KR20060072740A - Write error reinforcement method of blank disk in optical disk writer - Google Patents

Abstract

In the optical disc recording apparatus according to the present invention, a recording error reinforcement method of a blank disc comprises: executing a recording test of a blank media to check and store a defective area; And lowering the recording speed of the defective area in the recording process.

As described above, the present invention can detect the defective area of the defective blank disc (empty media) in advance, and record at the lowest speed in the defective area to minimize the problems occurring during recording or playback.

Blank disc (media), RF signal, recording error, bad area

Description

Write error reinforcement method of blank disk in optical disk writer             

1 is a block diagram showing a general optical disc reproducing apparatus.

2 is a diagram illustrating an RF signal when a medium of a disk according to the prior art is defective.

3 is a diagram illustrating an RF signal when a fingerprint is attached to a disk according to the related art.

4 is a flowchart showing a recording error reinforcement method for a blank disk in the optical disk recording apparatus according to the embodiment of the present invention.

FIG. 5 is a diagram showing a form of disk recording double speed when recorded by the recording error reinforcement method of a blank disk in the optical disk recording apparatus shown in FIG.

<Description of the symbols for the main parts of the drawings>

1: Disc 100: LD output setting section

200: LD output control unit 300: optical pickup unit

310: LD driver 320: laser diode (LD)

330: I / V amplifier 400: motor

410: spindle motor 420: motor drive part

500: data recovery unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for reinforcing a recording error of a blank disk in an optical disk recording apparatus, and more particularly, to recording a blank disk in an optical disk recording apparatus capable of reducing recording errors of media having a bad medium and ensuring stable recording quality. It relates to an error reinforcement method.

Among the huge variety of CD and DVD -R, + R series media currently on the market, there are often discs that fail in certain areas. Some of these media defects are perceived with the naked eye because of the wrong dye is sprayed, but the wobble (Wobble), etc. of the media is not confirmed by the naked eye.

In the event of an abnormality using bad media that is not visible to the naked eye, ordinary (lack of technical awareness) consumers often mistake this for an optical drive problem, which is a major problem for optical drive manufacturers. Can lead to image loss.

Currently, there are various methods for determining the media recording speed in the optical disc drive recorder such as multisession, DAO, SAO, and TAO recording for each media code.

Such a recording method is a method of recording without determining whether a specific area of a medium is defective or not, and a recording or playback error often occurs when a medium is bad in a specific area.

This will be described in more detail with reference to FIGS. 1 to 3.

First, referring to FIG. 1, a general optical disk reproducing apparatus includes: a laser diode (LD) output setting unit 100, a laser diode output control unit 200, an optical pickup unit 300, a motor unit 400, and data. Restoration unit 500 is included.

In the laser diode (LD) output setting unit 100, a laser sets the output of the diode.

The laser diode output control unit 200 detects the output signal of the laser diode output setting unit 100 and the FPD (Front Photo Detector) detected by the optical pickup unit 300 (more accurately, the optical detector of the optical pickup unit). ) Compares signals and emits a predetermined control signal.

The optical pickup unit 300 generates a laser under the control of the laser diode output control unit 200 to process and output the laser signal reflected on the optical storage medium 1.

In addition, the optical pickup unit 300 includes an LD driver 310, a laser diode (LD) 320, an I / V amplifier 330, and a photo detector 340.

The LD driver 310 drives the laser diode under the control of the laser diode output controller.

The laser diode (LD) 320 generates a laser required to read information from the optical storage medium.

The I / V amplifier 330 converts the current output from the laser diode into a voltage and amplifies the signal.

The photo detector 340 receives the output of the laser generated from the laser diode and converts it into an electrical signal.

The motor unit 400 rotates the optical storage medium 1.

In addition, the motor unit 400 includes a spindle motor 410 and a motor driver 420 for driving the spindle motor 410.

The data recovery unit 500 restores the output signal of the optical pickup unit 300 to original information.

2 is a view showing an RF signal when the medium of the disk according to the prior art is bad, Figure 3 is a view showing an RF signal when the fingerprint on the disk according to the prior art.

If the size of the RF signal is detected regularly for a certain short time, if the medium is bad or if fingerprints are left on the surface, the size of the RF signal may be abnormally large. If this area is recorded, an error may occur. Even if this is done, there is a high possibility that an error occurs during playback.

For example, when the medium of the disk is bad, it is common to have a portion where the size of the RF signal periodically increases in a specific region as shown in FIG. 2. In this part, even after recording, non-ideal waveforms of the same periodic component remain in the RF signal, and reproduction errors are more likely to occur.

In addition, when the fingerprint is on the disk, as shown in Figure 3 has a feature that the RF signal is irregularly large evenly in a wide area in the fingerprint. Even in this case, the irregular signal before recording is carried on the RF waveform, and the shape remains even when the fingerprint is erased.

The present invention has been made to solve the above problems, the object of which is to detect the defective area of the defective blank disc (empty media), and to record at the lowest speed in the defective area to minimize the problems occurring during recording or playback There is provided a method for reinforcing a recording error of a blank disc in an optical disc recording apparatus that can be reduced.

In order to achieve the above object, a recording error reinforcement method of a blank disc in an optical disc recording apparatus according to the present invention comprises: checking and storing a defective area by executing a write test of a blank media; And lowering the recording speed of the defective area in the recording process.

The recording test process includes detecting a magnitude of an RF signal of a blank media; Determining whether the RF signal size is greater than or equal to a predetermined standard; And reading out and storing the defective position of the media if the RF signal size is greater than or equal to a predetermined reference.

The media recording process includes the steps of recording initialization and recording start; Determining whether the current recording area is a media defective area; And recording at a lower recording speed if the current recording area is a defective area.

The recording of the defective area is preferably made at the lowest speed in the CLV method.

The CLV (Constant Linear Velocity) means that the writing speed of the writer for a defective area of a blank disk is always constant.

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

4 is a flowchart showing a recording error reinforcement method for a blank disk in the optical disk recording apparatus according to the embodiment of the present invention.

As shown in Fig. 4, in the present invention, a recording error reinforcement method for a blank disc in an optical disc recording apparatus will be described using an authoring tool.

The authoring tool is a tool for recording a blank disc (media), and is implemented to perform two stages: actual recording (SII) and recording test (SI) to test before the actual recording.

The write test step SI includes a function of detecting a defective area of a blank medium (disc).

Further, in the actual recording step SII, the defective area of the blank media (disc) detected in the recording test step SI is read so that the recording is performed at a lower speed than the normal double speed for the defective area. Records should be made at normal speed in the area of.

That is, in the present invention, a write test is first performed (S101).

Then, the present invention detects the size of the RF signal for the entire blank media through the recording test (S102) (see the second graph of FIG. 5).

Then, in the present invention, it is determined whether the size of the RF is greater than or equal to a predetermined standard (S103). In Figs. 2, 3 and 5, the criterion is denoted alpha by tuning.

If the size of the RF is greater than or equal to alpha, it indicates a disk failure, and information (such as a disk failure location) is stored in a driver, a PC, or the like. (S104) As will be described below, the defective area has the lowest speed. The record is made.

Then, in the present invention, it is determined whether the recording test is to be terminated when the size of the RF is less than alpha in step 103 or when a bad position of the disc is stored in step 104 (S105).

If the size of the RF is less than alpha, it means that the current area under the recording test is the normal area. As will be described below, recording is performed at the normal speed for the normal area.

If the recording test has not been completed above, step 102 is executed to continuously detect the magnitude of the RF signal for the remaining area of the blank media.

If the recording test has ended in step 105 above, step II (actual recording of blank media) is entered.

Referring to the blank media actual recording step (II), in the present invention, the recording is first initialized (S106) and then recording on the blank media is started. (S107)

Then, in the present invention, it is determined whether the area to be recorded at this time is the defective area stored in step 104 (S108).

If the area where the current recording is to be made is the defective area, the optical drive is set to the super link mode so that the recording speed of the media is lowered (preferably lowered to the lowest recording speed). (S109) (see the first graph of FIG. 5)

For reference, when the recording of the defective area is completed, it returns to the original recording speed.

If the area to be recorded in the step 108 is not a defective area or if the recording of the defective area is performed in step 109, it is determined whether the recording of the media is completed (S110).

In step 110, if the recording of the media is not completed, step 108 is repeatedly executed. If the recording of the media is completed, subsequent actions (eg, program termination, etc.) are performed by the user.

FIG. 5 is a diagram showing a form of disk recording double speed when recorded by the recording error reinforcement method of a blank disk in the optical disk recording apparatus shown in FIG.

The recording method of the optical drive shown in FIG. 5 is CAV (Constant Angular Velocity).

The CAV means that the recording speed increases linearly.

That is, recording is performed at the normal recording speed in the video area of the blank media (disc), and is recorded lower than the normal recording speed in the defective area of the blank media (disc).

It is preferable that recording in the defective area of the blank media (disc) is performed at the lowest speed, and that the defective area is preferably recorded in a CLV (Constant Linear Velocity) method.

The CLV (Constant Linear Velocity) means that the write speed of the writer is always constant.

As described above, according to the present invention, when there is a defective area of a blank media (disc), recording errors at the defective area or post-recording reproduction error can be reduced by recording at the CLV of the optical drive lowest speed with respect to the defective area. have.

As described above, with reference to the preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

As described above, the present invention can detect the defective area of the defective blank disc (empty media) in advance, and record at the lowest speed in the defective area to minimize the problems occurring during recording or playback.

Accordingly, the present invention can implement a more reliable and stable system than the prior art.

Claims (4)

Executing a write test of the blank media to check and store the defective area; And And recording is performed at a lower recording speed for the defective area in the recording process. The method of claim 1, wherein the recording test process Detecting the magnitude of the RF signal of the blank media; Determining whether the RF signal size is greater than or equal to a predetermined standard; And And reading out and storing a defective position of the media when the RF signal size is greater than or equal to a predetermined reference. The method of claim 1, wherein the media recording process is Recording initialization and recording start; Determining whether the current recording area is a media defective area; And And recording at a slower recording speed if the current recording area is a defective area. 4. The method of claim 1 or 3, wherein recording to the defective area is performed at the lowest speed in the CLV method.

Images