KR20050097783A - Method for detecting inferiority of a rewritable disk - Google Patents

Abstract

The rewritable optical disc failure detection method according to the present invention comprises the steps of recording test data in a predetermined area of an optical disc in accordance with loading of the optical disc, and reproducing test data recorded in a predetermined area of the optical disc, Determining whether there is a failure.

As described above, the present invention records and reproduces test data as the optical disc is loaded to determine whether there is an abnormality of the optical disc, and then records the data on the optical disc, thereby preventing the use of the optical disc with a high data defect rate in advance. The loss of data due to a bad disk can be prevented.

Description

How to detect rewritable optical disc failures {METHOD FOR DETECTING INFERIORITY OF A REWRITABLE DISK}

The present invention relates to a failure detection of a rewritable optical disc, and more particularly, to a rewritable optical disc that detects whether an optical disc is defective by recording test data on the optical disc in a security system storing image data on a rewritable optical disc. The present invention relates to a method for determining whether there is a defect.

Optical disc media have evolved from CD-DA, CD-ROM and the like to CD-R and CD-RW recordable standards, starting with CD. Recording capacity is also developing from the CD series to the DVD series with the development of laser diodes. Since a CD and a DVD coexist, a set for playing a DVD is commonly used to play a previous CD-based disk medium. In particular, in recent years, a hybrid disc capable of playing both a DVD and a CD in a single disc playback device. (Hybrid disc) is commercially available.

An optical disc recording and reproducing system to which such an optical disc medium is applied has been developed. In particular, a security system capable of storing and deleting a large amount of data among the optical disc media, that is, a rewritable DVD? RW has been developed.

That is, a rewritable optical disc applied to a security system can record image data shot by a surveillance camera for a long time, and the user can arbitrarily store data stored on the optical disc in another medium, for example, a hard disk. You can reuse the optical disc by deleting it.

However, when such a rewritable optical disc is used for a long time or deleted and reused many times, there is a high possibility of an optical disc failure.

In general, the process of detecting an optical disc failure by the optical disc recording and reproducing system notifies when an error occurs while writing data to the optical disc.

However, when an optical disc recording and reproducing system is applied to a security system, when an error occurs during data recording, the security data recorded up to the time of the error generation becomes useless. In other words, there is a problem that a gap occurs in security due to data loss, which is the most important part of the security system.

SUMMARY OF THE INVENTION An object of the present invention is to solve such a problem of the prior art, by recording arbitrary test data on an optical disc and checking the optical disc for failure before recording the data on the optical disc, thereby recording the data, It is an object of the present invention to provide a rewritable optical disc failure detection method capable of preventing data loss.

In order to achieve the above object, the present invention provides a method for detecting whether an optical disc is defective in a system for recording and reproducing an optical disc, wherein the test data is loaded according to the loading of the optical disc. And reproducing test data recorded in a predetermined area of the optical disc to determine whether the optical disc is defective.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings. FIG. 1 is an internal block diagram of an optical disk reproducing and recording system shown for explaining a process of detecting a defect of a rewritable optical disk.

Referring to FIG. 1, an optical disc recording and reproducing system includes an A / D converter 20 for converting a signal input from the outside into digital data, and an MPEG Enc (MPEG Enc) for encoding the converted digital data into an amppack type ( 30), a digital recording signal processing unit (DSP) 70a which adds an error correction code (ECC) to the encoded digital data and converts it into a fixed recording format, and a video signal converted into the recording format as a bit stream. The channel bit encoder 80 for reconversion, the optical driver 81 for driving the laser diode LD to record the image signal of the bit stream on the optical disc 10, and the image signal to the optical disc 10. The optical pickup 11 for recording or reproducing the sound, the sled motor M for moving the optical pickup 11, the spindle motor M for rotating the optical disk 10, the sled motor and the spindle motor. Drive (DRV) 90, an RF unit 100 for filtering and shaping a recording signal read out from the optical disc 10 into an RF signal, and a digital reproduction signal processing unit for processing the filtered RF signal into digital image data ( DSP) 70b, an amplifier pack decoder 120 that decodes the digital image data processed and outputs the original image, and a servo unit 110 that controls servo operations of the optical pickup 11 and the drive unit 90. And the microcomputer 60 in which test data for controlling the servo unit 110 and the digital signal processing units 70a and 70b and detecting whether the rewritable optical disc is defective or not is stored. The test data stored in the microcomputer 60 is data recorded as the rewritable optical disc 10 is loaded.

A process of detecting a failure of an optical disk when loading a rewritable optical disk in the optical disk recording and reproducing apparatus having the above configuration will be described with reference to FIG. 2 is a flowchart illustrating a process of determining a failure of an optical disc in the optical disc reproducing and recording apparatus according to the present invention.

Referring to FIG. 2, as the rewritable optical disk is loaded, the microcomputer 60 sets a test mode and controls the optical driver 81 to pick up a driving current suitable for the optical power for recording (for example, 35 mW). Applied to the laser diode (LD) in the (11) to form a light beam for recording, at this time, the microcomputer 60 withdraws the test data stored in the internal memory to provide to the A / D converter 20 and test The recording start position at which the data is to be recorded is stored in the memory (S200).

The test data is converted into digital data by the A / D converter 20 and input to the amppack encoder 30. The amppack encoder 30 encodes the digital data into an amppack type and then inputs the digital recording signal processor 70a. to provide.

The digital recording signal processing unit 70a adds an error correction code (ECC) to the encoded digital data, converts it into a constant recording format, and provides the converted bit to the channel bit encoder 80. The channel bit encoder 80 converts the recording format. Reconvert the test data into a bit stream. The test data converted into the bit stream is recorded from the recording start position of the optical disc 10 (S202).

When all of the test data is recorded on the optical disk 10 through this process, the microcomputer 60 switches to the test data regeneration mode so that the laser diode is controlled to emit light at an optical power (for example, 3 to 5 mW) suitable for regeneration. In addition, the search start position of the test data stored in the internal memory of the microcomputer 60 is searched for (S204).

The microcomputer 60 drives the drive unit 90 through the control of the servo unit 110 through the search of the recording start position, and the drive unit 90 controls the sled motor M under the control of the servo unit 110. ), The optical pickup 11 is moved to the corresponding track at the recording start position, and the spindle motor M is driven to rotate the optical disk 10.

As a result, the optical pickup 11 irradiates the reproducing light to the moved position so that the test data recorded from the moved position is read out (S206). That is, the optical pickup 11 detects the test data recorded by irradiating the reproducing light on the rotating optical disk 10 and outputs a high frequency (HF) signal to the RF unit 110. In addition to amplifying the HF signal, the 110 indicates a focus error (FE) signal, a tracking error (TE) signal, and a PI (Photo Integrity) signal (PDD signal of PD) required by the servo unit 110. Signal generated using the sum) and the like is provided to the servo unit 110.

The microcomputer 60 determines whether the level of the test signal read out from the optical pickup 110 is greater than or equal to a predetermined value (S208). If the level of the test signal is greater than or equal to a predetermined value, the RF unit 100 determines that the level of the test signal is greater than or equal to a predetermined value. In operation S210, it is determined whether a focusing error occurs using the level of the FE signal output from the SFE.

As a result of the determination in step S210, when a focusing error occurs, that is, when the level of the FE signal is greater than or equal to a preset value, the microcomputer 60 displays a predetermined warning message such as "It is an unusable optical disk" (not shown). In addition to the display, the optical disk 10 is unloaded (S216). Otherwise, it is determined whether a tracking error occurs using the level of the TE signal output from the RF unit 100 (S212).

As a result of the determination in step S212, when a tracking error occurs, that is, when the level of the TE signal is greater than or equal to the preset value, the microcomputer 60 returns to step S216 and displays a predetermined warning message such as "It is an unusable optical disk." A recording mode for displaying on (not shown) and unloading the optical disc 10, and otherwise recording externally input data, that is, image data shot by a camera, on the rewritable optical disc 10. Proceed to state.

As a result of the determination in step S208, when the level of the test signal read out from the optical pickup 11 is less than the predetermined value, the microcomputer 60 returns to step S216 and displays a predetermined warning message such as "It is an unusable optical disk". In addition to displaying (not shown), the optical disc 10 is unloaded.

That is, in the optical disk failure detection method according to the present invention, as a rewritable optical disk is loaded, test data is recorded in a predetermined area of the optical disk and then reproduced to detect whether the optical disk can be used.

As described above, in contrast to the conventional method of detecting a failure of an optical disc in the process of recording data, the present invention records and reproduces test data as the optical disc is loaded, and then determines whether there is an abnormality of the optical disc. By recording the data in the memory device, it is possible to prevent the use of the optical disk having a high data defective rate in advance and to prevent the loss of data due to the failure of the optical disk.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

FIG. 1 is an internal block diagram of an optical disc reproducing and recording system for explaining a process of detecting a defect of a rewritable optical disc,

2 is a flowchart illustrating a process of determining a failure of an optical disc in the optical disc reproducing and recording apparatus according to the present invention.

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

10: optical disc 11: optical pickup

20: A / D converter 30: amp pack encoder

60: microcomputer 80: channel bit encoder

81: optical driver 90: drive section

100: RF unit 110: servo unit

120: amppack decoder

Claims (3)

A method of detecting whether an optical disc is defective in a system for recording and playing an optical disc, Recording test data in a predetermined area of the optical disk according to the loading of the optical disk; Reproducing test data recorded in a predetermined area of the optical disc to determine whether the optical disc is defective or not; Rewritable optical disc failure detection method comprising a. The method of claim 1, Determining whether there is a failure during the reproduction of the test data, When the signal level value corresponding to the test data read out from the optical disc is at least greater than a preset value or a focusing error signal or tracking signal output when the test data is reproduced is at least greater than a preset value, the optical disc A rewritable optical disc failure detection method, characterized in that it is determined to be defective. The method of claim 1, If the optical disc is defective, a predetermined warning message is displayed on the display device.