JP2006196099A - Disk device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To notify a deterioration state of an optical disk and estimated residual number of recordable times to a user when a deterioration state of the quality of the optical disk is detected and the quality of the optical disk is deteriorated owing to dispersion of the quality of the optical disks, handling of the optical disks, or the like. <P>SOLUTION: Information data are overwritten and recorded in the optical disk, the number of times of recording recorded in RAM of the optical disk, information data overwritten and recorded on the optical disk is reproduced and the jitter is measured, the measured jitter for the number of times of recording of the optical disk is recorded in the optical disk, when the updated number of times of recording of the optical disk reaches the prescribed number of times or more, a deterioration estimation formula of the optical disk is calculated from the jitter for the number of times of recording of the optical disk, the calculated deterioration estimation formula of the optical disk is compared with an average quality deterioration formula of the optical disk, the deterioration state of quality of the optical disk is discriminated and a discriminated result is displayed. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

The present invention relates to a disc apparatus for recording / reproducing information data on a rewritable optical disc such as a DVD-RW (Digital Versatile Disc-ReWritable). The present invention relates to a disk device that can be notified.

In general, a rewritable optical disk such as a DVD-RW can rewrite information data 1000 times or more according to the standard. However, there are variations in the number of recordings that can be actually rewritten due to variations in the quality of the optical disc, handling of the optical disc, and the like. Even if the quality of the optical disc has deteriorated, the user does not know the deterioration state of the optical disc, and when the desired TV broadcast program is reserved for recording on the optical disc with such a deteriorated quality, the reserved TV broadcast program is reproduced. In some cases, the television broadcast program is not reproduced normally, and the user cannot view the television broadcast program.
As a background art, every time a magnetic recording medium is used, information on cumulative error for each track, error occurrence frequency, acceleration of error occurrence is stored, and the stored information and those information set in advance In some cases, the life of a magnetic recording medium is estimated and a warning is issued (see, for example, Patent Document 1).
Also, the signal recorded on the magnetic recording medium is read by the magnetic head, and the voltage of the read reproduction signal is preset by comparing the voltage of the read reproduction signal with a preset reference voltage. In some cases, when the voltage is lower than the reference voltage, the deterioration of the magnetic recording medium is notified (for example, see Patent Document 2).
Also, when an ATIP (Absolute Time In Pregroove) address reading error is continuously detected over a predetermined frame during a recording operation on a disk-shaped recording medium, a warning is displayed to indicate the deterioration of the disk-shaped recording medium. (For example, see Patent Document 3).
In addition, when data is read, if an uncorrectable ECC (Error Correction Code) error continuously exists on the same track, or if an unrecoverable ECC error exists on a continuous track, a magnetic disk device In some cases, it is determined that the lifetime is less than that (for example, see Patent Document 4).
JP 56-165976 A JP 62-51075 A JP 2004-22136 A JP 2001-60370 A

However, in the first one described in the background art, every time a magnetic recording medium is used, information on the accumulated error for each track, the frequency of error occurrence, and the acceleration of error occurrence are stored, and those stored By comparing the information with the preset information, the life of the magnetic recording medium could be estimated and a warning could be issued. However, the above-mentioned problems were not solved.
In the following, the signal recorded on the magnetic recording medium is read by the magnetic head, the voltage of the read reproduction signal is compared with a preset reference voltage, and the read reproduction signal When the voltage is equal to or lower than a preset reference voltage, the deterioration of the magnetic recording medium can be notified. However, when the signal level of the reproduction signal decreases due to the deterioration of the magnetic recording medium, the life of the magnetic recording medium is However, the above-mentioned problems were not solved.
In addition, in the following, when an ATIP address reading error is continuously detected over a predetermined frame during a recording operation on a disk-shaped recording medium, a warning is displayed to indicate the deterioration of the disk-shaped recording medium. However, when the ATIP address reading error of the disk-shaped recording medium occurs in consecutive frames, the user is prompted to replace the disk-shaped recording medium. It was not what I did.
Further, in the following, when data is read, if an unrecoverable ECC error exists continuously on the same track, or if an unrecoverable ECC error exists on a continuous track for a predetermined time or more, Although it could be determined that the magnetic disk device was at the end of its life, it was designed to notify the replacement of the magnetic disk device when the life of the magnetic disk device was reached, and the above problems were solved. It was not a thing.
The present invention has been made in view of such problems of the background art, and the object of the present invention is to detect the deterioration state of the quality of the optical disk, and to detect variations in the quality of the optical disk, handling of the optical disk, etc. Thus, when the quality of the optical disk is degraded by the above, it is an object of the present invention to provide a disk device capable of notifying the user of the degradation state of the optical disk and the estimated remaining recordable number of times.

In order to achieve the above object, according to the present invention, there is provided a disk apparatus for recording / reproducing information data on a rewritable optical disk, wherein the first recording means for overwriting the information data on the optical disk and the first recording means When the information data is overwritten and recorded on the optical disk, the number of recordings recorded in the RMA of the optical disk is incremented by 1, and the updating means for updating the recording frequency of the optical disk is overwritten and recorded on the optical disk by the first recording means. Measuring means for reproducing the recorded information data to measure jitter, second recording means for recording the jitter for the number of recording times of the optical disk measured by the measuring means in the RMA of the optical disk, and the optical disk updated by the updating means When the number of times of recording exceeds a predetermined number, the MID recorded in the RMA of the optical disc and the recording A calculation means for reading the jitter with respect to the number and calculating an optical disk deterioration estimation formula from the jitter with respect to the number of recordings of the optical disk, an optical disk deterioration estimation formula calculated by the calculation means, and an average quality deterioration formula for the optical disk of the MID And a discriminating unit for discriminating the deterioration state of the quality of the optical disc, and a display unit for displaying the discrimination result of the discriminating unit.
The calculation means reads the MID recorded in the RMA of the optical disk and the jitter with respect to the recording frequency when the recording frequency of the optical disk updated by the updating means reaches at least 3 times, and An optical disk deterioration estimation formula may be calculated from the jitter.
The discriminating means includes the estimated remaining recordable number of times of the optical disc in which the curve of the optical disc degradation estimation formula calculated by the calculation means intersects the quality degradation boundary line, and the average quality degradation formula curve of the optical disc of the MID. It is preferable to compare the number of recording times of the optical disk that intersects the line to estimate the remaining number of recordable times of the optical disk, and to determine the deterioration state of the quality of the optical disk.
The display means may display the deterioration state of the quality of the optical disc determined by the determination means and the estimated remaining recordable number of times.
By these means, the deterioration state of the optical disk is detected, and when the quality of the optical disk is deteriorated due to the variation in the quality of the optical disk or the handling of the optical disk, the deterioration state of the optical disk and the estimated remaining recordable number of times are obtained. Can inform the user.

According to the disk device of the first aspect of the invention, when information data is overwritten and recorded on the optical disk, and information data is overwritten and recorded on the optical disk, 1 is added to the number of times recorded in the RMA of the optical disk. The number of times of recording on the optical disk is updated, the information data recorded by overwriting on the optical disk is reproduced, jitter is measured, and the jitter corresponding to the measured number of times of recording on the optical disk is recorded on the RMA of the optical disk. When the number of times reaches 3 or more, the MID recorded in the RMA of the optical disc and the jitter with respect to the recording count are read out, and an optical disc degradation estimation formula is calculated from the jitter with respect to the recording count of the optical disc. The estimated remaining number of recordable times of the optical disc in which the curve of the equation intersects the quality degradation boundary line and the M The average quality degradation equation curve of the optical disc of D is compared with the number of recordings of the optical disc where the quality degradation boundary line intersects, the remaining number of possible recordings of the optical disc is estimated, and the quality degradation state of the optical disc is determined. Since the quality deterioration state and the estimated remaining recordable number of times are displayed, the deterioration state of the optical disk quality is detected, and the quality of the optical disk is deteriorated due to variations in the quality of the optical disk or the handling of the optical disk. In this case, the user can be informed of the deterioration state of the optical disk and the estimated remaining number of recordable times.
According to the disk device of the second aspect of the invention, when information data is overwritten and recorded on the optical disk, and information data is overwritten and recorded on the optical disk, 1 is added to the number of times recorded in the RMA of the optical disk. Then, the number of times of recording on the optical disk is updated, the information data overwritten on the optical disk is reproduced, jitter is measured, and the jitter corresponding to the measured number of times of recording of the optical disk is recorded in the RMA of the optical disk. When the number of recording times exceeds a predetermined number, the MID recorded in the RMA of the optical disk and the jitter with respect to the recording number are read out, and an optical disk deterioration estimation formula is calculated from the jitter with respect to the optical disk recording number. Is compared with the average quality deterioration equation of the optical disk of the MID, Since the quality degradation state is discriminated and the discrimination result is displayed, when the optical disc quality degradation state is detected, the quality of the optical disc is degraded due to variations in the quality of the optical disc, handling of the optical disc, etc. In addition, the user can be informed of the deterioration state of the optical disk and the estimated remaining number of recordable times.
According to the disk device of the third aspect of the invention, when the number of recording times of the optical disk reaches at least three times, the MID recorded in the RMA of the optical disk and the jitter with respect to the number of recording times are read out to record the optical disk. Since the optical disk deterioration estimation formula is calculated from the jitter with respect to the number of times, the optical disk deterioration estimation formula is calculated by a mathematical function of a quadratic function or more, and the optical disk deterioration estimation formula is used to further determine the optical disk deterioration state. It can be estimated with high accuracy.
According to the disc apparatus of the fourth aspect of the present invention, the estimated remaining number of recordable times of the optical disc in which the curve of the degradation estimation formula of the optical disc intersects the quality degradation boundary and the curve of the average quality degradation formula of the optical disc of the MID are the quality. Compared with the number of recordings of the optical disc that intersects the degradation boundary line, the remaining number of possible recordings of the optical disc is estimated to determine the degradation state of the quality of the optical disc. 6. The disc according to the invention of claim 5, wherein when the quality of the optical disc is degraded due to variations in the quality of the optical disc, handling of the optical disc, etc., the user can be notified of the degradation state of the optical disc and the estimated remaining recordable number of times. According to the apparatus, the deterioration state of the quality of the optical disk and the estimated remaining recordable number of times are displayed. Risk of the deterioration state of the estimated remaining recordable number can inform the user.

Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings as appropriate. FIG. 1 is a block diagram showing the configuration of a disk device according to an embodiment of the present invention, FIG. 2 is an explanatory diagram showing each area of the optical disk, and FIG. 3 is an explanatory diagram showing jitter with respect to the number of recording times of the optical disk. FIG. 4 is a flowchart showing the operation of the disk apparatus according to the embodiment of the present invention.
First, a description will be given based on the block diagram showing the configuration of the disk device of one embodiment of the present invention shown in FIG.
The disk device 1 records information data on the optical disk 2 by irradiating the recording surface of the optical disk 2 with laser light, and also records information data recorded on the optical disk 2 by irradiating the optical disk 2 with laser light and detecting the reflected light. An optical pickup 3 for reading data, a spindle motor 4 for rotating the optical disc 2, a sled motor 5 for moving the optical pickup 3 in the radial direction of the optical disc 2, and the rotational speed of the spindle motor 4 are servo-controlled, Servo-controlling the rotation direction and rotation speed, servo-controlling the tracking of the optical pickup 3 based on the tracking error signal detected by the optical pickup 3, and optical pickup 3 based on the focus error signal detected by the optical pickup 3. Servo circuit 6 that servo-controls the focus and optical The RF (Radio Frequency) signal of the information data read by the backup 3 is amplified and the RF amplifier circuit 7 for amplifying the RF signal of the information data to be recorded on the optical disc 2 and the TV broadcast radio wave received by the antenna 15 are used. The tuner 8 that receives the TV broadcast program of the selected channel and the information data read by the optical pickup 3 are synchronously detected and demodulated based on the reference clock, and the error of the demodulated information data is corrected, Information data compressed based on a predetermined compression method is decompressed, decoded and reproduced, and information data of a television broadcast program received by the tuner 8 and information data input from the external input terminal 16 are encoded. Signal processing that compresses encoded information data based on a predetermined compression method A path 9, an OSD (On-Screen Character Display) circuit 10 that superimposes the character information signal on the video signal and displays the character information on the screen of the monitor device 30, and a microcomputer 11 that controls the entire system of the disk device 1. , A flash ROM (Read-Only Memory) 12 for storing firmware of the disk device, a display unit 13 for displaying title information, track information, clock, etc. of the optical disk 2, and a remote controller for infrared signals transmitted from the remote control device 20 The remote control receiving unit 14 receives a signal and converts it into a predetermined electric signal.
The operation of the disk device configured as described above will be described below.
When the recording of the information data on the optical disk 2 is instructed, the microcomputer 11 sends a control signal to the servo circuit 6, drives the spindle motor 4 to rotate the optical disk 2, and drives the sled motor 5 to emit light. The pickup 3 is moved in the radial direction of the optical disc 2, and information data is overwritten and recorded in the data recording area 2 c (see FIG. 2) of the optical disc 2 by the optical pickup 3.
When the overwriting recording of the information data on the optical disk 2 is completed, the microcomputer 11 sends a control signal to the servo circuit 6, drives the spindle motor 4 to rotate the optical disk 2, and drives the sled motor 5 to optical pickup. 3 is moved in the radial direction of the optical disk 2, the information data overwritten in the data recording area 2 c (see FIG. 2) of the optical disk 2 is reproduced by the optical pickup 3, and the reproduction signal of the reproduced information data is binarized. The jitter of the signal is measured, a control signal is sent to the servo circuit 6, the spindle motor 4 is driven to rotate the optical disc 2, and the sled motor 5 is driven to move the optical pickup 3 in the radial direction of the optical disc 2. Stored in an RMA (Recording Management Area) 2a (see FIG. 2) of the optical disc 2. 1 is added to the recording frequency of the disk 2 to update the record number of the optical disc to record the jitter for recording the number of measured optical disc 2 in the optical disk of RMA2a (see FIG. 2).
When the number of recordings on the optical disk 2 is a predetermined number or more, for example, when the deterioration estimation formula of the optical disk is at least three times that can be expressed by an expression of a quadratic function or more, the microcomputer 11 sends a control signal to the servo circuit 6. Then, the spindle motor 4 is driven to rotate the optical disc 2, the sled motor 5 is driven to move the optical pickup 3 in the radial direction of the optical disc 2, and the optical pickup 3 records on the RMA 2 a (see FIG. 2) of the optical disc 2. The MID (Manufacturer ID) and the jitter with respect to the recording count of the optical disc 2 are read out, and the optical disc degradation estimation formula is calculated from the jitter with respect to the recording count of the optical disc 2, and the calculated optical disc degradation estimation formula curve has the quality The estimated remaining number of recordable times of the optical disk that intersects the degradation boundary line and the optical data of the MID Compare the number of recording times of the optical disk where the curve of the average quality deterioration formula of the disk intersects the quality deterioration boundary line (see FIG. 3), estimate the remaining number of recordable times of the optical disk, and determine the deterioration state of the quality of the optical disk .
Compare the estimated remaining number of recordable times of the optical disk where the curve of the degradation estimation formula of the optical disk intersects the quality degradation boundary line and the number of recording times of the optical disk where the average quality degradation formula curve of the optical disk of the MID intersects the quality degradation boundary line (See FIG. 3), the remaining number of recordable times of the optical disc is estimated, the degradation state of the quality of the optical disc is discriminated, and if the quality of the optical disc 2 is degraded, the degradation status of the optical disc and the estimated remaining recording are possible The number of times is displayed on the screen of the monitor device 30 (not shown). As a result, when the number of recordings that can be rewritten and recorded due to variations in the quality of the optical disk or handling of the optical disk is lower than the standard number of recordable times, the deterioration state of the optical disk quality is detected. Therefore, the user can easily know whether or not the quality of the optical disk has deteriorated.
The operation will be described with reference to the flowchart of FIG. 4 showing the operation of the disk apparatus according to the embodiment of the present invention.
When the recording of the information data on the optical disk is instructed, the process proceeds from step S1 to step S2. In step S2, the information data is overwritten and recorded in the data recording area of the optical disk, and the process proceeds to step S3.
In step S3, it is determined whether or not the recording of the information data is finished. If the recording of the information data is finished, the process proceeds to step S4. If the recording of the information data is not finished, the process returns to step S2, and the step Repeat the steps from S2.
In step S4, the information data overwritten in the data recording area of the optical disc is reproduced, the jitter of the binarized signal of the reproduction signal is measured, and 1 is added to the number of recordings recorded in the RMA of the optical disc. Then, the number of recording times of the optical disk is updated, and jitter with respect to the number of recording times of the optical disk is recorded in the RMA of the optical disk, and the process proceeds to step S5.
In step S5, it is determined whether or not the number of times the optical disk has been recorded is equal to or greater than a predetermined number. If the number of times the optical disk has been recorded is greater than or equal to the predetermined number, the process proceeds to step S6. When there is not, it progresses to step S9 and complete | finishes a process.
In step S6, the MID recorded in the RMA of the optical disc and the jitter with respect to the recording count are read out, and an optical disc degradation estimation formula is calculated from the jitter with respect to the optical disc recording count. The deterioration estimation curve is compared with the average quality deterioration curve of the average quality deterioration formula of the optical disk of the MID measured at the time of designing the firmware of the disk device 1 stored in the memory, and the optical disk is estimated from the jitter with respect to the number of recording times of the optical disk. If the remaining number of recordable times is estimated and it is determined whether or not the quality of the optical disk has deteriorated. If the quality of the optical disk has deteriorated, the process proceeds to step S7. If the quality of the optical disk has not deteriorated, step S9 Proceed to to end the process.
In step S7, the deterioration state of the quality of the optical disk and the estimated remaining recordable number of times are displayed on the screen of the monitor device, and the process proceeds to step S9 to end the process.
Although the best mode for carrying out the present invention has been described in detail above, the present invention is not limited to this, and modifications and improvements can be made within the ordinary knowledge of those skilled in the art. Needless to say. For example, it has been described that the jitter with respect to the number of recording times of the optical disk is measured to determine the deterioration state of the quality of the optical disk, but the error rate with respect to the number of recording times of the optical disk is measured to determine the deterioration state of the quality of the optical disk. Also good.

It is a block diagram which shows the structure of the disk apparatus of one Example of this invention. It is explanatory drawing which shows each area | region of an optical disk. It is explanatory drawing which shows the jitter with respect to the frequency | count of recording of an optical disk. It is a flowchart which shows operation | movement of the disc apparatus of one Example of this invention.

Explanation of symbols

1 Disc device 2 Optical disc 2a RMA
2b Lead-in area 2c Data recording area 2d Lead-out area 3 Optical pickup 4 Spindle motor 5 Thread motor 6 Servo circuit 7 RF amplifier circuit 8 Tuner 9 Signal processing circuit 10 OSD circuit 11 Microcomputer 12 Flash ROM
13 Display Unit 14 Remote Control Receiver 15 Antenna 16 External Input Terminal 20 Remote Control Device 30 Monitor Device

Claims (5)

A disk device for recording and reproducing information data on a rewritable optical disk,
A first recording means for overwriting and recording information data on the optical disk; and when information data is overwritten and recorded on the optical disk by the first recording means, 1 is added to the number of times recorded in the RMA of the optical disk, Update means for updating the number of recordings of the optical disk, measurement means for reproducing information data overwritten on the optical disk by the first recording means to measure jitter, and the number of recording times of the optical disk measured by the measuring means A second recording means for recording jitter on the RMA of the optical disc, and a jitter for the MID recorded on the RMA of the optical disc and the recording count when the recording count of the optical disc updated by the updating means is at least three times or more. And calculate the deterioration estimation formula of the optical disk from the jitter with respect to the recording frequency of the optical disk. The calculation means, the estimated remaining number of recordable times of the optical disk in which the curve of the optical disk degradation estimation formula calculated by the calculation means intersects the quality degradation boundary line, and the average quality degradation formula curve of the optical disk of the MID are the quality degradation boundary line And a discriminating means for discriminating a deterioration state of the quality of the optical disc, and a discriminating state of the quality of the optical disc discriminated by the discriminating means. A disc device comprising display means for displaying an estimated remaining recordable number of times. A disk device for recording and reproducing information data on a rewritable optical disk,
A first recording means for overwriting and recording information data on the optical disk; and when information data is overwritten and recorded on the optical disk by the first recording means, 1 is added to the number of times recorded in the RMA of the optical disk, Update means for updating the number of recordings of the optical disk, measurement means for reproducing information data overwritten on the optical disk by the first recording means to measure jitter, and the number of recording times of the optical disk measured by the measuring means A second recording means for recording the jitter on the RMA of the optical disk, and the MID recorded on the RMA of the optical disk and the jitter with respect to the recording frequency when the number of recording times of the optical disk updated by the updating means exceeds a predetermined number Is used to calculate the optical disk deterioration estimation formula from the jitter with respect to the optical disk recording frequency. And a discriminating means for discriminating the deterioration state of the quality of the optical disc by comparing the degradation estimation formula of the optical disc calculated by the calculating means with the average quality degradation formula of the optical disc of the MID, and a discrimination result of the discriminating means And a display means for displaying the disk device. The calculating means reads the MID recorded in the RMA of the optical disk and the jitter with respect to the recording number when the number of recording times of the optical disk updated by the updating means is at least three times or more. 3. The disk apparatus according to claim 2, wherein the disk apparatus is a calculating means for calculating a deterioration estimation formula of the optical disk from jitter. The discriminating means includes the estimated remaining number of recordable times of the optical disc in which the curve of the optical disc degradation estimation formula calculated by the calculation means intersects the quality degradation boundary line and the average quality degradation formula curve of the optical disc of the MID. 3. The disc device according to claim 2, wherein the disc device is a discriminating means for comparing the number of recording times of the optical disc intersecting the line to estimate the remaining number of recordable times of the optical disc and discriminating the deterioration state of the quality of the optical disc. 3. The disk apparatus according to claim 2, wherein the display means is a display means for displaying a deterioration state of the quality of the optical disk determined by the determination means and an estimated remaining recordable number of times.

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