controller 12. In the system controller 12, the operation management information analysis unit 18 analyzes the operation management information 124. Specifically, the system controller 12 first detects the parameter information 125, 128... Related to each operation management information 124, and the optical disk drive device 100 can satisfy the conditions of the detected parameter information 125, 128. If the parameter information 125, 128... Cannot be satisfied, control is performed so as to operate according to the operation definitions 126, 129.

  When the maximum reproduction power parameter information 131 is detected, the maximum reproduction power corresponding to the parameter information 131 cannot be set, and the optical disc driving apparatus 100 that can operate only with a reproduction power larger than the maximum reproduction power parameter information 131 The operation described in the operation definition P126 in which the operation is defined is followed. When the access operation prohibition bit 132 is “1”, the servo control signal S1 is supplied to the servo processor 13 so as to prohibit the access operation to the user data area 122 other than the lead-in area 121. As a result, movement of the optical head to the user data area 122 is prohibited, and a still (still) reproduction operation is performed in the lead-in area 121.

As an example of prohibiting the access operation, the still (still) reproduction operation in the lead-in area 121 has been described. However, stop processing such as the above 1) and 2) described in the second embodiment may be performed.
As a result of the analysis of the access operation management information 124, when an access operation to the user data area 122 is possible, a read command is issued from the host 10 and information is reproduced.

  According to the present embodiment, even when the maximum reproduction power parameter information 131 cannot be satisfied and the optical disk 101 can be read only with a reproduction power higher than that, the access operation itself to the user data area 122 is prohibited. Can be prevented from being damaged due to overpower, or the recorded information may be lost.

Embodiment 10
An operation flow when the optical disc 101 of the eighth embodiment is loaded in the optical disc driving apparatus 100 will be described with reference to FIG. Steps denoted by the same reference numerals as those in FIG. 3 are the same as those in FIG.
During the startup operation sequence, the operation management information extraction unit 17 of the optical disc driving apparatus 100 acquires the operation management information 124 of the optical disc 101 and extracts the maximum reproduction power parameter information 131 (ST40). The operation management information analyzing means 18 determines whether or not the optical disc driving apparatus 100 satisfies the condition of the maximum reproduction power parameter information 131 by comparing with the held parameter information (ST41). When the maximum reproduction power parameter information 131 is satisfied, the optical disk drive device 100 refers to the condition defined in the maximum reproduction power parameter information 131 and the range of parameter information held in the optical disk drive device 100. The reproduction power is adjusted (ST42). If the optical disk drive device 100 cannot satisfy the conditions of the maximum reproduction power parameter information 131, that is, if the optical disk drive device 100 cannot set the maximum reproduction power under the conditions specified in the maximum reproduction power parameter information 131, the operation starts from the optical disk 101. The definition 132 is acquired, and the access operation restriction is determined according to the operation definition 132 (ST14). After determining the access operation restriction whether or not to prohibit the access operation in this way, it is determined whether the subsequent operation in the startup sequence violates this access operation restriction (ST15). If there is a conflict, that is, if the subsequent operation in the startup sequence is prohibited from the access operation, the access operation is not performed and the startup operation is stopped and the host 10 waits for a command from the host 10 (ST16). . On the other hand, if there is no conflict, the startup operation is continued, and finally the state shifts to a command waiting state from the host 10 and waits (ST17).
The operation flow when the command is received from the host 10 in the standby state in this way is the same as that in FIG. 4 described in the third embodiment.

  According to the present embodiment, even when the maximum reproduction power parameter information 131 cannot be satisfied and the optical disk 101 can be read only with a reproduction power higher than that, the access operation prohibition to the user data area 122 is restricted. Can be prevented from being damaged due to overpower, or the recorded information may be lost.

Embodiment 11
In the present embodiment, as the access operation identification information shown in the above embodiment, the reproduction identification information indicating whether or not the information recorded in the specific area of the optical disc can be reproduced under the reproduction condition of the optical disc driving apparatus is recorded. Show about.
FIG. 12 is a diagram showing a recording area format of the optical disc 140 in the present embodiment. In FIG. 12A, a BCA area 143, a lead-in area 144, and a lead-out area 146 are standard density recording areas 141, and a user data area 145 is a high density recording area 142. The standard density recording area 141 is a read-only area, and the high density recording area 142 is a rewritable area.

  In the present embodiment, the operation management information 147 records reproduction identification information 148 indicating whether or not the information recorded in the user data area 145 of the optical disc 140 can be reproduced under the reproduction conditions of the optical disc driving apparatus. . The reproduction identification information 148 includes, as illustrated in FIG. In the case of 4.0, this is information indicating whether or not the optical disc driving device designed in conformity with the standard document defined in the previous version can reproduce the optical disc 140 under the reproducing conditions of the optical disc driving device. . In the case shown in FIG. 13, the version of the standard document is Ver. Since the optical disc 140 recorded in the 4.0 format has the reproduction identification information 148 of 1, the version of the standard document is Ver. The reproduction is not possible under the reproduction conditions of the optical disc driving apparatus designed based on 1.0 or 2.0 and having the reproduction identification information 0. However, in this case, the version of the standard document is Ver. In the optical disk drive device designed in conformity with 3.0, the reproduction identification information is 1, so that reproduction is possible.

The access operation prohibition bit 49 and the reserved area 51 included in the operation management information 147 of FIGS. 12B and 12C are the same as those described in the fourth embodiment. That is, the embodiment is the same as the access operation identification information 48 of the fourth embodiment except that the reproduction identification information 148 indicating whether or not the information recorded in the user data area 145 of the optical disc 140 can be reproduced is recorded. The same as 4.
As an operation flow when the optical disc 140 is reproduced by the optical disc driving apparatus 100, the operation management information extracting means 17 of the optical disc driving apparatus 100 acquires the operation management information 147 of the optical disc 140 in ST11 and ST12 of the third embodiment. The third embodiment is the same as the third embodiment except that the reproduction identification information 148 is extracted and it is determined whether or not it corresponds to the identification information held by the operation management information analysis means 18.

  Here, the playback identification information 148 is updated for an optical disk that cannot be played back unless the optical disk drive changes the playback conditions. The update is performed when the standard creator or the revision person changes the physical characteristics of the optical disc so that the reproduction is not possible unless the reproduction conditions of the optical disc driving apparatus are changed, at the time of creating or revising the standard. For example, when the maximum laser power value at the time of reproduction is greatly changed, such as an optical disc composed of a plurality of regions having a linear density, such as a hybrid type optical disc or a two-layer hybrid type optical disc as described in Embodiments 4 and 5 It becomes a target.

  In the present embodiment, the case where the address information is not recorded in the operation management information 147 has been described, but it goes without saying that the address information may be recorded.

  According to the present embodiment, even when playing back an optical disc 140 that is incompatible with playback that cannot be played back unless the playback conditions are changed by the optical disc drive device, the operation management information 147 is read to the user data area 145. Since the access operation (seek operation) itself by the optical head can be prohibited, the contents of the optical disk 140 can be protected, and the worst situation such as damage to the optical disk can be avoided. Further, even in the optical disk drive that drives the optical disk 140 that is not compatible with reproduction identification information 148, the disk rotation control becomes impossible and the disk rotation motor runs out of control or the tracking operation becomes impossible. In the worst case, problems such as burning of the tracking actuator can be avoided.

  In the present embodiment, the playback identification information 148 has been described. However, the recording identification information may indicate whether or not recording is possible in the user data area 145 (specific area) of the optical disk under the recording conditions of the optical disk drive. . That is, both the reproduction identification information 148 and the recording identification information are access operation identification information indicating whether or not access to the user data area 145 of the optical disc is possible, and operation management information 147 including such access operation identification information. Is held on the optical disc, the contents of the optical disc 140 can be protected during reproduction or recording, and the worst situation such as damage to the optical disc can be avoided.

Embodiment 12
In the following embodiment, a case will be described in which disc management information having reproduction identification information is held as identification information without holding the operation definition, instead of operation management information having identification information and an operation definition.
FIG. 14 is a diagram showing a recording area format of the optical disc 201 in the present embodiment. As shown in FIG. 14A, the optical disc 201 has a BCA (Burst Cutting Area) area 220 in which information after the production of the optical disc 201 is recorded, and physical characteristic information of the optical disc 201 from the inner circumference side to the outer circumference side. A lead-in area 221 to be recorded, a user data area 222 in which the content data main body is recorded, and a lead-out area 223 in which the same contents as the lead-in area 221 are recorded. The optical disc 201 is played back in order from the inner circumference side by the optical disc driving device.
As shown in FIG. 14B, in the lead-in area 221, disc management information 224 for managing information on the optical disc when the optical disc 201 is reproduced is recorded.

  FIG. 14C shows the recording format of the disc management information 224. In FIG. 14C, the disc management information 224 includes playback identification information 225 indicating whether or not the information recorded in the user data area 222 of the optical disc 201 can be played back under the playback conditions of the optical disc drive apparatus. . This reproduction identification information 225 is the same as the reproduction identification information 148 shown in the eleventh embodiment, except that the access operation definition 49 is not held. Since the optical disk drive that does not correspond to the reproduction identification information 225 recorded in the disk management information 224 is not compatible with the optical disk 201, the access operation by the optical head of the optical disk drive to the user data area 222 is performed. Is prohibited.

  Here, the playback identification information 225 is updated for an optical disk that cannot be played back unless the optical disk drive changes the playback conditions. The update is performed when the standard creator or the revision person changes the physical characteristics of the optical disc so that the reproduction is not possible unless the reproduction conditions of the optical disc driving apparatus are changed, at the time of creating or revising the standard. For example, when the maximum laser power value at the time of reproduction is greatly changed, such as an optical disc composed of a plurality of regions having a linear density, such as a hybrid type optical disc or a two-layer hybrid type optical disc as described in Embodiments 4 and 5 It becomes a target.

  For example, assume an optical disk drive capable of reproducing an optical disk on which the entire surface of the optical disk is recorded with a standard density. For the hybrid type optical disc having the standard density recording area and the high density recording area shown in the fourth embodiment, the optical disc driving apparatus must have reproduction conditions different from the standard density recording area in the high density recording area. The disk rotation control becomes impossible and the disk rotation motor runs away, or the tracking operation becomes impossible and the tracking actuator burns out in the worst case. When the reproduction condition needs to be changed in this way, the reproduction identification information 225 is changed.

Alternatively, in the case of an optical disc having a different maximum reproduction power parameter as shown in the eighth embodiment, if the maximum reproduction power parameter becomes smaller than that of an existing optical disc, the optical disc drive device does not have information unless the reproduction power is reduced. Since a problem such as disappearance may occur, the reproduction identification information 225 is changed to change the reproduction condition.
When such an optical disc 201 is reproduced by the optical disc drive before the reproduction identification information 225 is updated, the optical disc drive does not support the reproduction identification information 225 recorded on the optical disc 201. The user data area 222 is not accessed by the optical head of the optical disk drive.

  In FIG. 14C, the disc management information 224 includes disc category information 226 and version information 227 in addition to the reproduction identification information 225 described above. The disc category information 226 is information indicating which category the optical disc belongs to, which is a read-only optical disc, a write-once optical disc, or a rewritable optical disc. The version information 227 is information indicating the version of the standard document that the optical disc complies with.

  Regarding the relationship between the reproduction identification information 225, the disc category information 226, and the version information 227, the disc category information 226 represents the largest type of the disc, and the version information 227 represents the smallest type. That is, in the disc category represented by the disc category information 226, the reproduction identification information 225 indicates whether or not the reproduction compatibility is present. In the reproduction compatibility represented by the reproduction identification information 225, the version information 227 is delimited by the version of the standard document. . Therefore, as already described with reference to FIG. 13, in two optical discs having different version information 227, even if one optical disc has the version information 227 updated as compared to the other, reproduction compatibility is maintained. For example, it is not necessary to update the reproduction identification information 225.

In the present embodiment, the disc management information 224 is recorded in the lead-in area 221, but may be recorded in the BCA area 220 and the lead-out area 223.
In the case of an optical disc composed of a plurality of regions having a linear density, the reproduction identification information 225 is recorded in a region having a lower linear density, preferably a region having the lowest linear density. For example, assume an optical disk drive device corresponding to the optical disk 202 shown in FIG. 15A, which includes standard density regions 203 and 205 and a slightly higher linear density region 204. The optical disk 206 having an overall recording density higher than that of the optical disk 202 includes slightly higher linear density regions 207 and 209 and an ultra-high density region 208 as shown in FIG. When the optical disk drive device corresponding to the optical disk 202 is an old one that does not support the reproduction identification information 225 of the optical disk 206, the ultra-high density area 208 corresponding to the user data area cannot be read, but a slightly higher line Since the density areas 207 and 209 can be reproduced, the reproduction identification information 225 can be read at a minimum, and access to the ultra-high density area 208, which is a user data area, can be reliably prohibited.

  Furthermore, in the case of an optical disc composed of a reproduction-only area and a rewritable area or a writable area, the reproduction identification information 225 is recorded in the reproduction-only area. When the optical disc is a rewritable disc or a write-once disc, at least the lead-in area 221 and the lead-out area 223 in FIG. 14 described above include a reproduction-only area that is not rewritable. By reading the reproduction identification information 225, the access to the user data area 222 can be surely prohibited.

In the above embodiment, the case where it is confirmed that the optical disk drive device does not support the reproduction identification information 225 and the access operation to the user data area 222 is stopped is shown, but even the remaining lead-in area 221 is read. Instead, the access operation may be stopped immediately.
Although the optical disc 201 is exemplified as a read-only optical disc such as a DVD-ROM disc, in this case, the disc management information 224 is preferably recorded in advance by the optical disc manufacturer.

  According to the present embodiment, even when the optical disc 201 having no playback compatibility that cannot be played back unless the playback condition is changed is read by the optical disc drive device, by reading the playback identification information 225 in the lead-in area 221, Since the access operation itself by the optical head to the user data area 222 can be prohibited, the contents of the optical disk can be protected, and the worst situation such as damage to the optical disk can be avoided. Further, by providing the reproduction identification information 225 separately from the version information of the standard document itself, it is possible to determine whether or not there is reproduction compatibility if only the reproduction identification information 225 is read. Can be done.

In the present embodiment, the reproduction identification information 225 has been described. However, as with the eleventh embodiment, it may be recording identification information.
The version information 227 may be changed each time the standard document is upgraded. However, the changed part of the standard document is very small, and the same version information can be reproduced and recorded. It is good also as not changing, when not affecting. In this case, the reproduction compatibility can be maintained, but the recording compatibility cannot be maintained. For example, recording using a part of the recording conditions used in the old type optical disk drive (conditions in high-speed recording, etc.) is performed. It is good also as updating only when it cannot be performed.

As the version information 227, when the optical disc complies with a plurality of standards, the versions of a plurality of standards may be recorded. In this case, it may be recorded together with information indicating the type of standard so that a plurality of standards can be identified.
In addition, the disk management information 224 may include information regarding the capacity of the disk and the maximum transfer rate.

  By holding access operation identification information such as the above-mentioned reproduction identification information and recording identification information on the optical disc, the contents of the optical disc 201 can be protected during reproduction or recording, and the worst situation such as damage to the optical disc can be avoided. Can do. In addition, by providing such access operation identification information separately from the version information of the standard document itself, whether only the access operation identification information is read is reproduction compatible or record compatible, that is, whether access is possible. Therefore, the optical disk drive device and the optical disk can be effectively protected.

Embodiment 13
FIG. 16 is a block diagram showing the configuration of an optical disk drive device 230 corresponding to the optical disk 201 of the twelfth embodiment. Since the operations of the second embodiment with the same reference numerals as those in FIG.

As a characteristic operation, an initial operation in the optical disk drive device 230 will be described below.
First, when the optical disk 201 is inserted into the optical disk drive 230 and the power is turned on, the optical disk 201 is accessed in order from the inner periphery, and when access to a predetermined address in the lead-in area 221 is performed, the encoding / decoding is performed. The unit 231 starts buffering of data to the buffer memory 8, and error correction and deinterleave processing are performed on the reproduced information.

  The encode / decode unit 231 extracts the disk management information 224 from the information of the lead-in area 221 that has been correctly reproduced as a result of error correction, and outputs the disk management information 224 to the system controller 233. In the system controller 233, the disk management information analysis unit 234 analyzes the disk management information 224. Specifically, the system controller 233 first detects the reproduction identification information 225 recorded in the disc management information 224.

  When the optical disk drive 230 does not correspond to the detected reproduction identification information 225, that is, the reproduction identification information held by the system controller 233 itself of the optical disk drive 230 is compared with the reproduction identification information 225 extracted from the optical disk 201. Thus, when the reproduction identification information 225 extracted from the optical disc 201 is updated to a new number, or when the optical disc drive device 230 itself does not have the reproduction identification information, the reproduction condition for the optical disc 201 is changed. This means that playback compatibility is not guaranteed for reasons such as the change being made, and the servo control signal S1 is servoed to prohibit access (seek) operations to the user data area 222 other than the lead-in area 221. Supplied to the processor 13. As a result, movement of the optical head to the user data area 222 is prohibited, and a still (still) reproduction operation is performed in the lead-in area 221.

As a method of prohibiting the access (seek) operation, as shown in the second embodiment, stop processing such as 1) and 2) below may be performed.
1) In response to the focus control signal from the servo processor 13, the biaxial driver 15 turns off the focus of the light PU2.
2) In response to the laser control signal S2 from the system controller 233, the automatic laser power control unit (ALPC) 11 turns off the reproduction laser power and stops light emission.

Further, the system controller 233 outputs to the host 10 an access prohibition interrupt signal S3 indicating that the optical disk is prohibited from accessing the user data area 222 as a result of the analysis of the disk management information 224. As a result, the host 10 can recognize that the reproduction compatibility of the loaded optical disk 201 is not guaranteed in the optical disk drive device 230.
As a result of the analysis of the disk management information 224, when an access (seek) operation to the user data area 222 is possible, a read command is issued from the host 10 and the information is reproduced.

Also in this embodiment, as in the above embodiment, access operation identification information such as recording identification information as well as reproduction identification information 225 may be used. In this case, the system controller 233 of the optical disc driving apparatus 230 compares the access operation identification information (reproduction identification information, recording identification information) held by the optical disc drive device 230 with the access operation identification information extracted from the optical disc 201 and performs the subsequent operations. It will be.
According to the present embodiment, when reproduction compatibility or recording compatibility cannot be guaranteed due to a version upgrade or the like, the access operation itself by the optical head to the user data area 222 is prohibited. Content can be protected, and the worst situation such as optical disk damage can be avoided.

Embodiment 14
The operation flow when the optical disk 201 of Embodiment 12 is loaded in the optical disk drive 230 will be described with reference to FIG.
When the optical disc 201 is loaded into the optical disc drive device 230, the optical disc drive device 230 automatically performs various adjustments while acquiring various information on the optical disc 201 regardless of commands from the host 10, and a series of startup operations. Run the sequence. During the startup operation sequence, the disc management information extraction unit 232 of the optical disc drive device 230 acquires the disc management information 224 of the optical disc 201 and extracts the reproduction identification information 224 (ST51), and the disc management information analysis unit 234 Comparison is made with reproduction identification information supported by the optical disk drive (ST52). If the reproduction identification information 224 extracted from the optical disc 201 is the reproduction identification information corresponding to the optical disc drive device 230, the optical disc drive device 230 continues the activation sequence (ST53). On the other hand, when the reproduction identification information 224 extracted from the optical disc 201 is reproduction identification information not supported by the optical disc drive device 230, the optical disc drive device 230 prohibits access to the user data area (ST54).

  Further, an operation flow when a command is received from the host 10 when the optical disk drive device 230 is in a standby state after performing a series of startup operations as shown in FIG. 17 will be described with reference to FIG. . When the optical disk drive 230 has been activated and is waiting for a command from the host 10, when a command is received from the host 10 (ST55), the command corresponds to the optical disk drive 230 determined in ST52 at the time of activation. (ST56), and if not, an error signal is output to the host 10 (ST58), and then immediately shifts to a command waiting state. On the other hand, if it is determined that the reproduction identification information corresponding to the optical disk drive device 230 determined at the time of activation is performed, the command is executed (ST57), and then it waits again in a command waiting state.

Also in the present embodiment, not only the reproduction identification information 225 but also the recording identification information may be used, as in the above embodiment.
According to the present embodiment, there is a case where information that cannot be read by the optical disk drive device is included in the optical disk 201 due to a version upgrade or the like, or a case where reproduction or recording cannot be performed under the reproduction condition or recording condition of the optical disk drive device. However, if the extracted access operation identification information as described above is information that is not supported by the optical disk drive device, the access operation by the optical head to the user data area 22 is controlled to be prohibited. The content of the optical disc can be protected at the time of recording or recording, and the worst situation such as damage to the optical disc can be avoided. Furthermore, the circuit scale can be reduced as compared with the above-described embodiment in which the operation definition is provided.

Embodiment 15
In this embodiment, the case where the optical disk drive device is connected to a data processing device such as a PC in the above embodiment will be described with reference to FIG. In FIG. 19, the configuration of the optical disk drive device 230 is simplified.
In FIG. 19, the optical disk drive device 230 is incorporated in the data processing device 240 and connected to the control means 241 of the data processing device 240. The control unit 241 controls not only the optical disk drive device 230 but also the entire data processing device 240. Note that the host 10 shown in the above embodiment corresponds to the control unit 241 of the data processing apparatus 240.

As a signal S3 transmitted from the system controller 234 of the optical disk drive device 230 to the control means 241 of the data processing device 240,
(1) When the access prohibition interrupt signal indicating that the optical disc 201 is an optical disc in which access to the user data area 222 is prohibited is shown in the thirteenth embodiment,
(2) When the information indicates a status in which the optical disk drive device 230 does not actually access the user data area 222,
(3) When the reproduction identification information includes both the reproduction identification information of the optical disk drive device 230 and the reproduction identification information 225 extracted from the optical disk 201.
Any of these may be used.

When two pieces of reproduction identification information are transmitted from the system controller 234 of the optical disk drive device 230 as in (3) above, the control means 241 of the data processing device 240 first receives the two pieces of reproduction identification information and analyzes them. To do. Then, when the analysis result is that the optical disk drive device 230 does not correspond to the reproduction identification information 225 of the optical disk 201, a predetermined abort process as shown in (4) and / or (5) below is performed.
When an access-prohibited interrupt signal is transmitted as in (1) above or when information indicating a status of not accessing is transmitted as in (2) above, it is based on the interrupt signal or status information. Then, the predetermined abort process shown in (4) and / or (5) below is performed.

(4) The control means 241 of the data processing device 240 sends a command S4 for opening the disc tray and ejecting the optical disc 201 from the optical disc drive device 230 to the system controller 234 of the optical disc drive device 230. The system controller 234 of the optical disc driving device 230 transmits the transmitted command S4 to the servo processor 13, and the servo processor 13 generates a loading control signal and supplies it to the loading driver 244. Based on this loading control signal, the loading driver 244 drives the loading motor 245 to automatically eject the optical disc 201.
(5) The control means 241 of the data processing apparatus 240 drives the display driver 242 so as to display that “the optical disk 201 cannot be reproduced by the optical disk drive apparatus 230”, thereby displaying the display means 243. Is displayed. The display by the display unit 243 may be a display indicating that “the disc is prohibited from being accessed because reproduction compatibility is not maintained”.

  Further, the command S4 may be a command for the control means 241 of the data processing apparatus 240 to confirm the cause that the optical disk drive apparatus 230 has stopped accessing. That is, in the above, the case where the signal S3 is automatically transmitted from the optical disk drive device 230 is shown, but the command S4 for requesting confirmation of the cause of the optical disk drive device 230 stopping access is the control means 241. The response of (1), (2), (3) may be transmitted from the optical disk drive 230 to the control means 241.

  FIG. 20 is an operation flow when the control unit 241 of the data processing apparatus 240 issues a command to the optical disk drive apparatus 230. That is, the case where the command S4 is issued from the control unit 241 and the response (3) is transmitted from the optical disk drive 230 to the control unit 241 will be described.

In FIG. 20, the control means 241 of the data processing apparatus 240 issues a command S4 for requesting reproduction identification information to the optical disk drive apparatus 230 (ST70). In response to this command S 4, the optical disk drive device 230 transmits both reproduction identification information consisting of the reproduction identification information possessed by the optical disk drive device 230 and the reproduction identification information 225 extracted from the optical disc 201. The control means 241 receives both pieces of reproduction identification information (ST71).
On the other hand, the optical disk drive device 230 determines whether or not the reproduction identification information 225 extracted from the optical disk 201 is compatible information (ST72). If the information is compatible (in the case of Y), the process ends and waits for the next instruction (such as a reproduction start instruction by the user). If the information is not applicable, the optical disk drive device 230 transmits an error signal S4 to the control means 241 of the data processing device 240 (ST73). The error signal is an error signal indicating that the disk is incompatible or an error signal indicating that the disk is of an unknown format. Next, the control means 241 of the data processing device 240 compares the two pieces of reproduction identification information acquired in ST71 (ST74). If they do not match (if they do not match), the error signal is caused by the optical disc drive device 230. Since it is based on the reproduction identification information of the optical disc 201, the display means 243 is caused to display "This disc is prohibited from being accessed because reproduction compatibility is not maintained" (ST75). If they are coincident (in the case of coincidence), the error signal is caused by another factor, so that the display means 243 displays the other factor (ST76).

In FIG. 20, the steps ST70 and ST71 may be performed after the error signal S4 is output from the optical disk drive device 230, that is, after ST73 and before ST74.
In the case of (3), compared to the cases of (1) and (2), there is no need to separately provide a signal indicating a special error status for the error signal shown in FIG. Since a signal indicating a general error status may be used, compatibility with a conventional PC is easy.

  In the present embodiment, the case where the optical disk drive device 230 is incorporated in the data processing device 240 has been described. However, the optical disk drive device 230 is an optical disk recording / reproduction device that records or reproduces video and / or audio from an optical disk. It may be incorporated. Even in the case of an optical disk recording / reproducing apparatus, the predetermined abort process shown in (4) and / or (5) can be performed by the same block configuration as that of the data processing apparatus 240 described above.

Also in the present embodiment, not only the reproduction identification information 225 but also the recording identification information may be used, as in the above embodiment.
According to the present embodiment, when the optical disk drive device is actually incorporated into a data processing device or an optical disk recording / reproducing device, a predetermined abort process is performed on the optical disk for which reproduction compatibility or recording compatibility is not guaranteed. The user can be informed of the cause, and the contents of the optical disk can be protected, and the worst situation such as damage to the optical disk can be avoided.

Embodiment 16
In the present embodiment, a case where an operation test method that is normally performed before product shipment of an optical disk drive device is performed using the optical disk 201 shown in the above-described twelfth embodiment will be described with reference to FIG.
Two types of optical disks 201 (a) and 201 (b) are used as the operation test method optical disks. The first operation test optical disc 201 (a) is recorded with reproduction identification information indicating that the information recorded in the user data area 222 of the optical disc 201 (a) cannot be reproduced by the optical disc drive device 230. The second operation test optical disc 201 (b) is recorded with reproduction identification information indicating that the optical disc drive device 230 can reproduce the information recorded in the user data area 222 of the optical disc 201 (b). The first operation test optical disc 201 (a) is the same as the second operation test optical disc 201 (b) except for the reproduction identification information.

  As shown in FIG. 21, the first operation test optical disc 201 (a) is inserted into the operation test optical disc drive (ST60). The disc management information extraction means of the operated test optical disc drive apparatus extracts reproduction identification information from the first operation test optical disc 201 (a) (ST61), and the disc management information analysis means corresponds to the optical disc drive device. It is compared with the reproduction identification information that is present (ST62). Since the reproduction identification information extracted from the first operation test optical disc 201 (a) is reproduction identification information not supported by the optical disc driving apparatus, access to the user data area of the optical disc driving apparatus is prohibited ( ST63). In this case, the abort process shown in the fifteenth embodiment, for example, ejecting the optical disc ((4) of the fifteenth embodiment) or displaying that the optical disc drive device 230 cannot reproduce (embodiment 15). (5)). If the optical disc is not automatically ejected, the first operation test optical disc 201 (a) is ejected manually (ST64).

  Subsequently, the second operation test optical disk 201 (b) is inserted into the operation test optical disk drive (ST65). The disc management information extraction means of the operated test optical disc drive apparatus extracts reproduction identification information from the second operation test optical disc 201 (b) (ST66), and the disc management information analysis means corresponds to the optical disc drive device. It is compared with the reproduction identification information that is present (ST67). Since the reproduction identification information extracted from the second operation test optical disc 201 (b) is reproduction identification information corresponding to the optical disc driving apparatus, the user data area of the optical disc driving apparatus is accessed (ST68). ). In this case, the display means 243 in FIG. 19 performs display indicating that the user data area has been accessed or display of video and / or audio data stored in the user data area. Thereafter, the second operation test optical disc 201 (b) is ejected (ST69).

As described above, the prohibition of the access operation by the optical head for the optical disk drive device is confirmed using the first operation test optical disc 201 (a), and the access operation is performed using the second operation test optical disc 201 (b). By confirming that the prohibition is not performed, it is possible to confirm that the optical disk drive device operates normally.
On the other hand, the access operation is not prohibited even when the first operation test optical disc 201 (a) is inserted (ST62), or the access operation is performed even when the second operation test optical disc 201 (b) is inserted. Is prohibited (ST67), it can be confirmed that the operation of the optical disk drive is abnormal, so the operation test is immediately terminated.

In the flow shown in FIG. 21, the first operation test optical disc 201 (a) and the second operation test optical disc 201 (b) may be performed in the reverse order.
In the present embodiment, the first operation test optical disc 201 (a) has the same information as the second operation test optical disc 201 (b) except for the reproduction identification information. Only the information recorded in the user data area 222 may be the same. By making the information recorded in at least the user data area 222 the same, it is possible to easily distinguish between cases where reproduction is not possible and cases where reproduction is possible, so that an operation test method for the optical disk drive device can be easily performed.
Furthermore, although the description has been made based on the optical disk 201 of the twelfth embodiment, the same applies to the optical disks shown in the other embodiments.
Also, record identification information may be used instead of the reproduction identification information 225.

  According to the present embodiment, it is possible to easily confirm whether or not the optical disk drive device operates normally by using an optical disk for operation test that holds access operation identification information such as reproduction identification information and recording identification information. . In particular, by unifying the above-mentioned abort processing method for each optical disk drive manufacturer, it is possible to test whether or not access to optical disks for which reproduction compatibility or recording compatibility is not guaranteed is definitely prohibited. It can be easy.

FIG. 4 is a diagram showing a recording area format of the optical disc in the first embodiment. FIG. 6 is a block diagram illustrating a configuration of an optical disk drive device according to a second embodiment. 10 is an operation flow when the optical disc in the third embodiment is loaded into the optical disc drive apparatus. 10 is an operation flow when the optical disc driving apparatus according to the third embodiment receives a command from a host. FIG. 10 is a diagram showing a recording area format of an optical disc in a fourth embodiment. 14 is an operation flow when the optical disc in the fourth embodiment is loaded into the optical disc drive apparatus. FIG. 10 is a diagram showing a recording area format of a two-layer hybrid optical disc in a fifth embodiment. FIG. 20 is a diagram showing a recording area format of an optical disc in a sixth embodiment. FIG. 20 is a diagram showing a recording area format of an optical disc in a seventh embodiment. FIG. 20 is a diagram showing a recording area format of an optical disc in an eighth embodiment. 24 is an operation flow when the optical disc in the tenth embodiment is loaded in the optical disc drive apparatus. FIG. 38 shows a recording area format of an optical disc in the eleventh embodiment. It is a figure which shows the relationship between the version information of a specification, and reproduction | regeneration identification information. FIG. 38 shows a recording area format of an optical disc in a twelfth embodiment. It is a figure which shows typically the optical disk which consists of an area | region which has a some linear density. FIG. 20 is a block diagram showing the configuration of an optical disk drive device according to a thirteenth embodiment. 24 is an operation flow when the optical disc in the fourteenth embodiment is loaded in the optical disc driving apparatus. 24 is an operation flow when the optical disc driving apparatus according to the fourteenth embodiment receives a command from a host. FIG. 25 is a configuration block diagram of a data processing apparatus having an optical disc drive apparatus in a fifteenth embodiment. FIG. 25 is an operation flow when the data processing apparatus in the fifteenth embodiment issues a command to the optical disk drive apparatus. FIG. 18 is an operation flow when performing an operation test method of an optical disc driving apparatus using an optical disc in the sixteenth embodiment.

Explanation of symbols

1, 40, 52, 70, 80, 101, 140, 201, 202, 206 Optical disc, 20, 43, 55, 73, 83, 120, 143, 220 BCA, 21, 44, 56, 74, 84, 121, 144, 221 Lead-in area, 22, 45, 57, 58, 75, 85, 122, 145, 222 User data area, 23, 46, 59, 76, 86, 123, 146, 223 Lead-out area, 24, 47 , 60, 77, 87, 124, 147 Operation management information, 224 Disk management information, 25 Identification information A, 26 Operation definition A, 28 Identification information B, 29 Operation definition B, 31, 48, 61 Access operation identification information, 32 , 49, 62, 132 Access operation prohibition bit, 50, 63 Address information, 78 Disc identification information, 88 Standard version identification Information, 148, 225 Reproduction identification information, 125 Parameter information P, 126 Operation definition P, 128 Parameter information Q, 129 Operation definition Q, 131 Maximum reproduction power parameter information.
100, 230 Optical disk drive device, 2 optical pickup, 3 thread, 4 spindle motor, 5 RF signal processing unit, 6 binarization unit, 7,231 encoding / decoding unit, 8 buffer memory, 9 I / F, 10 host, DESCRIPTION OF SYMBOLS 11 Automatic laser power control part, 12,233 System controller, 13 Servo processor, 14 Thread driver, 15 Two axis driver, 16 Spindle motor driver, 17 Operation management information extraction means, 18 Operation management information analysis means, 232 Disk management information extraction Means 234 disk management information analysis means 240 data processing device 241 control means 242 display driver 243 display means 244 loading driver 245 loading motor 245

Claims (2)

A first area in which user data reproduced by the optical head of the optical disk reproducing apparatus is recorded;
A second area on which information to be read before the optical disk reproducing apparatus accesses the first area is recorded ,
Version information of the standard that defines the characteristics of the optical disc, and
Information indicating whether or not the first area in which the user data is recorded can be accessed by an optical disc reproducing apparatus that performs reproduction using laser power compliant with a standard document of a version before the version; The operation identification information including information for prohibiting access to the first area of the optical head when access is impossible is held in the second area, and access to the first area is An optical disc characterized in that the information indicating whether or not it is possible is updated for an optical disc that cannot be reproduced with a laser power conforming to a previous version of the standard. An optical disc playback apparatus for playing back the optical disc according to claim 1,
The operation identification information is extracted, and an access operation restriction is performed as to whether or not the access operation by the optical head is prohibited with respect to the first area according to the analysis result of the extracted operation identification information. be that the optical disk reproducing apparatus.

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