KR100545803B1 - How to control recording speed of defect disc - Google Patents

Abstract

The present invention relates to a method of controlling a recording speed of a defect disc for controlling a recording speed at a low speed when recording data on a defect disc having an abnormal area. A first step of detecting an abnormal signal exceeding a preset level; And a second step of reducing the recording speed when the detected abnormal signal is periodically detected, and detects the signal level of the servo error signal generated in accordance with the drive of the optical disc, thereby deciding the current recording area. It is a very useful invention to determine whether or not the defect area is a defect area, and in the case of the defect area, by adjusting the recording speed to a low speed, the recording operation is normally performed even for a disc having the defect area.

Recording speed, tracking error signal, focusing error signal, defect disc, pulse counter

Description

Method for controlling writing speed a disc containing defect area

1 is a block diagram showing the configuration of an optical disk drive device in which a method for controlling a recording speed of a defect disk according to the present invention is implemented.

2A to 2C show the flow of a preferred embodiment of the method for controlling the recording speed of a defect disc according to the present invention;

3 and 4 show examples of servo error signals F.E and T.E generated and output from the R / F unit of FIG. 1 in accordance with the drive of the optical disc.

FIG. 5 shows a servo loop of the FIG. 1 apparatus.

※ Explanation of code for main part of drawing

10: optical disc 11: spindle motor

20: optical pickup 21: sled motor

30a: digital recording signal processor 30b: digital reproduction signal processor

40: channel bit encoder 41: optical driver

50: R / F section 60: servo drive section                 

70: spindle drive 71: pulse counter

80: micom

The present invention relates to a method for controlling the recording speed of a defect disc for controlling the recording speed at the time of recording data of a defect disc having an abnormal area.

The defect disk due to scratches or the like has an influence over a predetermined track. In the initial region of the defect region, that is, the abnormal region, the effect disk is small, but the maximum value is increased at the center of the defect disk.

If data is recorded at a high speed in the center of the defect area of the defect disc, the tracking servo may be turned off during recording and a track accompaniment error may occur, which may cause an abnormal interruption of the recording operation. In this case, since normal recording is not completed, it is impossible to record again from the point where recording was stopped, and even if the data is rewritten from the point where the tracking servo is turned off, the data is overwritten for a certain part and the recorded data cannot be read. Because of this, there was a problem that you need to rewrite from the beginning of the disk, or in the severe case can not write to the disk.

Accordingly, the present invention has been created to solve the above problems, and for a disc having a defect area, a recording speed of a defect disc for controlling a recording speed at a low speed during a recording operation so that a recording operation can be normally performed. The purpose is to provide a control method.

According to an aspect of the present invention, there is provided a method of controlling a recording speed of a defect disc, the method including: a first step of detecting an abnormal signal whose signal level exceeds a predetermined level among signals generated during a recording operation; And a second step of reducing the recording speed when the detected abnormal signal is periodically detected.

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Best Mode for Carrying Out the Invention A preferred embodiment of a method for controlling a recording speed of a defect disk according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of an optical disk drive device in which a method for controlling a recording speed of a defect disk according to the present invention is implemented. A signal processor 30a; A channel bit encoder (40) for reconverting the data converted into the recording format into a bitstream; An optical driver 41 for outputting a light quantity driving signal according to the input signal; An optical pickup (20) for recording a signal on the optical disc (10) in accordance with the light quantity driving signal and for detecting a recording signal from the recording surface; An R / F unit 50 for filtering the signal detected by the optical pickup 20 to output a binary signal; A digital reproduction signal processor (30b) for restoring the binary signal to original data with its clock synchronized with the binary signal; A servo drive unit 60 driving the optical pickup 20 and a sled motor 21 for rotating the optical pickup 20; A spindle drive unit 70 for driving the spindle motor 11 for rotating the optical disc 10; A pulse counter (71) for counting an output pulse (FG signal) of the spindle drive unit 70 in accordance with the rotation of the spindle motor (11); And determining whether the current recording area is the defect area based on the count value and the signal level of the servo error signals FE and TE generated and output from the R / F unit 50, thereby reducing the recording speed. The microcomputer 80 which controls at double speed is comprised.

2A to 2C show a flow of a preferred embodiment of a method for controlling a recording speed of a defect disc according to the present invention. Hereinafter, FIGS. 2A to 2C according to the present invention will be described with reference to the configuration of the driving apparatus of FIG. The control method of the will be described in detail.

First, when the optical disk 10 is inserted and mounted in a tray (not shown) provided therein, when there is a recording request for data input from the outside through the microcomputer 80 (S10), the microcomputer 80 ) Drives the spindle motor 11 through the spindle drive unit 70, rotates the optical disc 10, and drives the sled motor 21 through the servo drive unit 60, the optical pickup. A recording operation is performed by moving 20 to the recording area (S11).

The digital recording signal processor 30a adds an error correction code (ECC) by adding encoding and error correction parity for reliability of recording / reproducing of video and audio data input from the outside for recording on the optical disc 10. Block), and the channel bit encoder 40 converts the digital bitstream output from the digital recording signal processing unit 30a into a pulse width modulated signal form for recording on the optical disc 10. It is applied to the synchronization 41.

The microcomputer 80 controls the optical driver 41 to output a recording signal by an optimal optical driving current, and the optical driver 41 outputs a signal by optical driving power according to the optical pickup. 20, the pulse width modulated signal is recorded in the program area of the optical disc 10, thereby performing a recording operation.

During the recording operation, the microcomputer 80 is generated and output from the R / F unit 50, and the servo error signal digitally converted by the internal microcomputer A / D converter (not shown). That is, signal levels of the focusing error signal FE and the tracking error signal TE are continuously detected (S12), and it is determined whether the detected signal level exceeds a predetermined level (S20).

When it is determined that the signal level of the detected FE and / or TE exceeds a predetermined level, the microcomputer 80 controls the pulse counter 71 to start a counting operation (S21). 71 counts an output pulse (FG signal) output from the spindle drive unit 70 as the spindle motor 11 rotates, and applies the count value N _FG to the microcomputer 80. While the optical disc 10 is rotated once, the count value of the FG signal output from the spindle drive unit 70 is, for example, 12, so that the microcomputer 80 uses the count value of the FG signal. The number of rotations of 10) can be known.

The microcomputer 80 checks whether the signal level of the FE and / or TE exceeds a predetermined level for each predetermined time based on the count value of the pulse counter 71. (S22) If the signal level of the FE and / or TE does not exceed a certain level continuously every one revolution of the optical disc 10 for a predetermined time (S30), the microcomputer 80 has an abnormal signal. It is determined not to be due to the defect of the optical disk 10 but to be temporary due to shock or the like, and the recording operation is continuously performed without adjusting the recording speed (S31).                     

However, if it is confirmed that the level of the TE signal continues to exceed a certain level every one revolution of the optical disc 10 as shown in Fig. 3, the microcomputer 80 affects the current recording area for a predetermined track period. The recording operation is temporarily stopped by determining that it is an abnormal area.

Subsequently, the microcomputer 80 adjusts the current recording speed to a low speed through the spindle drive unit 70 and the spindle motor 11 (S40), and then moves the optical pickup 20 to the next target position. Again, the signal level of the servo error signal generated and output from the R / F unit 50 is detected (S41) to check whether the detected signal level exceeds a predetermined level (S50).

In the checking process, if it is determined that the signal level of the focusing and tracking error signal does not exceed a predetermined level as shown in FIG. 4, the microcomputer 80 determines that the current recording area is out of the defect area. When the recording speed is adjusted to a low speed as described above, the frequency of the focusing and / or tracking error signal exceeding a predetermined level is lowered as shown in FIG. Since the servo gain is increased on the servo loop of the servo loop, the servo gain is increased, so that the focusing and tracking servos are stabilized, thereby making the recording operation stable.

The method for controlling the recording speed of a defect disc according to the present invention as described above detects the signal level of a servo error signal generated in accordance with the drive of an optical disc, and determines whether the current recording area is a defect area. In the case of the defect area, it is a very useful invention that the recording operation is normally performed even for a disc having the defect area by adjusting the recording speed to a low speed.

Claims (9)

In the data recording method on an optical disc, A first step of detecting an abnormal signal having a signal level exceeding a predetermined level among signals generated during a recording operation; And And a second step of reducing the recording speed when the detected abnormal signal is periodically detected. The method of claim 1, And the signal is generated from a reflected signal of recording optical power. The method of claim 1, And the generated signal is a track error signal or a focus error signal. delete delete delete The method of claim 1, The second step is a recording speed control method of a defect disc, characterized in that to maintain the current recording speed when the abnormal signal is not detected periodically. The method of claim 1, And wherein the second step compares the detection period of the abnormal signal with the rotation period of the optical disc to determine the periodicity of the abnormal signal according to the comparison result. The method of claim 8, And a rotation period of the optical disc is based on an output signal according to the rotation of the spindle motor for rotating the optical disc.

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