KR100990100B1 - Method for controling tilt in optical disc device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tilt adjustment method in an optical disc apparatus, wherein in an optical disc apparatus, a wobble signal read out from the optical disc is sliced, converted into a binary signal while the tilt control value is variably adjusted, and then based on the binary signal. By calculating the tilt jitter amount and setting the tilt control value at the time when the tilt jitter amount is calculated to be the optimal tilt control value, the tilt adjustment operation for the optical disk in which the skew component is present is performed separately. Without using a tilt sensor or the like, it is possible to variably adjust using a wobble signal, which makes it possible to stably perform data recording or reproducing operations in an optical disk device, and to simplify the device.

Optical Disc, Tilt Control, Wobble Signals, Tilt Jitter, Slice

Description

Tilt adjustment method in optical disc device {Method for controling tilt in optical disc device}             

1 illustrates an embodiment of physically adjusting tilt correction of an optical pickup in a process of manufacturing a general optical disk device.

2 shows a configuration of a general optical disk device,

3 illustrates a configuration of an optical disk apparatus to which the tilt servo control method according to the present invention is applied.

4 is a flowchart illustrating an operation of a tilt control method of an optical disk device according to the present invention;

Figure 5 illustrates the jitter value and the optimum tilt control value of the wobble signal detected in accordance with the present invention.

[Description of Drawings]

10 optical disc 11: focus lens

12 beam splitter 13 photo detector

14 laser diode 15 LD driver                 

16: FE detector 17: microcomputer

18: focus drive 19: servo unit

20 memory 21 RF amplifier

22: slicer 23: jitter calculation unit

24; Tilt drive

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tilt control method in an optical disk device, and more particularly, to an optical disk having a skew component in an optical disk device for recording or playing an optical disk such as a DVD or a CD. The present invention relates to a tilt control method in an optical disk apparatus for enabling an optimal tilt servo control operation to be performed.

Recently, optical discs such as DVDs or CDs, which record and store digital video and audio data, have been widely spread and commercialized, and optical disc devices having optical pickups for reproducing or recording the optical discs have been developed. The optical pickup included in the optical disk apparatus, which has been released and commercialized, has a focus lens 11, a beam splitter 12, a photo detector 13, a laser diode LD, and the like, as shown in FIG. This consists of including.

Meanwhile, in the process of manufacturing the optical disk device, in order to allow the reproduction or recording operation of the optical disk 10 to be normally performed, one side of the base on which the optical pickup is bound is finely adjusted in the up / down direction, thereby the optical disk. A series of physical tilt correction processes are performed in order to achieve optimal skew correction in (10).                         

2, the LD driver 15, the FE detection unit 16, the microcomputer 17, the focus drive 18, the servo unit 19, the memory 20, and the like are shown in the optical disk device. In addition, the FE detection unit 16 calculates an electrical signal output from the photo detector 13 included in the optical pickup, for example, the photo detector divided into four areas A, B, C, and D. The focus error signal FE = (A + C)-(B + D) is detected.

The microcomputer 17 outputs a focus control signal for controlling the value of the focus error signal to zero, and the servo unit 19 corresponds to the focus control signal. A focus drive signal is generated and output to the focus drive.

Meanwhile, the focus drive 18 generates a focus drive voltage corresponding to the focus drive signal, applies the focus drive coil (unsigned) to an optical pickup, and applies the focus lens 11. A series of focus servo operations are performed to move up and down.

However, when skew is present in an optical disk inserted in a general optical disk device, for example, when the outer circumferential surface of the optical disk is bent gradually, a tilt error occurs. Since a tilt sensor must be provided in the device, there arises a problem that the size and cost of the optical disk device are increased.

Accordingly, the present invention has been made to solve the above problems, and in an optical disc apparatus for recording or playing an optical disc such as a DVD or a CD, the optical disc may be free from an optical disc without using a separate tilt sensor. Provided is a tilt control method in an optical disk apparatus for performing an optimal tilt servo control operation for an optical disk having a skew component using a wobble signal that is read. The purpose is.

Tilt adjustment method in the optical disk device according to the present invention for achieving the above object, a step of calculating the amount of tilt jitter based on the wobble signal read from the optical disk, while the variable control the tilt control value; And a step of setting an optimal tilt control value with reference to the calculated amount of tilt jitter,

The first step is to slice the wobble signal read out from the optical disc, convert it into a binary signal, and calculate the amount of tilt jitter based on the binary signal, and in the second step, calculate the least amount of tilt jitter. It is characterized by setting the tilt control value at the point of time to the optimum tilt control value,

Hereinafter, a preferred embodiment of the tilt adjustment method in the optical disk device according to the present invention will be described in detail with reference to the accompanying drawings.

3 illustrates a configuration of an optical disk apparatus to which the tilt adjustment method according to the present invention is applied. The optical disk apparatus includes a focus lens 11 and a beam splitter 12 as described above with reference to FIG. 1. Optical pickup including photo detector 13, laser diode 14, LD driver 15, FE detection unit 16, microcomputer 17, focus drive 18, servo unit 19, The memory 20 and the like are included, and the RF amplifier 21, the slicer 22, the jitter calculating unit 23, and the tilt drive 24 are included.

On the other hand, in the RF amplifier 21, the RF signal output from the photo detector 13 is amplified to a predetermined level or more, and in the slicer 22, a low frequency component of the RF signal amplified to the predetermined level or more is used. The wobble signal is sliced to a predetermined reference level and converted into a binary signal.

The jitter calculating unit 23 calculates the jitter value of the wobble signal binary-converted by the slicer 22. In the microcomputer 17, the optical disc is rotated, as shown in FIG. As described above, the tilt control value for gradually adjusting the one side of the focus lens 11 in the up / down direction is gradually changed, and the wobble signal calculated by the jitter calculator 23 Detecting the jobble (Wobble Jitter) value as the tilt jitter amount, the tilt control value at the time when the tilt jitter amount is detected is set to the optimum tilt control value. As follows.

4 is a flowchart illustrating a tilt adjustment method in the optical disk apparatus according to the present invention. In the microcomputer 17, when the optical disk 10 is inserted and seated in the apparatus, the optical disk is rotated at a constant speed. In addition, the conventional focus servo operation is performed (S10).

In addition, the microcomputer 17 sets a preset tilt initial value (S11). Accordingly, the servo unit 19 generates a tilt drive signal corresponding to the tilt initial value. It generates and outputs to the tilt drive 22, the tilt drive 22, generates a tilt drive voltage (Tilt Drive Voltage) corresponding to the tilt drive signal, the focus actuator coil (unsigned) of the optical pickup ), A series of tilt initial servo operations are performed to variably adjust one side of the focus lens 11 in an up / down direction.

On the other hand, in the microcomputer 17, as described above, after the initial tilt servo operation is completed, the tilt control value is gradually changed and adjusted so that one side of the focus lens 11 is gradually adjusted in the up / down direction. The jitter calculating unit 23 calculates the jitter value of the wobble signal output through the RF amplifier 21 and the slicer 22 in a state where the tilt control value is variably adjusted as described above. 17) to be output (S17).

The microcomputer 17 detects and measures the jitter value of the wobble signal by the amount of tilt jitter. For example, as shown in FIG. 5, the microcomputer 17 corresponds to the point where the jitter value of the wobble signal becomes minimum. The tilt control value is detected as an optimal tilt control value.

In addition, when the optimum tilt control value is detected through the above-described process (S14), it is determined that the tilt state at that time is the optimal tilt state (S15), and the optimal tilt control value is set. In operation S16, the servo unit 19 generates a tilt drive signal corresponding to the optimum tilt control value and outputs the tilt drive signal to the tilt drive 22. ) Generates a tilt driving voltage corresponding to the tilt drive signal, and applies it to a focus actuator coil (unsigned) of an optical pickup, thereby optimizing one side of the focus lens 11 in an up / down direction. To perform a tilt servo operation.

Or more, preferred embodiments of the present invention described above, for the purpose of illustration, those skilled in the art, within the technical spirit and the technical scope of the present invention disclosed in the appended claims below, to further improve various other embodiments Changes, substitutions or additions will be possible.

The tilt control method in the optical disk device according to the present invention constructed and constructed as described above, in the optical disk device, while varying the tilt control value, the wobble signal read from the optical disk is sliced, converted into a binary signal, and the binary The tilt control operation for an optical disk having a skew component is calculated by calculating the amount of tilt jitter based on the signal and setting the tilt control value at the time when the tilt jitter amount is calculated to the optimum tilt control value. It is possible to variably adjust using a wobble signal without using a separate tilt sensor or the like, so that the data recording or reproducing operation can be stably performed in the optical disk device, and the device can be simplified. It is a useful invention.

Claims (4)

Slicing the wobble signal read out from the optical disc while varying the tilt control value, converting the wobble signal into a binary signal, and calculating a tilt jitter amount based on the binary signal; And And a step of setting an optimum tilt control value with reference to the calculated amount of tilt jitter. delete The method of claim 1, And said step 2 sets the tilt control value at the time when said tilt jitter amount is calculated to be the optimal tilt control value. The method of claim 1, And the optical disc is an optical disc having a wobble pattern formed on the data recording layer.

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