KR100917483B1 - How to set recording power of optical disc drive - Google Patents

Abstract

The present invention discloses a method for setting recording power of an optical disc drive. According to an aspect of the present invention, there is provided a method of setting a recording power of an optical disk drive, comprising: measuring a first driving voltage value of a light source while performing a focus servo on the optical disk; After removing the optical disk, measuring a second driving voltage value of a light source; Calculating an error by comparing the first driving voltage value with the second driving voltage value; It is characterized in that it comprises the step of setting the recording power in consideration of the calculated error value.

The present invention relates to a recording power setting method for an optical disk drive, and in particular, at the time of setting the recording power, an error value of the recording power that is changed by being substantially reflected by the optical disk can be reduced.

Record Power, Monitor PD

Description

METHODE FOR RECODING POWER SETTING OF OPTICAL DISC DRIVE}

1 is a view schematically showing an optical system structure of a general optical pickup device.

2 is a graph showing the correlation between the objective lens and the monitor PD according to the conventional recording power.

3 is a view illustrating a path through which light is reflected by a disk in the optical system structure of the optical pickup apparatus according to the present invention.

4 is a diagram illustrating the inflow into a monitor PD of reflection by an optical disk according to the present invention;

5 is a view showing a change in voltage value due to disk reflection when performing the focus servo according to the present invention.

The present invention relates to a recording power setting method of an optical disc drive, and more particularly, to a recording power setting method of an optical disc drive that can reduce an error value of recording power that is changed by being substantially reflected by an optical disc when setting recording power.                         

Optical discs are disc media that have begun to become more common as CDs have become widespread, and are expected in recent years due to the emergence of large-capacity DVDs. In general, optical discs are repetitive discs, such as CD-ROMs, DVD-ROMs, and the like, CD-Rs, DVD-Rs, etc. It can be classified as a recordable disc.

The optical recording / reproducing apparatus records an information on an optical disc by irradiating a light beam of relatively large energy that can change the physical characteristics of the information recording layer, and uses an optical disc of small energy that does not change the physical characteristics of the information recording layer. Play back information from.

To this end, an optical recording / reproducing apparatus typically drives a laser diode at a relatively high recording power to perform optical recording during recording using a laser diode. Such an optical recording / reproducing apparatus inevitably performs an Optimal Power Control (OPC) process for selecting a recording power suitable for a disc when information is recorded on a recordable optical disc. For the OPC, the recordable optical disc has a PCA, which is a test area for determining recording power, in an unused area of the innermost circumference.

Taking an optical recording / reproducing apparatus, i.e., a CD-RW as an example, the recording speed of a CD-RW is getting faster. Currently, CD-RW devices that can record from 1x up to 48x are coming out, and each record has a different recording power.

The recording power refers to the power when the light emitted from the LD of the pick-up is finally emitted through the objective lens OL of the pick-up.                         

It is important to have an appropriate recording power for each double speed at the time of recording. For example, if you record on the disc at 28x speed, you should record with the proper recording power at 28x speed.If you record more or less than the proper power, the recording pit will not be created correctly. Occurs when playback is not possible.

In order to have an appropriate recording power, it is also important to know the value of the emitted power accurately. Knowing the recording power correctly can infer whether the current value is an appropriate value.

Therefore, the CD-RW has a power setting for the set at the time of production, and the correct setting of the CD-RW enables accurate recording power control.

1 is a view schematically showing an optical system structure of a general optical pickup device. As shown therein, a laser diode 11 for outputting a laser beam, a monitor PD 17 for adjusting recording power, and a prism for condensing the light output from the laser diode 11 to the monitor PD. (13), a collimation lens 12 for making the light output from the laser diode 11 into a parallel beam, and a reflector for changing an optical path to irradiate the disk with the parallel beam passing through the collimation lens 12; (14), an objective lens (15) for focusing a parallel beam whose optical path is changed by the reflector (14) at a point on the disk (16).

Referring to FIG. 1, the laser beam output from the laser diode 11 is converted into a parallel beam through the collimation lens 12, and the parallel beam is changed in the optical path by the reflector 14 to the objective lens 15. Is focused through and condensed at any one point on the disk 16.

On the other hand, a part of the laser beam output from the laser diode 11 is collected by the prism 13 and incident on the monitor PD 17, thereby providing information for adjusting the recording optical power.

As described above, different laser diode powers are required when recording or removing information from the disc and reading the record information. Thus, in order to change the laser diode power, it is conventionally used as a means for checking the power state of the objective lens. A condenser lens is used to collect light in the monitor PD unit.

On the other hand, the conventional method of setting the recording power for each set in the production of CD-RW is as follows.

2 is a graph showing the correlation between the objective lens and the monitor PD according to the conventional recording power.

First, after adjusting to an appropriate low power (about 1 mW), the laser diode LD is turned on and the output power from the objective lens is measured. Then, the value of the monitor PD 17 at that time is stored.

More specifically, the monitor PD 17 is for measuring LD emission power to apply APC, and the APC measures laser diode power at the monitor PD 17 so that the emission power from the objective lens does not change. By controlling the amount of current supplied to the laser diode with this value, even if the output power of the laser diode 11 changes, the output waveform from the objective lens does not change and a constant value is obtained.

After the measurement for the low power is finished, the laser diode is turned on with a high power (adjusted to a value of about 10 mW) and the output power from the objective lens is measured at this time. The monitor PD value at this time is stored.

In addition, a correlation value may be obtained by obtaining a slope value of the output power of the objective lens with respect to the monitor PD with the values of the output power of the monitor PD and the objective lens with respect to the two pointers.

Therefore, if a predetermined monitor PD value is known using the graph showing the correlation, the output power value of the objective lens with respect to the value can be known.

However, when the optical recording power is set by the above method, the recording power is measured and set in the absence of the optical disc, and the recording power is actually changed in the presence of the optical disc. This is because the light reflected from the optical disk is introduced into the monitor PD through various paths, and thus the output power from the objective lens is different.

The present invention relates to a recording power setting method of an optical disc drive, and more particularly, to provide a recording power setting method of an optical disc drive that can reduce an error value of recording power that is changed by being substantially reflected by an optical disc when setting recording power. .

In order to achieve the above object, a recording power setting method of an optical disk drive according to the present invention,

Measuring a first driving voltage value of a light source while performing a focus servo on the optical disc;

After removing the optical disk, measuring a second driving voltage value of a light source;

Calculating an error by comparing the first driving voltage value with the second driving voltage value;

It is characterized in that it comprises the step of setting the recording power in consideration of the calculated error value.

Here, in particular, the first driving voltage value and the second driving voltage value are characterized by providing a low recording power and a high recording power having a predetermined value, respectively, and measuring the recording power in consideration of an error with the value. .

In particular, the characteristic is that the slope of the correlation with respect to the recording power is obtained from the low recording power value and the high recording power value measured in consideration of the error.

The present invention relates to a recording power setting method of an optical disk drive, and in particular, it is possible to reduce an error value of the recording power that is changed by being substantially reflected by the optical disk during recording power setting.

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

3 is a view illustrating a path through which light is reflected by a disk in the optical system structure of the optical pickup apparatus according to the present invention. A description of the optical system of the optical pickup device will be omitted with reference to FIG. 1.

First, as shown in FIG. 3, the first driving voltage value of the light source is measured by the monitor PD 17 while performing the focus servo on the optical disk.

4 is a diagram showing the inflow into the monitor PD of reflection by the optical disk according to the present invention. As shown therein, an automatic laser power control (APC) circuit 41 for controlling the driving of the laser diode (LD) 42 is used in a device for recording and reproducing data on an optical recording medium. .

Here, the APC circuit 41 receives a voltage applied to the monitor PD 44 as an input and maintains a constant laser driving current in response to the variation amount. When the WREF level is set and recording is started, the operational amplifier amplifies the voltage difference between the signal FPDO fed back from the monitor PD 44 and the write reference WREF level, and outputs the pickup module to the output VWDC level. The laser diode (LD) 42 is driven.

5 is a view illustrating a change in voltage value due to disk reflection when performing focus servo according to the present invention. As shown in the drawing, it can be seen that the driving voltage value changes at the time when the focus servo is performed on the optical disk.

This is a phenomenon in which the value of the monitor PD 44 increases due to the optical disk reflection and thus the driving voltage decreases by the APC 41. Since the APC response is fast, the monitor PD appears to be unchanged.

After the optical disk is removed, the second driving voltage value of the light source is measured by the monitor PD.

Subsequently, an error is calculated by comparing the first driving voltage value with the second driving voltage value.

When the second drive voltage is 226 mW when there is no optical disk, 1 mW when the second drive voltage is 226 mW, but when the servo is actually performed with the optical disk, a first drive voltage of 219 mW is applied and the objective lens output power is 0.8 mW. Therefore, there is about 20% error.

Then, setting the recording power in consideration of the calculated error value is performed.

Accordingly, the optical recording / reproducing apparatus detects a signal proportional to the amount of reflected light (i.e., a high frequency signal), calculates a parameter corresponding to the up and down symmetry of the high frequency signal waveform, i.e., beta β, to maintain the beta value constant. The adjusted optimal recording power is selected, and the data to be recorded is recorded on the disc in accordance with the file structure.

Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, the present invention relates to a recording power setting method of an optical disk drive according to the present invention. In particular, an error value of the recording power that is changed by being substantially reflected by the optical disk during recording power setting can be reduced.

Claims (3)

Measuring a first driving voltage value of a light source while performing a focus servo on the optical disc; After removing the optical disk, measuring a second driving voltage value of a light source; Calculating an error by comparing the first driving voltage value with the second driving voltage value; And setting the recording power in consideration of the calculated error value. The method of claim 1, The first driving voltage value and the second driving voltage value provide a first recording power and a second recording power larger than the first recording power, respectively, and measure the recording power in consideration of an error with the value. How to set recording power of optical disc drive. The method of claim 2, And a slope of a correlation between the recording power and the recording power using the first recording power value and the second recording power value measured in consideration of the error.

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