JP2004095046A - Recording control method for optical disk recording/playback device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a recording control method for an optical disk recording/playback device, capable of recording a signal on a disk with a laser beam emitted from an optical pickup. <P>SOLUTION: The optical disk recording/playback device is configured to record the information data indicating the recording position of a data signal in a buffer area set in the disk after the recording operation of the data signal on the disk. It reads the information data recorded in the buffer area, and record the TOC data of the data signal recorded based on the read information data in a read-in area, the information data is rewritten when the information data recorded in the buffer area is abnormally recorded, and the disk is used as a playback-only disk and the signal recorded in the disk is made erasable when normal rewriting operation can not be carried out. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an optical disk recording / reproducing apparatus configured to record a signal on a disk by a laser radiated from an optical pickup and to perform an operation of reproducing a signal recorded on the disk by the laser.
[0002]
[Prior art]
2. Description of the Related Art Disk players that read signals recorded on a disk using an optical pickup have become widespread, but recently, in addition to a reproducing function, a signal is recorded on the disk by a laser emitted from the optical pickup. An optical disk recording / reproducing device configured to perform such operations has been commercialized.
[0003]
[Problems to be solved by the invention]
An optical disk recording / reproducing apparatus called a rewritable type capable of repeatedly recording a signal on a disk many times is configured to perform a signal recording operation in accordance with a recording command from a computer device as a host device. When the recording operation is completed, TOC data indicating the recording position of the signal, the type of the recorded signal, and the like are recorded in a lead-in area provided on the disc. The recording operation of the TOC data in the lead-in area is configured to be performed by repeatedly recording information data in a buffer area provided on the disc by a predetermined number of frames, and reading the recorded information data. I have.
[0004]
In such an optical disk recording / reproducing apparatus, when a data signal is recorded in a signal recording area, an operation of recording information data in a buffer area is performed. However, recording of such information data due to servo abnormalities, dirt, scratches and the like is performed. The operation may not be performed accurately by a predetermined number of frames.
[0005]
If the read operation of the predetermined number of frames cannot be performed when the read operation of the information data recorded in the buffer area is performed, it is determined that the information data is not normally recorded, and the signal recording area of the disc is determined. Is formed from the data signal recorded in the buffer area, and the information data is recorded in the buffer area.
[0006]
However, even though such an operation is performed, information data may not be normally recorded in the buffer area. In this case, a signal for treating a used disc as a disc that can only be reproduced is used. It is configured to output to a computer device. In this case, there is a problem that a signal recorded on the used disk cannot be erased or formatted.
[0007]
An object of the present invention is to provide a recording control method of an optical disk recording / reproducing apparatus which can solve such a problem.
[0008]
[Action]
The present invention performs a rewrite operation of the information data when the information data recorded in the buffer area is abnormally recorded, and uses the disc as a read-only disc when the rewrite operation cannot be performed normally. The signal recorded on the disk is configured to be erasable.
[0009]
Also, the present invention provides a method for rewriting an information data when the information data recorded in the buffer area is abnormally recorded, and using the disc as a read-only disc when the rewriting operation cannot be performed normally. And the disk can be formatted.
[0010]
【Example】
FIG. 1 is a block circuit diagram showing an embodiment of an optical disk recording / reproducing apparatus according to the present invention, and FIG. 2 is a diagram showing a recording format of a disk.
[0011]
First, the recording format on the disc will be described with reference to FIG. A test writing area A where a test signal is recorded when adjusting the recording laser output from the inner peripheral side, and information data indicating a signal recording position every time the recording operation of the data signal is completed is recorded on the disc. A buffer area B is provided, and a signal recording area for recording a signal is provided on an outer peripheral side of the buffer area B.
[0012]
In a signal recording area of the disc, a lead-in area T1 in which TOC data indicating a signal recording position, a type of a recorded signal, and the like are recorded, and a signal corresponding to the TOC data recorded in the lead-in area T1 are stored. The recorded data signal recording areas C and D and the lead-out area L1 are formed, and these areas, that is, T1, C, D and L1 are formed as one session. When the next recording operation is performed on the disk recorded in this manner, a lead-in area T2 where TOC data is recorded, and a signal corresponding to the TOC data recorded in the lead-in area T2 are recorded. The data signal recording areas E, F, and G and the lead-out area L2 are formed. Hereinafter, a data signal is recorded on the disk with the same configuration.
[0013]
In FIG. 1, reference numeral 1 denotes a disk mounted on a turntable 3 driven to rotate by a spindle motor 2, and is configured to be driven to rotate by rotation of the turntable 3. Also. Position information data is recorded on the disc 1 by a groove called a wobble, and a signal recording / reproducing operation is performed based on a wobble signal obtained from the groove. Reference numeral 4 denotes a laser diode for irradiating the disk 1 with a light beam and a monitoring diode for monitoring light emitted from the laser diode, and a photodetector for receiving the light beam reflected from the signal surface of the disk 1 is provided. This is an optical pickup incorporated therein, and is configured to be moved in the radial direction of the disk 1 by a pickup feed motor (not shown).
[0014]
Reference numeral 5 denotes an RF signal amplifying circuit for amplifying an RF signal obtained from a photodetector incorporated in the optical pickup 4 and shaping the waveform, and 6 denotes an RF signal amplifying circuit based on a signal obtained via the RF signal amplifying circuit 5. The pickup control circuit performs a focusing control operation for focusing a light beam of the optical pickup 4 on a signal surface of the disk 1 and a tracking control operation for following the signal beam on a signal track on the signal surface.
[0015]
Reference numeral 7 denotes a digital signal processing circuit that performs digital signal processing of a signal output from the RF signal amplifying circuit 5 and demodulates various signals. Reference numeral 8 denotes an input of a digital signal processed by the digital signal processing circuit 7. A circuit for reproducing a signal which is converted into an analog signal when the information recorded on the disk 1 is an audio signal and then outputted to an amplifier or the like. The function is to output the signal as it is to the computer device 9 provided as a host.
[0016]
Reference numeral 10 denotes a system control circuit that receives a signal demodulated by the digital signal processing circuit 7 and performs various control operations according to a command signal output from the computer device 9. A recording signal 11, such as a test signal or an information signal, is input, encodes the signal, and controls a laser irradiation operation by a laser driving circuit (not shown) to record a data signal and the like on the disk 1. This is a signal recording circuit to be used.
[0017]
Reference numeral 12 denotes a buffer RAM for temporarily storing a data signal, which is a recording signal output from the computer device 9, such that a signal writing operation and a signal reading operation are controlled in accordance with a recording operation on the disk 1. Is configured. Reference numeral 13 denotes a spindle motor drive circuit that drives the spindle motor 2 to rotate, and is configured to drive the disk 1 at a desired rotation speed. The rotational speed of the disk 1 is configured to be able to be driven not only at a prescribed speed but also several times and several tens times higher than the prescribed speed.
[0018]
As described above, the optical disk recording / reproducing apparatus according to the present invention is configured. Next, the reproducing operation in the circuit configured as described above will be described. When a command signal for performing a reproducing operation is output from the computer device 9 to the system control circuit 10 constituting the drive device, a control operation for the reproducing operation by the system control circuit 10 is started. When such a reproducing operation is performed, the laser diode incorporated in the optical pickup 4 is supplied with a driving current for obtaining a laser output for performing a signal reading operation from a laser driving circuit. Is set.
[0019]
When the control operation for such a reproduction operation is started, the rotation control operation of the spindle motor 2 is performed by the spindle motor drive circuit 13. The rotation control operation of the spindle motor 2 decodes the wobble signal. By comparing the obtained synchronization signal with a reference signal output from a reference signal generation circuit (not shown), the disk 1 is rotated at a desired constant linear velocity. Such a control operation is similarly performed at the time of a signal recording operation described later.
[0020]
The rotation control operation of the spindle motor 2 is performed as described above. In the optical pickup 4 that performs a signal reading operation, the focusing control operation and the tracking control operation are started, and the signal from the disc 1 by the optical pickup 4 is transmitted. Is performed. Then, the operation of reproducing the signal recorded in the signal recording area is started by first performing the operation of reading the TOC data recorded in the lead-in area T1 constituting the first session of the disk 1.
[0021]
The reading and reproducing operation of the data signal recorded in the signal recording area of the first session provided on the disc 1 is performed based on the TOC data recorded in the lead-in area T1. The signal read out by the optical pickup 4 is amplified and shaped by an RF signal amplifying circuit 5 and then input to a digital signal processing circuit 7 to perform a signal demodulating operation. When signal processing is performed by the digital signal processing circuit 7 to extract information data, the information data is subjected to signal processing such as error correction and then applied to a signal reproduction circuit 8.
[0022]
When the information data read from the disk 1 is an audio signal, the signal reproducing circuit 8 converts the information data into an analog signal and outputs the analog signal to an amplifier or the like. Are output to the computer device 9 as digital signals.
[0023]
As described above, the reproducing operation is performed. Since the reproducing operation is performed based on the TOC data recorded in the lead-in area T1, the reproduced signal is stored in the data signal recording area constituting the first session. These are recorded in C and D. Similarly, by reading out the TOC data recorded in the lead-in area T2 constituting the next session, the signals recorded in the data signal recording areas E, F and G in which the signals corresponding to the TOC data are recorded Can be performed.
[0024]
As described above, the reproducing operation in this embodiment is performed. Next, the operation of recording a signal on the disk 1 will be described.
[0025]
The operation of recording a signal on the disk 1 is as follows. First, a drive current for obtaining a laser output optimal for the recording operation is supplied to the laser diode by recording and reproducing a test signal in a test writing area A provided on the disk 1. Is set to When such a laser output setting operation is performed, an operation of reading information data recorded in the buffer area B, that is, position information of a signal recorded in the signal recording area, and the like is performed.
[0026]
Based on the information data read out in this way, it is possible to perform a recording operation of a data signal in a signal recording area provided on the disc 1 and to perform a recognition operation such as where the recording operation is to be performed. First, the case of a disc on which no data signal is recorded will be described.
[0027]
In the case of such a disk, a signal is recorded from a predetermined position provided on the outer peripheral side of the buffer area B, but a data signal which is a recording signal output from the computer device 9 is a buffer signal. It is written into the RAM 12 once. The recording operation of the data signal is started from the outer peripheral side of the predetermined lead-in area T1. The recording operation is performed by reading the data signal written and stored in the buffer RAM 12. In this manner, the recording operation is started. When the recording operation for one data is performed on the signal recording area C, the information data indicating the position where the data signal is recorded is transmitted by the system control circuit 10. The operation is stored in the data memory circuit 14 whose operation is controlled. The information data stored in the data memory circuit 14 is repeatedly recorded a predetermined number of times in a buffer area B provided on the disk 1.
[0028]
In this manner, the recording operation of the data signal for the signal recording area C is completed. When the computer device 9 issues a command for recording the next data signal, the information recorded in the buffer area B is output. A data read operation is performed. The position where the next data signal is recorded, that is, the position of the track following the signal recording area C can be recognized based on the information data thus read.
[0029]
When the data signal to be recorded is input to the signal recording circuit 9 after the recognition operation is performed, the data signal is recorded in the signal recording area D as described above. Upon completion, the operation of storing the information data in the data memory circuit 14 and the operation of recording the information in the buffer area B are performed as described above.
[0030]
When the recording operation of the data signal in the signal recording area D is completed, a command signal for terminating the recording operation using the data signals recorded in the signal recording areas C and D as one session is output from the computer device 9. The read operation of the data signals recorded in the signal recording areas C and D is performed, and the TOC data such as the type of the recorded data signal, the information data indicating the recording position thereof, and the position information of the lead-out area L1 is read-in area. The operation of recording at T1 is performed. By performing such an operation, the recording operation of the first session including the lead-in area T1, the signal recording areas C and D, and the lead-out area L1 ends.
[0031]
In this manner, the recording operation is performed on the disc 1 on which the data signal is not recorded. Next, the case where the recording operation is performed using the disc on which the first session is recorded will be described.
[0032]
When an operation for starting a recording operation is performed using a disc on which the first session is recorded, a laser output setting operation and an operation of recognizing information recorded on the disc are performed. In such an operation, by reading the information data recorded in the buffer area B, it is recognized that the disc is a disc on which a data signal is recorded, and the information data is used to recognize the position of the lead-in area T1. I can do it.
[0033]
When the position of the lead-in area T1 is recognized, the light beam of the optical pickup 4 is moved to the lead-in area T1, and the operation of reading the TOC data recorded in the lead-in area T1 is performed. By reading such TOC data, the position of the lead-out area L1 can be recognized. Therefore, it is possible to recognize the start position of recording a new data signal, and the above-described recording operation is started from outside the lead-out area L1. By performing such a recording operation, the recording operation of the next session including the lead-in area T2, the signal recording areas E, F, G, and the lead-out area L2 ends.
[0034]
The operation when the recording operation of each session ends is performed as described above. Next, the operation when the recording operation is ended without ending one session will be described. Such an operation is performed when a signal recording area constituting the same session is formed following the signal recording area recorded last. That is, such a recording operation is performed, for example, by terminating the recording operation without recording the TOC data in the lead-in area T3.
[0035]
For example, a description will be given of an operation in a case where a data signal is recorded only in the signal recording area H outside the lead-in area T3 and then the recording operation is terminated. When a data signal is recorded in the signal recording area H, as described above, information data indicating the recording position is stored in the data memory circuit 14 and the information data stored in the data memory circuit 14 is provided on the disk 1. Is recorded in the buffer area B. After such a recording operation is performed, the recording operation is completed by the control operation of the computer device 9.
[0036]
Thus, when the recording operation is completed, no TOC data is recorded in the lead-in area T3. When the operation of starting the recording operation of the next data signal is performed using such a disk, the operation of setting the laser output and the operation of recognizing the information recorded on the disk are performed as described above.
[0037]
In such an operation, by reading the information data recorded in the buffer area B, it is recognized that the disc is a disc on which a data signal is recorded, and the information data is used to recognize the position of the lead-in area T3. I can do it.
[0038]
When the position of the lead-in area T3 is recognized, the light beam of the optical pickup 4 is moved to the lead-in area T3, and an operation for reading out the TOC data recorded in the lead-in area T3 is performed. In this case, since no TOC data is recorded in the lead-in area T3, the TOC data cannot be read. Since such TOC data read operation is not performed, it can be recognized that the recording operation for ending the session is not performed.
[0039]
In this case, information data indicating the position where the signal recording area H is recorded is read out from the information data recorded in the buffer area B, and the position where the next data signal is recorded by this information data, that is, the signal The position of the track following the recording area H can be recognized.
[0040]
After the recognition operation is performed, when a data signal to be recorded is input to the signal recording circuit 9, the data signal is recorded as the signal recording area I on the outer peripheral side of the signal recording area H as described above. However, when such an operation is completed, the operation of storing the information data in the data memory circuit 14 and the operation of recording the information in the buffer area B are performed as described above. As described above, the signal recording operation is performed in the case of using the disc in which the TOC data is not recorded in the lead-in area T3. However, the command signal for ending the recording operation of the session including the signal recording areas H and I is issued by the computer device 9. Then, the TOC data is recorded in the lead-in area T3 and the lead-out area is set as described above, and the recording operation ends.
[0041]
As described above, the recording operation of the data signal on the disk 1 is performed. Next, the operation when the TOC data is recorded in the lead-in area will be described.
[0042]
To end the recording operation of the first session, as described above, the TOC data in the lead-in area T1, that is, the type of the data signal recorded in the signal recording areas C and D, the information data indicating the recording position and the read A processing operation for recording information data indicating the position of the out area L1 is performed. When the processing operation is performed, a recordable area of a signal on the outer peripheral side of the lead-out area L1, that is, detection of a recordable remaining amount is performed. The operation is performed.
[0043]
Such an operation of detecting the remaining recordable amount can be easily performed by calculating based on the recording capacity of the disk 1 and the position information of the lead-out area L1. The detected recordable remaining amount is a predetermined amount, for example, a lead-in area for writing TOC data, a lead-out area of a predetermined length, and a capacity capable of providing a minimum number of tracks that must be provided for recording a data signal. A determination is made as to whether or not there is.
[0044]
When it is determined that the remaining recordable amount is a predetermined amount by such a determination operation, normal TOC data is recorded in the lead-in area T1. Therefore, the recording operation of the next session can be performed as described above. On the other hand, when it is determined by the determination operation that the remaining recordable amount is not the predetermined amount, that is, smaller than the predetermined amount, the normal TOC data, that is, the signal recording areas C and D are recorded in the lead-in area T1. In addition to the type of the data signal, the information data indicating the recording position and the information data indicating the position of the lead-out area L1, data indicating that there is no remaining space for performing the next recording operation, for example, non-recordable data is recorded. Is done.
[0045]
When such non-recordable data is recorded, the non-recordable data in the TOC data recorded in the lead-in area T1 is read out when the next recording operation is performed. It is possible to recognize that the disc cannot be performed. Therefore, when such non-recordable data is read, the user can be made aware of the fact that the disc is incapable of performing a recording operation by displaying the disc.
[0046]
As described above, the signal recording operation in this embodiment is performed. Next, the gist of the present invention will be described. As described above, the recording operation of the data signal output from the computer device 9 to each signal recording area is performed. Each time such recording operation is performed, the information data is stored in the buffer area B provided on the disc 1. Is performed.
[0047]
In the buffer area B provided on the disk 1, one information is recorded in five frames, and the recording operation is configured such that ten frames are recorded as one recording unit. The information data indicating the track number and the address indicating the recording position as information for creating the TOC data as 1 information is recorded in 5 frames, but the recording operation is performed with 10 frames as one unit. The same information data is recorded for 10 frames. As information data recorded in the buffer area B, there is identification data for identifying a disc in addition to the above-mentioned TOC data, and this identification data may be recorded once on one disc. Is one piece of information.
[0048]
Therefore, in the case where the discrimination data of the disc is not recorded when performing the recording operation, the TOC data, which is one piece of information, is recorded twice every 5 frames, that is, every 10 frames each time the data signal recording operation is performed. Will be recorded. When disc identification data is recorded, first, five frames of identification data, one piece of information, are recorded, and then five frames of TOC data, one piece of information, are recorded. When the next data signal recording operation is performed, only the TOC data is recorded. Therefore, the TOC data, which is one piece of information, is recorded in the buffer area B twice for 5 frames, ie, 10 frames at a time. Will be done.
[0049]
In the optical disk recording / reproducing apparatus, the recording operation is started by reading out the information data recorded in the buffer area B as described above. There is a case where the information data is not accurately recorded frame by frame. In this case, it is determined that the information data is abnormally recorded.
[0050]
If it is determined that the information data is abnormally recorded in the buffer area B, the signal data recorded on the disk 1 is read out, and the information data is again stored in the buffer area B based on the read out signal. A rewrite operation of writing is performed. In the information data written in the buffer area B by such an operation, one piece of information is recorded every 10 frames as described above. When the recording operation of the information data in the buffer area B is performed normally, a normal recording operation can be performed on the disk 1.
[0051]
As described above, when the information data recorded in the buffer area B is abnormally recorded, a rewriting operation of the information data is performed. When the rewriting operation cannot be performed normally, the system A signal is output from the control circuit 10 to the computer 9 so that the used disk 1 can be set as a read-only disk that cannot be recorded. The signal is output in the present invention. In addition, a signal for setting the disc 1 to be handled as an erasable disc or a formatable disc is output.
[0052]
When such signals are received by the computer device 9, a control operation for treating the disk 1 as a read-only disk is performed. Therefore, a command signal for reading out a signal recorded on the disk 1 is output from the computer device 9. Then, the operation of reading the signal recorded on the disk 1 can be performed by the operation of the system control circuit 10.
[0053]
Further, the user can recognize that the recording operation on the disk 1 mounted on the optical disk recording / reproducing device cannot be performed based on the signal output from the system control circuit 10 to the computer device 9. However, since the disk 1 is set in a state where it can be handled as an erasable disk, if the user wants to erase the signal recorded on the disk 1, the computer device 9 performs an erasing operation. , An erasing operation of the signal recorded on the disk 1 can be performed. Since the disc 1 is a rewritable disc, the disc 1 is not treated as a read-only disc, but as a recordable disc.
[0054]
Similarly, since the disk 1 is handled as a formatable disk, when a user performs an operation for formatting, an instruction signal for formatting is output from the computer device 9 to the system control circuit 10. 1 can be formatted.
[0055]
【The invention's effect】
According to the present invention, after a data signal recording operation is performed on a disk, information data indicating a recording position of the data signal is recorded in a buffer area provided on the disk, and the information data recorded in the buffer area is read. In the optical disc recording / reproducing apparatus configured to record the TOC data of the data signal recorded based on the read information data in the lead-in area, the information data recorded in the buffer area is abnormally recorded. When the information data is rewritten, when the rewriting operation cannot be performed normally, the disc is used as a read-only disc and a signal recorded on the disc is made erasable. The disc can be reused as a recording disc.
[0056]
Further, according to the present invention, after performing a data signal recording operation on a disc, information data indicating a recording position of the data signal is recorded in a buffer area provided on the disc, and the information data recorded in the buffer area is recorded. In the optical disc recording / reproducing apparatus configured to record TOC data of a data signal recorded on the basis of the read information data in the lead-in area, the information data recorded in the buffer area is abnormal. When the information is recorded, the information data is rewritten. When the rewriting operation cannot be performed normally, the disc is used as a read-only disc and the disc can be formatted. After reformatting, it can be used again as a recording disk.
[Brief description of the drawings]
FIG. 1 is a block circuit diagram showing an embodiment of an optical disk recording / reproducing apparatus according to the present invention.
FIG. 2 is a diagram showing a recording format of a disc.
[Explanation of symbols]
1 disk
2 Spindle motor
4 Optical pickup
7 Digital signal processing circuit
8 Signal reproduction circuit
9 Computer equipment
10. System control circuit
11 Signal recording circuit
12 RAM for buffer
13 Spindle motor drive circuit
14. Data memory circuit

Claims (2)

After performing a data signal recording operation on the disk, information data indicating the recording position of the data signal is recorded in a buffer area provided on the disk, and the information data recorded in the buffer area is read out. In the optical disc recording / reproducing apparatus configured to record the TOC data of the data signal recorded based on the recorded information data in the lead-in area, when the information data recorded in the buffer area is abnormally recorded, The information data is rewritten, and when the rewriting operation cannot be performed normally, the disc is used as a read-only disc and a signal recorded on the disc is made erasable. A recording control method for an optical disk recording / reproducing device. After performing a data signal recording operation on the disk, information data indicating the recording position of the data signal is recorded in a buffer area provided on the disk, and the information data recorded in the buffer area is read out. In the optical disc recording / reproducing apparatus configured to record the TOC data of the data signal recorded based on the recorded information data in the lead-in area, when the information data recorded in the buffer area is abnormally recorded, The information data rewriting operation is performed, and when the rewriting operation cannot be performed normally, the disc is used as a read-only disc and the disc can be formatted. Control method.

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