KR100712778B1 - Method for recording data in optical disc device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data recording method in an optical disc recorder. For example, in various types of optical disc recorders such as a DVD-Recorder or the like, before performing a data recording operation, it is optimal in a specific area around an optical disc. By performing an OPC operation, predicting an optical power value suitable for the highest recording speed, and selectively applying the predicted optical power value to an operation of a laser power control for data recording. It is a very useful invention that it is possible to prevent data recording errors in the outer circumferential area, and also to perform the data recording operation more quickly by omitting the optimum power calculation operation in the outer circumferential specific area of the optical disc.

DVD Recorder, Optimal Power Calculation (OPC), Optical Power, Record Speed, Optical Power Control Operation

Description

Data recording method in optical disc recorder {Method for recording data in optical disc device}

1 shows an embodiment of a general data recording process,

2 illustrates an embodiment in which a data recording error occurs in a general data recording process;

3 shows a configuration of an optical disc recorder to which the present invention is applied;

4 is a flowchart illustrating an operation of a data recording method in the optical disc recorder according to the present invention;

5 and 6 show an embodiment of the data recording process according to the present invention.

※ Explanation of code for main part of drawing

10: optical disc 11: optical pickup

12: spindle motor 13: sled motor

14 motor drive 15 optical drive

16 channel bit encoder 17 recording digital signal processing unit

18: RF processing unit 19: reproduction digital signal processing unit

20: Servo 21: Micom

22: memory

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data recording method in an optical disc recorder. For example, in various types of optical disc recorders such as a DVD-Recorder, an optical power control operation for recording data is properly performed. The present invention relates to a data recording method in an optical disc recorder for allowing variable adjustment to record data normally.

In general, in various types of optical disc recorders such as DVD recorders that can record and store high quality video data and high quality audio data for a long time, a recordable DVD (eg DVD-R) or a rewritable DVD (eg DVD) When data is recorded on an optical disk such as RW), a series of optimal power calculation operations (OPC) for detecting a laser power value to be applied to a laser diode after accessing a specific area of the optical disk are performed. Calculation) is performed.

For example, as shown in FIG. 1, after accessing an inner PCA (PCA) area of an optical disc, an optimum power calculation (OPC) operation is performed at 4x speed to record 4x speed. Detects an optical power value suitable for, and accesses an outer PCA area of the optical disk, and then performs an optimum power calculation (OPC) operation at the highest recording speed, for example, 16 times, and then performs 16 times speed. The optical power value suitable for recording will be detected.

As described above, by using the 4x speed optical power value and the 16x speed optical power value detected by the optimum power calculation (OPC) operation in the inner PCA area and the outer PCA area, respectively, as described above. For example, as shown in FIG. 1, when data is recorded in the circumferential direction from the inner circumference of the data area of the optical disc, the data recording speed is set to CAV (Constant Angle). Velocity) will gradually increase from 4x to CAV 16x.

In addition, when the recording speed increases gradually, the optical power value applied to the laser diode is gradually increased. For example, at CAV 4 times, the optical power value applied to the laser diode is adjusted to 40 mW, and the CAV is adjusted. At 8x speed, the optical power value is increased to 50mW, at CAV 12x, the optical power value is 60mW, and at CAV16x, the optical power value is gradually increased to 70mW.

On the other hand, as described above, the optical power values suitable for the respective recording speeds may be varied by various peripheral factors. For example, when the internal temperature of the optical disc recorder becomes high, as shown in FIG. When the optical power value suitable for double speed is increased from 40mW to 45mW, the optical power value suitable for 16x speed, the highest recording speed, increases from 70mW to 78.75mW based on the proportionality of '40: 45 = 70: x '. do.

However, when the maximum laser power value that can be applied to the laser diode is limited to 70 mW, 78.75 mW, which is an optical power value suitable for 16 times speed, cannot be applied to the laser diode. There is a problem that a fatal error occurs in the 16x data write operation.

Therefore, the present invention was created to solve the above problems, and for example, in various types of optical disc recorders such as a DVD-Recorder, before performing a data recording operation, an inner peripheral specific area of the optical disc is performed. Performs an optimal power calculation (OPC) operation, predicts an optical power value suitable for the highest recording double speed, and then selectively applies the predicted optical power value to an optical power control operation for data recording. SUMMARY OF THE INVENTION An object of the present invention is to provide a data recording method in an optical disc recorder for preventing a data recording error in the present invention.

A data recording method in an optical disc recorder according to the present invention for achieving the above object comprises the steps of: detecting an actual optical power value by performing an optimal power calculation operation in a specific area around the optical disc; Calculating a predicted optical power value at the highest recording double speed by comparing the detected actual optical power value with a reference optical power value corresponding thereto; And selectively applying the predicted optical power value to an optical power control operation for data recording, according to whether the calculated predicted optical power value can be supported.

In addition, the data recording method in the optical disc recorder according to the present invention comprises the steps of: detecting an actual optical power value by performing an optimum power calculation operation at a predetermined recording speed in a specific area around the optical disc; Calculating a predicted optical power value at the highest recording double speed by comparing the detected actual optical power value with a reference optical power value at the predetermined recording double speed; And if the calculated predicted optical power value is not supportable, applying the optical power value for data recording from the actual optical power value at the predetermined recording double speed to a preset maximum optical power value. It is characterized by.

Best Mode for Carrying Out the Invention A preferred embodiment of a data recording method in an optical disc recorder according to the present invention will be described in detail with reference to the accompanying drawings.

First, the data recording method according to the present invention can be applied to various types of optical disc recorders, such as a DVD-Recorder. For example, as shown in FIG. 10), optical pickup 11, spindle motor 12, sled motor 13, motor drive 14, optical drive 15, channel bit encoder 16, recording digital signal processor 17, RF The processor 18, the reproduced digital signal processor 19, the servo unit 20, the microcomputer 21, the memory 22, and the like may be included.

The memory 22 may be a nonvolatile memory such as an EEPROM or a flash memory, and the memory 22 includes a reference optical power value (Reference_Laser Power) suitable for each recording speed. ) And information about a maximum laser power that can be applied to the laser diode LD included in the optical pickup 11 is stored and managed.

In addition, when the microcomputer 21 performs a data recording operation according to a user's request, the microcomputer 21 can record once by controlling the servo unit 20, the optical drive 15, and the like. After accessing an inner peripheral specific area of the optical disc 10 such as a DVD-R or a rewritable DVD (for example, DVD-RW), for example, an inner PCA area, a predetermined recording speed (for example, 4 times speed) ) To perform an optimal power calculation (OPC) operation.

In addition, through the optimum power calculation operation, an actual optical power value suitable for the predetermined recording double speed is detected, and the detected actual optical power value is compared with a reference optical power value stored and managed in the memory 22. After predicting the optical power value suitable for the highest recording speed, the predicted optical power value is selectively applied to the operation of the laser power control for data recording. Is the same as

4 is a flowchart illustrating an operation of a data recording method in the optical disc recorder according to the present invention. For example, in the microcomputer 21, before the data recording operation is performed, the servo unit 20 is performed. And operation of the optical drive 15 to access the inner PCA area of the optical disc 10, and then perform an optimal power calculation (OPC) operation at a predetermined recording speed (e.g., 4x speed). It is performed (S30).

After detecting the optical power value suitable for the predetermined double speed through the optimum power calculation operation (S31), the detected actual optical power value and the reference optical power at a predetermined double speed stored and managed in the memory 22 are detected. By comparing the values (S32), the optical power value suitable for the highest recording double speed is predicted and calculated (S33).

For example, as shown in FIG. 5, an actual optical power value suitable for 4x is stored in the memory 22 by an optimal power calculation (OPC) operation performed in an inner PCA region. It can be detected at 38mW, which is somewhat lower than 40mW, which is a managed 4x reference optical power value (Reference_Laser Power).

The microcomputer 16 compares 38 mW, which is the detected actual optical power value of 4x speed, and 40mW, which is the 4x speed reference optical power value stored and managed in the memory 22, as described above. When the reference optical power value and the actual optical power value are 40mW and 38mW and the reference optical power value of 16x is stored and managed at 70mW, the prediction suitable for 16x speed is performed by using a '40: 38 = 70: x 'proportional formula. The optical power value is calculated as x = 66.5mw.

On the other hand, the microcomputer 16 determines the maximum optical power value (Max Laser Power) stored and managed in the memory 22 to determine whether the predicted optical power value can be supported (S34). For example, if the predicted optical power value of 16x speed is 66.5mW and the checked maximum optical power value is 70mW, it is determined that the predicted optical power value can be supported, and the actual optical power value of the predetermined double speed (for example, 38mW) is determined. And, the predicted optical power value (for example, 66.5mW) is applied to the laser power control operation (S35).

On the other hand, as shown in Fig. 6, the internal temperature of the optical disc recorder is high, and according to the optimum power calculation (OPC) operation performed in the inner PCA region, the actual optical power value suitable for 4x speed is obtained. It can be detected as 45mW higher than 40mW, which is the reference optical power value (Reference_Laser Power) of 4x speed stored and managed in the memory 22.

The microcomputer 16 compares 45 mW, which is the detected actual optical power value of 4x speed, and 40mW, which is the 4x speed reference optical power value stored and managed in the memory 22, as described above. When the reference optical power value and the actual optical power value are 40mW and 45mW, and the reference optical power value of 16x speed is stored and managed at 70mW, the prediction suitable for 16x speed using the '40: 45 = 70: x 'proportional formula The light power value is calculated as x = 78.7mw.

In addition, the microcomputer 16 determines the maximum optical power value (Max Laser Power) stored and managed in the memory 22 to determine whether the predicted optical power value can be supported. If the predicted optical power value of the double speed is 78.75 mW and the confirmed maximum optical power value is 70 mW, it is determined that the predicted optical power value cannot be supported, and the actual optical power value (for example, 45 mW) of the predetermined double speed and the prior The maximum optical power value (for example, 70 mW) set at is applied to the laser power control operation (S36).

In addition, the optical disc determined by the above process, for example, while controlling the optical power value from 38mW to 66.5mW, while recording data, or variably controlling the optical power value from 45mW to 70mW, A series of data recording operations for recording data in 10 is performed (S37).

For example, as shown in FIG. 5, when the optical power value is variably controlled from 38 mW to 66.5 mW, when recording data in the circumferential direction from the inner circumference of the data area of the optical disc, the data recording speed is increased. Gradually increases from CAV 4x to CAV 16x, the highest record speed.

On the other hand, as shown in FIG. 6, when the optical power value is variably controlled from 45 mW to 70 mW, when recording data in the circumferential direction from the inner circumference of the data area of the optical disc, the data recording speed is CAV 4. Increasing gradually from the double speed, for example, by limiting the speed to at least one step lower than the maximum recording speed of CAV 16 times, it is possible to prevent data recording errors in the peripheral area.

In the microcomputer 21, as shown in Figs. 5 and 6, the optimum power calculation (OPC) operation in the outer PCA area is skipped, so that the data recording operation is quickly performed. Then, any corresponding operation requested by the user is performed (S38).

Or more, preferred embodiments of the present invention described above, for the purpose of illustration, those skilled in the art, within the technical spirit and the technical scope of the present invention disclosed in the appended claims below, to further improve various other embodiments Changes, substitutions or additions will be possible.

The data recording method in the optical disc recorder according to the present invention made as described above is, for example, in various types of optical disc recorders such as a DVD-Recorder, before performing a data recording operation, an inner circumferential specific region of the optical disc. In addition to performing an optimal power calculation (OPC) operation, an optical power value suitable for the highest recording speed is predicted, and then the predicted optical power value is selectively used for an optical power control operation for data recording. It is a very useful invention that it is possible to prevent data recording errors in the outer circumferential area, and also to perform the data recording operation more quickly by omitting the optimum power calculation operation in the outer circumferential specific area of the optical disc. .

Claims (13)

A step (1) of detecting an actual optical power value by performing an optimum power calculation operation in an inner circumferential specific region of the optical disc; Calculating a predicted optical power value at the highest recording double speed by comparing the detected actual optical power value with a reference optical power value corresponding thereto; And And selectively applying the predicted optical power value to an optical power control operation for data recording, depending on whether the calculated predicted optical power value can be supported. Way. The method of claim 1, In the first step, the optical disc recorder detects the actual optical power value by performing an optimal power calculation operation at a predetermined recording speed in the inner PCA of the optical disc before performing the data recording operation. How to record data in The method of claim 1, In the second step, the detected actual optical power value is compared with the reference optical power value of the predetermined recording speed, and then applied to the proportional expression of the reference optical power value and the predicted optical power value of the highest recording speed, and the highest recording. A data recording method for an optical disc recorder, characterized by calculating a predicted optical power value at double speed. The method of claim 1, In step 3, if the calculated predicted optical power value is supported, the predicted optical power value is applied to the optical power control operation for data recording, and if the calculated predicted optical power value is not supported, A data recording method in an optical disc recorder, characterized by applying a preset maximum optical power value to an optical power control operation for data recording. The method of claim 1, The reference optical power value is stored in the non-volatile memory of the optical disc recorder in each recording double speed unit. The method of claim 5, And storing and managing a maximum optical power value that can be supported by the optical pickup of the optical disc recorder in the nonvolatile memory. A step of detecting an actual optical power value by performing an optimum power calculation operation at a predetermined recording speed in the inner circumferential specific region of the optical disc; Calculating a predicted optical power value at the highest recording double speed by comparing the detected actual optical power value with a reference optical power value at the predetermined recording double speed; And If the calculated predicted optical power value is not supportable, the method includes three steps of applying the optical power value for data recording, from the actual optical power value at the predetermined recording double speed to a predetermined maximum optical power value. A data recording method in an optical disc recorder characterized by the above-mentioned. The method of claim 7, wherein In the first step, the optical disc recorder detects the actual optical power value by performing an optimal power calculation operation at a predetermined recording speed in the inner PCA of the optical disc before performing the data recording operation. How to record data in The method of claim 7, wherein In the second step, the detected actual optical power value is compared with the reference optical power value of the predetermined recording speed, and then applied to the proportional expression of the reference optical power value and the predicted optical power value of the highest recording speed, and the highest recording. A data recording method for an optical disc recorder, characterized by calculating a predicted optical power value at double speed. The method of claim 7, wherein In the third step, while the optical power value is gradually increased from the actual optical power value of the predetermined recording speed, when the maximum optical power value is set in advance, the optical power recorder is maintained as it is. How to record data. The method of claim 7, wherein If the predicted optical power value calculated in step 2 is supported, the method further includes applying an optical power value for data recording, from the actual optical power value at the predetermined recording double speed to the predicted optical power value. A data recording method in an optical disc recorder characterized by the above-mentioned. The method of claim 7, wherein The reference optical power value is stored in the non-volatile memory of the optical disc recorder in each recording double speed unit. The method of claim 12, And storing and managing a maximum optical power value that can be supported by an optical pickup of the optical disc recorder in the nonvolatile memory.

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