JPH10269576A - Optical recording method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To shorten a recording time while securing a recording quality and to perform high-speed recording by recording the result of format recording/ reproducing in a medium inserted into an optical recording/reproducing device beforehand and determining whether to perform verifying or reproducing after recording by a recording means based on information recorded at the time of data recording. SOLUTION: After a medium is inserted into an optical recording/reproducing device, medium formatting is performed and error information is recorded for each zone (11 to 13). When recording instruction 10 comes from a host, a drive makes comparison with a recording quality preset for each drive based on the error information for each zone (14, 15). If quality is worse than a recording quality requested by the drive, reproducing is performed after recording and data is verified (15, 16). If quality is better than that requested by the drive, then data is verified by monitoring the reflected light of a recording beam (15, 17). Thus, high-speed recording is surely performed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to an optical recording method for an optical disk.

[0002]

2. Description of the Related Art Conventionally, in recording on an optical disk device, the recording state of a medium is confirmed by erasing, recording and reproducing, so that the recording time is longer than the reproduction time.
Direct overwrite media such as phase change have been developed to reduce this time. As shown in JP-A-63-193330, a direct medium is used as a medium, and erasing and recording are performed simultaneously by a recording beam by using a direct overwrite medium. For reproduction, a signal recorded by another beam provided near the recording beam was reproduced. Also, a method of detecting an error by simply monitoring the reflected light of the recording beam has been used.

[0003]

As described above, in the conventional apparatus, since the state of the medium was not known, it was necessary to always perform reproduction after recording to confirm the recording state. The configuration of the apparatus was complicated, for example, by preparing an optical system. In addition, a simple one-beam configuration requires a long time for recording.

Further, in the method of simply monitoring the reflected light of the recording beam, the speed is high, but the security of data is not sufficient. The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide an optical recording method having both high speed and high quality.

[0005]

In order to achieve the above object, the present invention provides an optical recording method for recording data on a recording medium using a light beam when a recording medium is newly inserted into an apparatus. A first step of measuring an error state by performing format recording / reproduction on a recording medium, and a second step of recording the error state measured in the first step in an area other than the data area. During data recording, the measured error state is compared with a preset recording quality, and if the measured error state is equal to or higher than the preset recording quality, verification is performed by monitoring the reflected light of the recording beam, If the measured error state is equal to or less than a preset recording quality, a third step of reproducing and verifying after recording is provided. The features.

According to the present invention, in an optical recording method for recording data on a recording medium using a light beam, when a recording medium is newly inserted into the apparatus, format recording / reproduction is performed on the recording medium. A first step of measuring an error state by the first step, a second step of deriving an error determination value from the error state measured in the first step, and an error determination value derived in the second step.
A third step of recording data in an area other than the data area; and a fourth step of performing verification by monitoring reflected light of a recording beam using the derived error determination value during data recording. Features.

According to the present invention, in an optical recording method for recording data on a recording medium using a light beam, when a recording medium is newly inserted into the apparatus, format recording / reproduction is performed on the recording medium. A first step of measuring an error state of each sector block for each sector block, a second step of recording the error state of each sector block measured in the first step in an area other than the data area, At the time of recording, if the area to be recorded is an error-free sector block, recording is performed without performing verification after recording. If the area to be recorded is a sector block that has an error, reproduction is performed after recording to perform verification. And a step.

According to the present invention, in an optical recording method for recording data in a plurality of sectors of a recording medium using a light beam, at the time of data recording, at least the first sector is reproduced after recording to reproduce an error state. The first step of measurement, and following this first step, if there is no error in the first step, data recording is performed without performing verification after recording, and if there is an error, reproduction is performed after recording to perform verification. A second step to be performed; and a third step of measuring an error state by reproducing after recording at least for one last sector after the second step when there is no error in the first step; When there is no error in the first step and there is an error in the third step, recording is performed without performing verification after recording in the second step. Characterized by comprising a fourth step of verifying playing over the area.

According to another aspect of the present invention, there is provided an optical recording method for recording data in a plurality of sectors of a recording medium by using a light beam. A first step of measuring and, following this first step, if there is no error in the first step, data recording is performed while verifying by monitoring the reflected light of the recording beam, and if there is an error, A second step of performing reproduction and verification after recording, and a second step when there is no error in the first step, and measuring an error state by reproducing at least the last one sector after recording. A third step to be performed, and if there is no error in the first step and there is an error in the third step, the second step Playing the whole area was recorded while verifying by monitoring the reflected light of the recording beam, characterized by comprising a fourth step of performing verification.

As described above, the result of format recording / reproducing on the medium newly inserted into the apparatus is recorded, and the recording beam is used for verification or recording based on the information recorded at the time of data recording. It is determined whether to perform reproduction, and the recording time is reduced while ensuring the recording quality.

A determination value of a verify operation by a recording beam is recorded from a result of format recording / reproduction on a medium newly inserted into the apparatus, and the recording beam is recorded based on information recorded at the time of data recording. To verify and reduce the recording time while ensuring the recording quality.

[0012] Furthermore, by recording the result of format recording / reproduction on a medium newly inserted into the drive in an area other than the data, reproduction after recording is omitted in a sector having no error during data recording. Then, by performing reproduction after recording only in a sector having an error state, the recording time is shortened while maintaining the recording quality.

When recording data, only the first and last tracks are recorded and then reproduced, the recording state is checked, and the recording time is shortened while ensuring the recording quality. In addition, the result of reproduction on the medium inserted into the device is recorded for each zone, and it is determined whether to perform verification by a recording beam or reproduction after recording based on the information recorded at the time of data recording. Then, the recording time is reduced while maintaining the recording quality.

[0014]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below in detail with reference to the drawings. [First Embodiment] FIG. 1 is a flowchart showing a first embodiment of the present invention. In the figure, 9 is the end of data recording, 10 is a recording instruction from the host, 11 is a step of inserting a medium into an optical recording / reproducing apparatus such as an optical disk, 12 is a step of formatting the medium, 13 is an error for each zone or for each track. Recording information, step 14
Is a step of starting data recording, 15 is a step of comparing and judging error information such as sectors to be recorded with recording quality, 16 is a recording step of reproducing after recording, and 17 is a verifying operation using a recording beam monitor during recording. , 18 is a step of determining whether an error has been detected in step 17, and 19 is a step of confirming data by reproduction.

The operation of this embodiment will be described below. After inserting the medium into an optical recording / reproducing device such as an optical disk in step 11, the medium is formatted in step 12.
In this format, a defective sector of the medium is assigned to a replacement sector, and a sector number in which one or more read errors have occurred is determined. In step 13 for recording error information for each zone (or for each track), the sector in which the error has occurred is recorded in an area other than the area where the data is recorded. It is a good example to record the number of defective sectors and the number of defects in each test area zone (or each track or the like) assigned to each zone.

In response to a recording instruction 10 from the host, the drive compares the recording quality preset for each drive in a comparison / judgment step 15 based on the error information for each zone including the sector to be recorded.

There are the following methods for setting the recording quality. First, basically, the area is specified by the byte or bit error rate. For example, the recording quality is set to a byte error rate of 10-5. If the error rate of the medium is less than that, it is judged that the recording quality is equal to or higher than the standard value with good recording quality, and the recording beam is verified. If the recording quality is equal to or less than the set recording quality, reproduction is performed after recording. Here, the recording quality is set to a byte error rate of 10
Although set to -5, this value can be set and corrected at the time of shipment of the drive or by a self-test of the drive.

As a method of setting the recording quality, in addition to the above,
There are a method of defining the number of errors in the area and a method of defining the number of errors for each error length. Further, by changing the recording power up or down 5% or 10% from the optimum value,
At that time, there is a method of defining by the byte or bit error rate, a method of defining by the number of errors, and a method of defining by the number of errors for each error length.

If the recording quality is lower than the recording quality required by the drive, the data is confirmed by reproducing after recording in step 16. If the recording quality is better than that required by the drive, the data is confirmed by monitoring the reflected light of the recording beam in step 17. Monitor the value of this monitor in step 18 and if an error condition is detected,
In step 19, data is confirmed by reproduction. In addition,
If an error is detected by reproduction after recording, the data is rewritten to a replacement sector. In this way, once the recording is complete,
The data recording ends in step 9.

Here, the case of dividing by zones or tracks has been described, but a method of designating the entire disk or a plurality of sectors may be used. The second and subsequent recordings are started from step 14 by a recording instruction 10 from the host.
In this way, when the condition of the medium is bad, the reproduction is surely performed, and when the condition of the medium is good, the reproduction is omitted by monitoring the reflected light of the recording beam. I can do it.

[Second Embodiment] FIG. 2 shows a second embodiment of the present invention.
It is a flowchart which shows embodiment example of this. Hereinafter, the operation of the present embodiment will be described.

After step 21 for inserting a medium into an optical recording / reproducing apparatus such as an optical disk, the medium is formatted in step 22. In this format, a defective sector of the medium is assigned to a replacement sector, and an error determination value is derived. This value is set to a level at which the reproduction error rate can be reliably detected.

The setting of the error judgment value is performed as follows. First, the error determination value is changed variously, and the reproduction error rate for each error determination value is measured. Then, an error determination value such that the value of the error rate is equal to or less than a predetermined error rate, for example, 10-5 or less, is derived from the measured value by a numerical analysis method and set. Further, the error determination value needs to be set to a level at which an error can be reliably detected. Specifically, there is a method of measuring the error of the part to be detected as an error and defining it at a level equal to the number of errors in that area, a method of defining at the level equal to the number of errors for each error length, etc. is there. Further, the number of errors is larger than the number of errors to be detected, for example, 2
Such as setting the level to detect twice the amount of errors,
The level may be set to a level that can be detected with higher sensitivity.

In step 23 for recording the recording beam monitoring determination value, the slice level determination value is recorded in an area other than the area where the data is recorded. It is preferable that the slice level determination value and the recording power be recorded for each zone in the test area assigned to each zone.

When there is a recording instruction 20 from the host, the drive confirms the data by monitoring the reflected light of the recording beam in step 25 based on the error judgment value for each zone including the sector to be recorded. Since the error determination value varies depending on the value of the recording power, it is preferable to change the slice level determination value in proportion to the value of the recording power. In step 26, the status of the recording beam monitor is monitored, and if an error condition is detected, step 2 is executed.
At step 7, data is confirmed by reproduction. If an error is detected by reproduction after recording, the data is rewritten to a replacement sector. When the recording is completed in this way, the data recording is terminated in step 28.

The second and subsequent recordings are started from step 24 by a recording instruction 20 from the host. With this configuration, recording by the recording beam monitor can be started instantaneously at the time of recording, so that high-speed and reliable recording can be performed.

[Third Embodiment] FIG. 3 shows a third embodiment of the present invention.
It is a flowchart which shows embodiment example of this. Hereinafter, the operation of the present embodiment will be described.

After inserting the medium into an optical recording / reproducing apparatus such as an optical disk in step 31, the medium is formatted in step 32. In this format, a defective sector of the medium is assigned to a replacement sector, and a sector number that does not need to be replaced but at which one or more read errors have occurred is determined. In step 33 for recording error information for each zone (or for each track), the information of the sector where the error has occurred is recorded in an area other than the area where the data is recorded. It is a good example to record the number of defective sectors and the number of defects for each zone in a test area assigned to each zone.

When there is a recording instruction 30 from the host, the drive determines the recording quality preset for each drive in the comparison / judgment step 35 based on error information for each zone (or each track) including the sector to be recorded. Compare with If the recording quality is worse than the drive requires,
At step 36, after recording, reproduction is performed to confirm data. If the recording quality is higher than the recording quality required by the drive, only recording is performed in step 37. Thus, the process ends when the recording is completed.

The second and subsequent recordings are started from step 34 by a recording instruction 30 from the host. In this way, when the condition of the medium is bad, the reproduction can be reliably performed, and when the condition of the medium is good, the reproduction can be omitted. Therefore, recording can be performed at high speed and reliably by monitoring the state of the medium.

[Fourth Embodiment] FIG. 4 shows a fourth embodiment of the present invention.
It is a flowchart which shows embodiment example of this. Hereinafter, the operation of the present embodiment will be described.

When there is a recording instruction from the host, the drive starts recording data in step 41. First, at step 42, at least one sector at the head of recording is recorded and reproduced.
Check if there is a sector with bad recording. If there is a defective recording sector, the data is confirmed by performing reproduction after recording in the subsequent recording in step 43. If there is no defective recording sector, the post-recording reproduction in the subsequent recording in step 44 is omitted. Then, in step 45, the last few sectors of the recording are recorded / reproduced, and it is confirmed whether or not there is a defective recording sector. If there is a defective recording sector, all the sectors recorded in step 44 are checked in step 46. If there is no defective recording sector, the data recording is terminated at step 47 as it is.

In this way, it is possible to surely check the recording state in the first and last sectors, to reliably perform reproduction when the recording state is bad, and to omit reproduction when the medium state is good. it can. Therefore, recording can be performed at high speed and reliably while monitoring the state of the medium.

[Fifth Embodiment] FIG. 5 shows a fifth embodiment of the present invention.
It is a flowchart which shows embodiment example of this. Hereinafter, the operation of the present embodiment will be described.

When there is a recording instruction from the host, the drive starts recording data in step 51. First, at step 52, at least one sector at the head of recording is recorded and reproduced.
Check if there is a sector with bad recording. If there is a defective recording sector, data is recognized by performing reproduction after recording in the subsequent recording in step 53. If there is no defective recording sector, verification is performed in step 54 by monitoring the recording beam. Then, in step 55, at least one sector at the end of recording is recorded / reproduced, and it is confirmed whether or not there is a defectively recorded sector. If there is a defective recording sector, all the sectors recorded in step 54 are reproduced in step 56, and the recorded data is checked. If there is no defective recording sector, the data recording ends at step 57.

In this manner, the recording state is reliably confirmed in the first and last sectors, and the intermediate area is confirmed by the change in the reflected light during recording. If the recording state is poor, the reproduction is surely performed. If the state is good, the confirmation by recording and reproduction can be omitted. Therefore, recording can be performed at high speed and reliably while monitoring the state of the medium. The above embodiments may be used alone or in combination.

[0037]

As described above, according to the present invention, the result of performing format recording / reproduction on a medium inserted into the apparatus is recorded, and based on the information recorded at the time of data recording. By judging whether to perform the verification by the recording beam or the reproduction after the recording, it is possible to shorten the recording time while securing the recording quality. Further, high-speed recording can be realized only by providing a processing determination mechanism in the reproducing system without modifying the conventional optical system.

Further, at the time of data recording, the first and last at least one sector is reproduced after recording to confirm the recording state.
The recording time can be reduced while maintaining the recording quality. As described above, optical disc recording / recording that has both high speed and high quality
A reproduction method can be realized.

[Brief description of the drawings]

FIG. 1 is a flowchart showing a first embodiment of the present invention.

FIG. 2 is a flowchart showing a second embodiment of the present invention.

FIG. 3 is a flowchart showing a third embodiment of the present invention.

FIG. 4 is a flowchart showing a fourth embodiment of the present invention.

FIG. 5 is a flowchart showing a fifth embodiment of the present invention.

[Explanation of symbols]

10 Recording instruction from host 11 Inserting medium into optical recording / reproducing apparatus such as optical disk 12 Formatting medium 13 Recording error information for each zone or track 14 Starting data recording 15 Step 16 for comparing and judging error information such as sectors to be recorded with recording quality 16 Recording step for reproducing after recording 17 Step for verifying using a recording beam monitor during recording 18 Judgment whether an error is detected in Step 17 Step 19: Step of confirming data by reproduction

Claims (5)

[Claims] In an optical recording method for recording data on a recording medium using a light beam, when a recording medium is newly inserted into an apparatus, an error is generated by performing format recording / reproduction on the recording medium. A first step of measuring the state; a second step of recording the error state measured in the first step in an area other than the data area; Compare the quality, if the measured error state is higher than the preset recording quality, verify by monitoring the reflected light of the recording beam, and if the measured error state is lower than the preset recording quality, A third step of performing reproduction and verification after recording. 2. An optical recording method for recording data on a recording medium using a light beam, wherein when a recording medium is newly inserted into an apparatus, an error is generated by performing format recording / reproduction on the recording medium. A first step of measuring the state, a second step of deriving an error determination value from the error state measured in the first step, and an error determination value derived in the second step, A third step of recording data in an area, and a fourth step of performing verification by monitoring reflected light of a recording beam using a derived error determination value during data recording. Recording method. 3. An optical recording method for recording data on a recording medium by using a light beam, wherein when a recording medium is newly inserted into an apparatus, format recording / reproduction is performed on the recording medium to thereby perform each recording. A first step of measuring an error state of each sector block, a second step of recording the error state of each sector block measured in the first step in an area other than the data area, If the area to be recorded is a sector block having no error, recording is performed without performing verification after recording. If the area to be recorded is a sector block having an error, reproduction is performed after recording and the third step of verifying is performed. An optical recording method, comprising: 4. An optical recording method for recording data on a plurality of sectors of a recording medium by using a light beam, wherein at the time of data recording, at least the first sector is reproduced after recording to measure an error state. Step 1 and, following the first step, if there is no error in the first step, perform data recording without performing verification after recording, and if there is an error, reproduce and verify after recording. And a third step of measuring the error state by reproducing at least the last one sector after recording, following the second step when there is no error in the first step; and If there is no error in the third step and there is an error in the third step, the entire area recorded in the second step without performing verification after recording is read. The optical recording method characterized by comprising a fourth step of performing verification by reproducing I. 5. An optical recording method for recording data in a plurality of sectors of a recording medium using a light beam, wherein at the time of data recording, at least the first sector is reproduced after recording to measure an error state. Step 1 and following this first step, if there is no error in the first step, data recording is performed while verifying by monitoring the reflected light of the recording beam, and if there is an error, data is reproduced after recording. A second step of verifying the data and verifying the error state by reading from at least the last one sector after recording, following the second step if there is no error in the first step. And if there is no error in the first step and there is an error in the third step, the recording beam Fourth performing verification by reproducing the whole area was recorded while verifying by monitoring the reflected light
An optical recording method comprising the steps of: