KR20070064828A - Method for controlling writing power of optical disk by using system variation measurement - Google Patents

Abstract

A method for setting a wring voltage of an optical disc by using system measurement is provided to greatly improve writing performance of an optical disc by remeasuring a servo variable value of a system and setting an optimum servo state for the optical disc when OPC(Optimum Power Control) of the optical disc is performed. OPC is firstly performed by a preliminarily set writing strategy of an optical disc(S20). A servo variable of a system is measured and a servo value is corrected(S40). The OPC is secondly performed by a preliminarily set writing strategy of the optical disc(S50). A writing voltage having the smallest jitter value in jitter values obtained by the firstly and secondly performed OPC is set(S60). Data is written on the optical disc by the set writing voltage(S70). A process for correcting the servo value and secondly performing the OPC is carried out once or many times.

Description

METHOOD FOR CONTROLLING WRITING POWER OF OPTICAL DISK BY USING SYSTEM VARIATION MEASUREMENT}

1 is a block diagram showing an optical disk recording and reproducing apparatus to which a recording voltage setting method of an optical disk according to the present invention is applied;

2 is a flowchart sequentially illustrating a method of setting a recording voltage of an optical disc using system variable measurement according to the present invention.

<Description of the code | symbol about the principal part of drawing>

10 optical disc 20 optical pickup section

30: optical drive unit 40: channel bit encoder

50: digital recording signal processing unit 60: RF unit

70: servo unit 80: digital reproduction signal processing unit

90: driving unit 100: control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a recording method of an optical disc, and in particular, to set an optimal servo state for an optical disc by re-measuring system servo variable values when performing an optimal recording voltage adjustment (OPC) of the optical disc. The present invention relates to a recording voltage setting method of an optical disc using a system variable measurement which can improve the recording performance.

In general, optical recording media include discs for playback only such as CD-ROM (CD-Read Only Memory), DVD-ROM, etc., CD-Write Once Read Many (CD-WORM), DVD-WORM, etc. And write-once discs such as CD-RW (CD-Rewritable) and DVD-Random Access Memory (DVD-RAM).

On the other hand, the recording area arrangement of the recordable discs includes a power calibration area (PCA), a program memory area (PMA), a lead-in area, a program area, and a lead-out area. Separated by. Here, the PCA is an area for calibrating the laser recording voltage for recording data on the disk, and the PMA has head address information of the track on which data is recorded in the program area. Further, data recording information and the like stored in the program area are recorded in the lead-in area and the lead-out area, and actual data to be recorded on the disc is recorded in the program area.

The recording and reproducing apparatus of such an optical disc drives a laser diode to record information on the optical disc by irradiating a light beam of relatively large energy that can change the physical characteristics of the information recording layer existing on the optical disc, and at the same time the information recording layer The information is reproduced from the optical disc using a light beam of small energy that does not change its physical properties.

On the other hand, in order to improve the recording performance of the optical disc, it is necessary to record at the appropriate recording voltage in the entire area of the optical disc. For this purpose, it is necessary to perform an OPC process for setting a recording voltage suitable for the disk before recording the optical disk.

The OPC process is performed by driving a laser diode, reading the format data of the Absolute Time In Pre-groove (ATIP) information recorded on the optical disk, and recording it while adjusting the write voltage according to the test data according to the recording conditions (WS: Write Strategy). Optically picks up and detects a reproduction signal (i.e., RF signal) proportional to the amount of light reflected, and calculates jitter using a variable (i.e., RF beta (β) value) corresponding to the up and down symmetry of the picked up RF signal. The write voltage proportional to the jitter value is set to the write voltage of the optical disc.

However, since the optical pickup unit is very sensitive to the servo state of the system such as tilt and focus of the optical disc, the recording failure rate of the optical disc becomes high if the servo state is unstable even if the optimal recording voltage is set.

SUMMARY OF THE INVENTION An object of the present invention is to solve the problems of the prior art as described above, by performing an OPC according to the recording conditions of an optical disc, re-measuring the system servo parameters such as tilt, and re-performing the OPC in a corrected state. The present invention provides a recording voltage setting method of an optical disc that can set an optimal recording voltage in a stable servo state.

In order to achieve the above object, the present invention provides a method for setting a recording voltage during recording of an optical disc, comprising the steps of performing OPC first with a predetermined recording condition of the optical disc, and measuring servo parameters of the system to correct the servo. Performing the OPC secondly under predetermined recording conditions of the optical disc, setting a recording voltage having the lowest jitter value among the jitter values according to performing the OPC, and recording the data of the optical disc with the set recording voltage. Steps.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1 is a block diagram showing an optical disk recording and reproducing apparatus to which a recording voltage setting method of an optical disk according to the present invention is applied.

As shown in Fig. 1, an optical disc recording and reproducing apparatus according to the present invention includes an optical pickup section 20, an optical drive section 30, a channel bit encoder 40, a digital record signal processing section 50, And an RF unit 60, a servo unit 70, a digital reproduction signal processing unit 80, a driving unit 90, a control unit 100, and the like.

The optical pickup unit 20 records the optical drive signal of the optical drive unit 30 on the optical disc 10, detects the signal recorded from the optical disc 10, and transmits the signal to the RF unit 60. To this end, a laser diode (LD) for recording data on the optical disc 10 by irradiating an optical beam to the optical disc 10 and a data recorded on the optical disc 10 by irradiating an optical beam to the optical disc 10. A photo diode (PD) is read.

The optical driver 30 converts the signal of the channel bit encoder 40 into an optical drive signal for recording on the optical disk 10 and transmits the signal to the optical pickup unit 20.

The channel bit encoder 40 reconverts the data converted into the recording format into a bit stream and transmits the data to the optical driver 30.

The digital recording signal processor 50 adds an error correction code (ECC) or the like to the input digital data, converts it into recording format data, and transmits the converted format data to the channel bit encoder 40.

The RF unit 60 amplifies and waveform-shapes the RF signal detected by the optical pickup unit 20 and modulates a modulated signal, such as an EFM (Eight to Fourteen Modulation) signal, to the control unit 100 or the digital reproduction signal processing unit 80. To pass.

The servo unit 70 controls the driving of the driving unit 90 from the tracking error (TE) and focus error (FE) signals of the optical pickup unit 20 and the rotational speed of the optical disc 10.

The digital reproduction signal processing unit 80 digitally processes the EFM signal of the RF unit 60 and restores the original data to output the reproduced data.

The driving unit 90 drives the sled motor M for moving the optical pickup unit 20 and the spindle motor M for rotationally driving the optical disk 10.

The control unit 100 performs OPC first in accordance with the recording condition WS of the optical disk to obtain an optimal recording voltage, re-measures system servo variables such as tilt, and then corrects the system servo variables. Control to set an optimum write voltage.

In the optical disk recording and reproducing apparatus according to the present invention having the above configuration, the control unit 100 primarily performs OPC according to the recording condition WS recorded in the optical disk 10, and performs system servo variables such as tilt. After re-measurement corrects the system servo variables, OPC is re-conducted secondly to set the recording voltage with the lowest jitter value to the optimal recording voltage, and then data recording of the optical disc 10 is performed.

2 is a flowchart sequentially illustrating a method of setting a recording voltage of an optical disc using a system variable measurement according to the present invention.

1 and 2, a method of setting a recording voltage of an optical disc using system variable measurement according to the present invention proceeds as follows.

Although not shown in the drawing, when the optical disc 10 is loaded into the optical disc recording and reproducing apparatus, the controller 100 controls the servo unit 70 and the driving unit 90 to control the optical pickup unit 20 and the optical disc 10. Adjust the servo. For example, adjustments related to the system servo, such as the tilt of the optical disc 10, the focus of the optical pickup unit 20, the offset, and the correction according to the wobble component of the optical disc 10, are adjusted.

When the key signal for recording is input, the controller 100 sets the recording voltage as follows to perform data recording of the optical disc 10.

First, the control unit 100 reads the format data of the ATIP information recorded on the optical disc 10 through the optical pickup unit 20 and the RF unit 60 and sets the time of the recording condition WS (S10).

The controller 100 controls the OPC to be primarily performed according to the recording condition WS of the optical disc 10. (S20) Accordingly, the controller 100 controls the OPC according to the preset recording condition WS of the optical disc 10. Record while adjusting the write voltage. That is, the recording voltage adjusted according to the test signal is supplied to the laser diode LD of the optical pickup unit 20 through the optical driver 20 and recorded in the PCA region of the optical disc 10.

In addition, the control unit 100 transmits the optical signal picked up by the photodiode PD of the optical pickup unit 20 to the RF unit 60 and a variable corresponding to the vertical symmetry of the RF signal in the RF unit 60. The jitter value having the lowest RF beta (β) value) is obtained, and the write voltage of the lowest jitter value is set to the optimum write voltage (S30).

The controller 100 re-measures the servo variables of the system such as tilt, focus, and offset in the signals detected by the optical pickup unit 20 and the RF unit 60. The servo unit 70 and the driving unit 90 are controlled to adjust the servo by correcting the servo variables of the system according to a preset value.

In addition, the controller 100 controls the OPC to be secondarily performed according to the recording condition WS of the optical disc 10 (S50). Accordingly, the controller 100 readjusts the servo of the system, and then the controller 100 of the optical disc 10 The recording voltage adjusted according to the set recording condition WS is supplied to the laser diode LD of the optical pickup unit 20 through the optical drive unit 20 and recorded in the PCA area of the optical disc 10. Here, it is preferable to perform at least one or more operations of adjusting the servo of the step S40 and performing the OPC of the step S50 secondarily.

The control unit 100 transmits the optical signal of the optical disk 10 picked up by the photodiode PD of the optical pickup unit 20 to the RF unit 60 to correspond to the vertical symmetry of the RF signal in the RF unit 60. The jitter value having the lowest value of the variable (that is, the RF beta (β) value) is obtained, and the write voltage of the lowest jitter value is reset to the optimum write voltage (S60).

Then, the control unit 100 transmits the data input from the digital recording signal processing unit 50 to the recording voltage having the lowest jitter value set through the channel bit encoder 40 and the optical driver 30 through the optical pickup unit 20. Data recording is performed to transfer the data to the optical disc 10. [S70]

Therefore, the present invention sets the optimal recording voltage by performing OPC first according to the recording condition WS of the optical disc, and re-measures the OPC secondly by re-measuring the system servo parameters such as tilt and correcting it. By resetting the optimum write voltage, the optimum write voltage can be obtained while the servo state of the system is stable.

As described above, the present invention performs OPC firstly according to the recording conditions of the optical disk, re-measures and corrects system servo variables such as tilt, and then re-performs OPC secondly so that the servo state of the system is stable. Since the optimum recording voltage can be set, the recording performance of the optical disc can be greatly improved.

On the other hand, the present invention is not limited to the above-described embodiment, various modifications are possible by those skilled in the art within the spirit and scope of the present invention described in the claims to be described later.

Claims (2)

In the method for setting the recording voltage during recording of an optical disc, Performing OPC primarily on predetermined recording conditions of the optical disc; Calibrating the servo by measuring the servo parameters of the system, Performing OPC secondly on a predetermined recording condition of the optical disc; Setting a write voltage having a lowest jitter value among jitter values according to performing the OPC; Recording data of the optical disc at the set recording voltage Method for setting the recording voltage of the optical disk using a system measurement comprising a. The method of claim 1, The method, And at least one or more steps of correcting the servo and performing OPC secondly.

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