KR100877833B1 - Method for detecting a defect area in optical disc driver - Google Patents

Abstract

The present invention relates to a defect area detecting method in an optical disc apparatus, and more particularly, to a method and apparatus for detecting a defective area in an optical disc apparatus, in which, among a mark and a space formed on a track of an optical disc such as a rewritable CD (CD- By detecting the defect area of the optical disc based on the level of the signal that is reflected and photoelectrically converted by the space section formed and recorded by the erasing optical power level Pe that is more stable than the recording optical power level Pw for the recording optical power level Pw, It is possible to detect a defect area more accurately and to prevent a recording error in recording data in a defect area in advance.

A rewritable optical disc, a defective area, a mark, a space,

Description

TECHNICAL FIELD [0001] The present invention relates to a method for detecting a defective area in an optical disc apparatus,             

FIG. 1 is a block diagram of an optical disc apparatus to which a defective area detecting method according to the present invention is applied,

FIG. 2 shows a mark and a space formed by recording on a track of a rewritable optical disc,

3 shows the waveform and the optical power level of the HF recording signal corresponding to the waveform of the EFM signal,

4 is a flowchart illustrating an operation of the method of detecting a defective area in an optical disc apparatus according to the present invention.

[Description of Drawings]

10: optical disk 11: optical pickup

12: LD driving unit 13: recording waveform generating unit

14: Modulation section 15: Encoder

16: control unit 17: low-pass filter

The present invention relates to an optical disc apparatus for detecting a defect area of an optical disc when performing a data recording operation for recording external input data on an optical disc such as a CD-RW (CD-RW) And a method of detecting a scene area.

2. Description of the Related Art In recent years, optical discs such as an optical recording medium capable of recording and storing high-quality digital video data and high-quality digital audio data for a long time, for example, rewritable CD (CD-RW)

On the other hand, in an optical disc apparatus such as a CD-RW driver (CD-RW Driver) capable of recording / reproducing data to / from the rewritable CD-RW as described above, external input data such as video and audio data Modulates the optical power level of the laser diode included in the optical pickup to a mark and a space corresponding to the recording signal by encoding and modulating the optical signal into a recording signal suitable for recording, And is formed and recorded on a track of the optical disk.

Further, the optical disc apparatus detects and detects a level of a signal to be reflected and photoelectrically converted by the marks and spaces while performing a data recording operation, and then detects a defect area of the optical disc based on the signal level.                         

For example, when the level of a signal to be reflected and photoelectrically converted by the mark and space is lower than a predetermined reference signal level set in advance, the recording position is changed into a defect area in which foreign matters or scratches are present And recording data in a normal data recording area excluding the defect area, it is possible to prevent a data recording error in advance.

However, since the level of the signal reflected and photoelectrically converted by the mark formed on the optical disk is detected as an irregular signal level in accordance with the waveform of the recording signal, there is a problem that errors are frequently generated in the defective area detection operation have.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method of reproducing information on a level of a signal to be reflected and photoelectrically converted by a space section formed on a track of an optical disc, such as a rewritable CD- It is an object of the present invention to provide a defective area detecting method in an optical disk apparatus for more accurately detecting a defective area of an optical disk.

According to another aspect of the present invention, there is provided a method for detecting a defective area in an optical disc apparatus, comprising the steps of: encoding and modifying external input data into a signal suitable for recording; recording marks and spaces on the optical disc; Detecting a level of a signal to be reflected and photoelectrically converted; And a second step of detecting a defective area of the optical disc based on the level of the signal when the photoelectrically converted signal is a signal reflected by the space section.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a defective area detecting method in an optical disc apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 illustrates a configuration of an optical disc apparatus to which a defective area detecting method according to the present invention is applied. For example, an optical disc apparatus such as a CD-RW driver (CD-RW driver) includes a rewritable optical disc 10 An LD (Laser Diode) driver 12, a recording waveform generating unit 13, a modulating unit 14 and an encoder 15 for recording data on a recording medium (not shown).

A control unit 16 for controlling operations of the respective components, a low-pass filter 16 for removing high-frequency components of a signal detected and photoelectrically converted from a photo detector (not shown) included in the optical pickup, (17) may be included.

And. The control unit 16 controls operation of the respective constituent means to encode and modulate external input data such as video and audio data into a recording signal suitable for recording and then outputs the optical power of the laser diode included in the optical pickup Optical power level of the optical disc is varied and marks and spaces corresponding to the recording signal are formed on the track of the optical disc.

2, the mark and space formed on the track of the optical disc have a run-length of 3T to 11T, and the recording light The erase power level Pe is higher than the erase power level Pe set for forming the space and the erase optical power level Pe is higher than the bias optical power level Pb, .

3, in the LD driving unit 12, the recording optical power level Pw (n) of the laser diode included in the optical pickup is changed according to the waveform of the recording signal modulated by EFM (Eight to Fourteen) And the erasing optical power level Pe are variably adjusted to form and record marks and spaces on the tracks of the optical disc, respectively.

On the other hand, the control unit 16 detects the level of a relatively stable RF signal that is reflected and photoelectrically converted by the space period, and then, based on the RF signal level, detects the defective area The detection operation is performed as follows.

FIG. 4 is a flowchart showing the operation of the defect area detecting method in the optical disc apparatus according to the present invention. For example, when it is required to record the external input data on the optical disc such as the rewritable CD (CD-RW) The control unit 16 sets a data recording mode (S10), controls the operation of the recording waveform generator 13, the modulator 14, and the encoder 15, The external input data is encoded and modulated into a recording signal suitable for recording (S11).

The LD driving unit 12 is controlled to variably adjust the recording optical power level Pw and the erasing optical power level Pe of the laser diode included in the optical pickup 11, And a space are formed and recorded (S12).

Meanwhile, the controller 16 reflects the RF signal, which is detected by the photodetector (PD) included in the optical pickup, by the mark and space formed through the recording process, When the RF signal is received through the filter 17, the level of the RF signal is detected (S13).

In addition, it is checked whether the level of the RF signal is an RF signal reflected by the space interval of the optical disc (S14). For example, in the LD driving unit 12, The RF signal detected in a state in which the optical power level is variably adjusted is identified by the RF signal reflected by the space section.

Then, the control unit 16 compares the level of the RF signal with a predetermined reference level set in advance, for example, a reference level corresponding to the erase power level Pe (S15) (S16), detection is made to the defect area in which scratches or foreign substances are present at the recording position (S17).                     

Accordingly, since a normal defect compensation recording operation of recording data in a normal data recording area except for the defect area is performed (S18), it is possible to detect the defect area more accurately, and as a result, A recording error for recording data can be prevented in advance.

For reference, the present invention is applicable to another optical disk device other than the CD-RW driver (CD = RW Driver) and another rewritable optical disk other than the CD-RW.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. , Substitution or addition, or the like.

The method for detecting a defective area in an optical disc apparatus according to the present invention as described above is a method for detecting a defective area on a track of an optical disc such as a rewritable CD (CD-RW) A defect area of the optical disc is detected based on the level of the signal reflected and photoelectrically converted by the space section formed and recorded by the erasing optical power level Pe that is more stable than the recording optical power level Pw for forming This makes it possible to detect a defect area more accurately and prevent a recording error in which data is recorded in a defective area beforehand, which is a very useful invention.

Claims (4)

A first step of detecting a level of a signal to be reflected and photoelectrically converted by the optical disc while data is recorded on the optical disc with marks and spaces; And And detecting the defective area of the optical disc based on the level of the signal when the photoelectrically converted signal is a signal reflected by the space section. A method for detecting a scene area. The method according to claim 1, In the second step, when the level of the photoelectric conversion signal detected in the state in which the level of the laser light power is adjusted to the previously set erasure light power level exceeds the predetermined tolerance level set in advance, And detecting the defective area in the optical disc apparatus. Recording means for recording data on marks and spaces on the optical disc; And Detecting a level of a signal to be reflected and photoelectrically converted by the optical disc and detecting a defect area of the optical disc based on the level of the signal when the photoelectrically converted signal is a signal reflected by the space section And a detecting means for detecting the optical disc. The method of claim 3, The detection means detects, when the level of the photoelectric conversion signal detected in the state where the level of the laser light power is adjusted to the previously set erasure light power level exceeds the predetermined tolerance level, to the defective region of the optical disk The optical disc apparatus comprising:

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