KR100524962B1 - Method for determining optimum writing power and disk drive using the same - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for determining the recording power of a disk drive, and more particularly, to an optimal recording power determining method in which gamma (γ) accurately determines an optimal recording power using zero or its adjacent point value. It is about a disk drive.

In the recording power determination method according to the present invention, in the recording power determination method, (a) recording a test signal while changing the recording power in a predetermined area of the disc, (b) the test recorded in the step (a) Calculating a gamma value corresponding to each recording power by reproducing a signal; (c) recording a target corresponding to a target gamma value under a condition in which a gamma curve deviation according to a deviation of disc drive constituting means including a disc is less than or equal to a predetermined value; Detecting a power value and (d) multiplying the target recording power value by a predetermined constant to determine an optimal recording power.

Description

Method for determining optimum writing power and disk drive using the same

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for determining the recording power of a disk drive, and more particularly, to an optimal recording power determining method in which gamma (γ) accurately determines an optimal recording power using zero or its adjacent point value. It is about a disk drive.

In general, recordable disc drives record EFM test data by varying the recording power in an area called the PCA (Power Calibration Area) formed on the inner circumference of the disc, and then recording the EFM test data to reproduce the gamma (γ) curve for the recording power. After finding, the optimal recording power is determined by the following method.

First, gamma γ is defined as in Equation (1).

γ = (dM / dPw) / (M / Pw)

Where M is the modulation degree and Pw is the recording power.

The optimal recording power determination technique according to the prior art detects a point where the gamma (γ) value changes rapidly, determines the gamma value at this point as the target gamma, and is larger than 1 to the target gamma value. The optimal recording power was determined by multiplying the parameter constant values.

By the way, the gamma curve with respect to the recording power fluctuates due to factors such as disc eccentricity, deflection and set adjustment deviation. That is, as shown in FIG. 1, when the gamma curve for the recording power is changed from the first gamma (γ ₁ ) curve to the second gamma (γ ₂ ) curve due to factors such as the disc eccentricity, the target power is also P. _{From target1} to P _target2 , the optimum recording power also changes from P _W01 to P _W02 .

Accordingly, if the conventional technique is applied, even when recording to the same disk in the same disk drive, there is a problem in that the optimal recording power cannot be accurately detected due to the above factors, which adversely affects the recording quality.

As a known technology developed to improve such a problem, there is a "optical disk device" disclosed in Korean Patent Laid-Open Publication No. 2003-0019075.

Korean Patent Laid-Open Publication No. 2003-0019075 uses a slope of modulation degree M to be connected to a straight line connecting points at which the slope of modulation degree M with respect to the recording power changes rapidly or the slope of the change in modulation degree becomes constant. A technique for determining an optimal recording power using the recording power of a point is proposed.

However, this technique also uses the recording power corresponding to the detected point in the region where the modulation degree or gamma value is severely changed to determine the optimal recording power, thereby causing factors such as disc eccentricity, deflection and set adjustment deviation. There is a problem that it is difficult to accurately determine the optimal recording power in the case where such a phenomenon occurs.

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention provides an optimal recording power determining method and a disk drive using the same to accurately determine the optimal recording power even when factors such as disk eccentricity, deflection and set adjustment deviation occur. It is.

In order to achieve the above technical problem, the method of determining an optimal recording power according to the present invention includes the steps of: (a) recording a test signal while changing recording power in a predetermined area of a disc; reproducing the gamma value corresponding to each recording power by reproducing the test signal recorded in (a), (c) a target under the condition that the deviation of the gamma curve according to the deviation of the disk drive constituting means including the disk is equal to or less than a predetermined value; Detecting a target recording power value corresponding to the gamma value, and (d) multiplying the target recording power value by a predetermined constant to determine an optimal recording power.

Disc drive according to the present invention to achieve the above another technical problem, a disk drive, a disk having a surface, a spindle motor for rotating the disk, a pickup for recording information on the disk, and reading the information from the disk, An R / F signal processing unit for filtering the signal detected by the pickup, converting the signal into a binary signal, decoding a binary signal input from the R / F signal processing unit in a reproduction mode, and encoding a signal to be recorded in a recording mode. A digital signal processor, a laser diode driver for generating a laser diode driving signal based on a set recording power of data encoded by the digital signal processor in a recording mode, a sled motor for moving the pickup to a target track, the spindle motor, and the Driving each of the sled motors A motor drive unit for generating a current, a spindle motor drive voltage for rotating the spindle motor at a target speed, and a sled motor drive voltage for moving the pickup to a target track, respectively, for executing tracking control and focus control; A servo control unit records a test signal while changing a recording power in a predetermined area of the disk, regenerates the recorded test signal to calculate a gamma value corresponding to each recording power, and includes a disk drive configuration means including a disk. Gamma curve according to the deviation The disk drive to detect the target recording power value corresponding to the target gamma value of the condition that the deviation is less than the predetermined value, and multiply the target recording power value by a predetermined constant to determine the optimal recording power A system controller for controlling the constituent means; It characterized in that it comprises a memory for storing optimum recording power information determined in the system control group.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, a disk drive to which the present invention is applied includes a disk 10, a pickup 20, an R / F signal processor 30, a laser diode driver 40, a digital signal processor 50, and a system. The control part 60, the memory 70, the servo control part 80, the motor drive part 90, the sled motor 100, and the spindle motor 110 are provided.

First, the operation of each component is as follows.

The pickup 20 is composed of a laser diode, a plurality of photodiodes, various lenses, and an actuator for moving the lens in a horizontal / vertical direction, to project an optical signal onto a disk, and to detect an optical signal reflected from the disk to electrically It performs the role of converting the signal. In particular, a plurality of photodiodes are combined, and these signals are combined to generate a tracking error signal T.E and a focus error signal F.E for servo control, and also generate a signal used for signal processing.

The R / F signal processing unit 30 outputs the signal processing signal detected by the pickup 20 to the system control unit 60 after filtering the signal, and converts the filtered signal into a binary signal to convert the signal to a digital signal ( 50).

The laser diode driver 40 generates a laser drive signal based on the data encoded by the digital signal processor 50 in the recording mode according to the laser power value determined by the system controller 60, and in the reproduction mode, the laser power of a constant level. Outputs a laser drive signal for generating the?

The digital signal processing unit 50 executes decoded signal processing for restoring the binary signal input from the R / F signal processing unit 30 to the original data with its phase-locked clock in the reproduction mode, and the digital data input in the recording mode. Coded signal processing for adding an error correction code (ECC) or the like to the recording format is performed.

The servo controller 80 generates an actuator driving voltage of the pickup 20 for controlling the pickup 20 in the horizontal or vertical direction by using the tracking error signal and the focus error signal, and picks up the target track in the seek mode ( A driving voltage of the sled motor 130 for moving 20 is generated. Then, the spindle motor driving voltage for driving the spindle motor 110 is generated corresponding to the spindle motor target rotational speed determined by the system controller 60.

The motor driver 90 generates a driving current for driving the spindle motor 110 and the sled motor 100 according to the driving voltage generated by the servo controller 80, and focuses the optical lens of the pickup 20. Generates an actuator drive current of the pickup 20 for controlling tracking.

The memory 70 stores various control information for controlling the disk drive. In particular, the optimum laser power information determined by the present invention is stored.

The system controller 60 collectively controls the disk drive configuration means to conform to the mode set according to the key input. In particular, the disk drive is controlled to execute the process of determining the optimal recording power as follows according to the flowchart shown in FIG.

First, the laser diode driver 40 and the digital signal processor 50 are controlled to record the test signal while sequentially changing the recording power Pw in an area called a PCA (Power Calibration Area) of the disk 10 (S110). ). That is, the system controller 60 transmits the laser power determination information to the laser diode driver 40 to sequentially increase the recording power. Of course, when the system control unit 60 applies a control signal corresponding to the test signal recording command of the optimum recording power determination mode to the servo control unit 80, the servo control unit 80 rotates the spindle motor 110 at the target speed. The spindle motor 110 driving signal and the sled motor 100 driving signal for moving the position of the pickup 20 to the target track of the PCA position are respectively output to the motor driving unit 90.

After finishing the process of recording the test signal to the PCA while changing the recording power, the system controller 60 reproduces the test signal recorded in the PCA to calculate a gamma (γ) value for each recording power Pw. Control to execute (S120).

That is, when the system control unit 60 applies a control signal corresponding to the test signal reproducing command of the optimum recording power determination mode to the servo control unit 80, the servo control unit 80 rotates the spindle motor 110 at a target speed. The spindle motor 110 driving signal and the sled motor 100 driving signal for moving the position of the pickup 20 to the target track of the PCA position are respectively output to the motor driving unit 90. In addition, the system control unit 60 transmits the reproduction laser power determination information of a predetermined level to the laser diode driver 40.

Accordingly, the pickup 20 detects an optical signal corresponding to the test signal recorded in the PCA of the disk 10, converts the optical signal into an electrical signal, and outputs the signal to the R / F signal processor 30. Then, the waveform is shaped by the R / F signal processor 30 and output to the system controller 60.

The system controller 60 calculates a modulation degree M for each recording power from the input R / F signal, and calculates gamma values γ for each recording power using the calculated modulation degree.

After calculating the gamma value for each recording power, the system control unit 60 sets the point at which the gamma value becomes zero among the calculated gamma values as the target gamma value, and thus the recording power value corresponding to the target gamma value. Is determined as the target recording power (P _target ) value (S130).

The correlation between the modulation degree and the gamma value for each recording power is shown in FIG. 3, and the gamma curve may be changed by factors such as disc eccentricity, deflection and set adjustment deviation. ) And gamma 2 (γ2) curves.

As shown in FIG. 3, even if the gamma curve fluctuates due to factors such as disc eccentricity, deflection and set adjustment deviation, the gamma fluctuation range at the point where the gamma slope sharply changes is gamma at zero. It can be seen that the fluctuation range of.

Therefore, in the present invention, even if the gamma curve is fluctuated by factors such as disc eccentricity, deflection and set adjustment deviation, the gamma value in the region where the variation of the recording power corresponding to the gamma value is small is used as the target gamma value.

Then, the system controller 60 determines the optimum recording power P _W0 by multiplying the target recording power P _target value by a value constant K that is greater than 0 and less than 1 (S140). Here, the constant K is experimentally determined to produce the optimum recording performance when the optimal recording power is lowered by a ratio based on the target recording power P _{target at} which the gamma value becomes zero. As an example, the recording performance may be determined by a bit per error rate (BER) value.

The system controller 160 stores the determined optimal recording power P _W0 in the memory 70 (S150). In the recording mode, the optimum recording power _PW0 stored in the memory 70 is used as the recording power value.

In an exemplary embodiment of the present invention, the target recording power is obtained at a point at which the gamma value becomes 0. However, the present invention is not limited thereto, and the variation amount of the gamma curve due to the disc eccentricity, deflection and set adjustment deviation is small. That is, the target recording power may be determined at a point where the gamma value is close to zero in the gamma curve for the recording power.

The invention can be practiced as a method, apparatus, system, or the like. When implemented in software, the constituent means of the present invention are code segments that necessarily perform the necessary work. The program or code segments may be stored in a processor readable medium or transmitted by a computer data signal coupled with a carrier on a transmission medium or network. Processor readable media includes any medium that can store or transmit information. Examples of processor-readable media include electronic circuits, semiconductor memory devices, ROMs, flash memory, erasable ROM (EROM), floppy disks, optical disks, hard disks, optical fiber media, radio frequency (RF) networks, Etc. Computer data signals include any signal that can propagate over transmission media such as electronic network channels, optical fibers, air, electromagnetic fields, RF networks, and the like.

Specific embodiments shown and described in the accompanying drawings are only to be understood as an example of the present invention, not to limit the scope of the invention, but also within the scope of the technical spirit described in the present invention in the technical field to which the present invention belongs As various other changes may occur, it is obvious that the invention is not limited to the specific constructions and arrangements shown or described.

As described above, according to the present invention, in the gamma graph for the recording power, the recording power corresponding to a value of zero or near zero is determined as the target recording power, and the target recording power is multiplied by a constant value smaller than 1 to optimize the recording power. Determining the recording power of the circuit produces an effect of accurately detecting the optimum recording power value even if factors such as disc eccentricity, deflection and set adjustment deviation occur.

FIG. 1 shows modulation and gamma curves for a change in recording power for explaining a method of determining an optimal recording power according to the prior art.

2 is a block diagram of a disk drive to which the present invention is applied.

3 is a diagram illustrating modulation and gamma curves for a change in recording power for explaining a method of determining an optimal recording power according to the present invention.

4 is a flowchart of a method for determining an optimum recording power according to the present invention.

Claims (6)

In the recording power determination method, (a) recording a test signal while changing the recording power in the power adjustment area of the disc; (b) calculating a gamma value corresponding to each recording power by reproducing the test signal recorded in the step (a); (c) detecting a target recording power value corresponding to a target gamma value of a condition in which the gamma curve deviation according to the deviation of the disc drive constituent means including the disc is less than or equal to a predetermined value; And and (d) multiplying the target recording power value by a constant greater than 0 and less than 1 to determine an optimal recording power. 2. The method of claim 1, wherein the target gamma value comprises zero. delete In the disk drive, A disk having a surface; A spindle motor for rotating the disk; A pickup that records information on the disk and reads information from the disk; An R / F signal processor for shaping the signal detected by the pickup and converting the signal into a binary signal; A digital signal processor for decoding a binary signal input from the R / F signal processor in a reproduction mode and encoding a signal to be recorded in a recording mode; A laser diode driver for generating a laser diode driving signal based on the set recording power of the data encoded by the digital signal processor in a recording mode; A sled motor for moving the pickup to a target track; A motor driver configured to generate driving currents of each of the spindle motor and the sled motor; A servo controller for generating a spindle motor driving voltage for rotating the spindle motor at a target speed and a sled motor driving voltage for moving the pickup to a target track, respectively, and executing tracking control and focus control; The test signal is recorded while the recording power is changed in the power adjusting area of the disk, the recorded test signal is reproduced to calculate a gamma value corresponding to each recording power, and according to the deviation of the disk drive configuration means including the disk. Detect a target write power value corresponding to a target gamma value under a condition where the gamma curve deviation is less than or equal to a predetermined value, and multiply the target write power value by a constant greater than 0 and less than 1 so as to execute a process for determining an optimal write power. A system controller for controlling drive configuration means; And And a memory for storing optimal recording power information determined by the system controller. The disk drive of claim 4, wherein the target gamma value comprises zero. delete