KR101781479B1 - Apparatus and method for controlling layer jump of multi layer optical disc - Google Patents

Abstract

An apparatus and method for controlling a layer jump of a multi-layer optical disc according to the present invention is a method for controlling a layer jump of a multi-layer optical disc in which at least two recording layers are formed, (FE) signal of the sine wave focus error signal is detected while integrating the area of the detected sine wave focus error signal and compared with a predetermined reference area, and then a sine wave focus error signal By controlling the layer jump operation by counting the error signal, the layer jump operation can be accurately controlled even if the sine wave focus error signal is distorted.

Description

[0001] The present invention relates to an apparatus and a method for controlling a layer jump of a multi-layer optical disc,

The present invention is applied to various types of optical disc drives (ODDs) for recording or reproducing data on a multi-layer optical disc on which at least two recording layers are formed, for example.

In general, optical discs such as a DVD or a BD are widely used. For example, as shown in FIG. 1, a DVD single layer (DVD-Single Layer) And a dual layer (DVD-Dual Layer).

A first recording layer (Recording Layer 0) is formed on a cover layer, for example, with a capacity of 4.7 GB, and the DVD dual layer is formed of, for example, As the capacity of 8.5 GB, a first recording layer (Recording Layer 0) and a second recording layer (Recording Layer 1) are formed on a cover layer.

2, a BD-Single Layer, a BD-Dual Layer, a BD-Triple Layer, and the like are included in the BD. , And a video quadruple layer (BD-Quadruple Layer).

And. For example, the video layer has a capacity of 25 GB, a first recording layer (Recording Layer 0) is formed on a cover layer, and the Video Dual layer has a capacity of, for example, 50 GB A second recording layer (Recording Layer 1) and a first recording layer (Recording Layer 0) are formed on a cover layer.

In addition, the video triple layer has a capacity of, for example, 100 GB and includes a third recording layer (Recording Layer 2), a second recording layer (Recording Layer 1), and a second recording layer 1 Recording Layer 0 is formed on the cover layer and the video quadruple layer has a capacity of, for example, 128 GB and a fourth recording layer (Recording Layer 3) A Recording Layer 2, a Recording Layer 1, and a Recording Layer 0 are formed.

Accordingly, when performing a layer jump operation in a general optical disc drive (ODD), for example, in the case of jumping from a first recording layer to a second recording layer during playback of a dual layer, In the case of jumping from the first recording layer to the second recording layer during the reproduction of the video dual layer while raising the objective lens (OL) of the pickup in the upward direction, the objective lens of the optical pickup is moved downward Respectively.

As described above, a sine wave focus error signal (FE) is detected while raising or lowering the objective lens of the optical pickup. For example, in the case of a video quadruple layer, As described above, when the objective lens is raised after the cover layer, four sine wave focus error signals are sequentially detected.

However, in a general optical disc drive, as shown in Fig. 3, the number of sine wave focus error signals is counted by using a predetermined slice level set in advance. For example, When the signal is detected as a distorted state, the number of sine wave focus error signals can not be accurately counted, so that a fatal error occurs in the layer jump operation.

In the present invention, for example, an area of a sine wave focus error signal detected when performing a layer jump operation is compared with a reference area set in advance and the layer jump operation is controlled so that even if the sine wave focus error signal is distorted, And a method of controlling the layer jump of a multilayer optical disc.

A layer jump control method of a multi-layer optical disc according to the present invention includes a first step of detecting a sine wave focus error signal while raising or lowering an objective lens of an optical pickup in performing a layer jump operation of a multi-layer optical disc; Integrating an area of the detected sine wave focus error signal and comparing the area with a preset reference area; And a third step of controlling the layer jump operation by counting a sine wave focus error signal exceeding the reference area as a result of the comparison,

The multi-layer optical disc may be at least one of a dual layer, a dual layer, a video triple layer, and a video quadruple layer.

In the step 1, when the jump-up of the dual layer is performed, the objective lens is raised. In the jump-up of the video dual layer, the video triple layer and the video quadruple layer, the objective lens is lowered.

In the third step, the sine wave focus error signal exceeding the reference area is counted by the number of layer jump,

A layer jump control apparatus for a multilayer optical disc according to the present invention includes an objective lens of an optical pickup which is raised or lowered when a layer jump operation of a multilayer optical disc is performed and a sine wave focus error signal A control unit for integrating the area of the detected sine wave focus error signal and comparing the detected sine wave focus error signal with a predetermined reference area and then counting a sine wave focus error signal exceeding the reference area to control the layer jump operation And is characterized in that,

The multi-layer optical disc may be at least one of a dual layer, a dual layer, a video triple layer, and a video quadruple layer.

The control unit may lower the objective lens when the jump-up of the dual layer is performed, and when the jump-up of the video dual layer, the video triple layer, and the video quadruple layer is performed, ,

Further, the control unit counts a sine wave focus error signal exceeding the reference area by the number of layer jump counts.

An apparatus and method for controlling a layer jump of a multi-layer optical disc according to the present invention is a method for controlling a layer jump of a multi-layer optical disc in which at least two recording layers are formed by raising or lowering an objective lens of the optical pickup A sine wave focus error signal is detected, the area of the detected sine wave focus error signal is integrated, and the sine wave focus error signal exceeding the reference area is compared with a predetermined reference area, and then the layer jump operation is controlled Thus, even if the sine wave focus error signal is distorted, the layer jump operation can be accurately controlled.

FIG. 1 shows the structure of a general DVD,
Fig. 2 shows a structure for a general video,
FIG. 3 shows an embodiment for detecting a sinusoidal focus error signal in a general optical disc drive,
4 and 5 show a configuration of an embodiment of an optical disc drive to which the present invention is applied,
6 is a flowchart illustrating a method of controlling a layer jump of a multi-layer optical disc according to an embodiment of the present invention.
FIG. 7 illustrates an embodiment of detecting an area of a sine wave focus error signal in an optical disc drive to which the present invention is applied.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a layer jump control apparatus and method of a multilayer optical disc according to the present invention will be described in detail with reference to the accompanying drawings.

An apparatus and method for controlling a layer jump of a multilayer optical disc according to the present invention may be applied to various types of optical disc drives (ODD) for recording or reproducing data on optical discs such as a DVD (Digital Versatile Disc) or a BD .

In the present invention, as described above with reference to FIGS. 1 and 2, an optical disc in which at least two recording layers are formed, for example, an optical double layer, a dual layer, a video triple layer, a video quadruple layer Are collectively referred to as a multi-layer optical disc.

4, the optical disc drive to which the present invention is applied includes an optical disc 10, an optical pickup 11, a spindle motor 12, a sled motor 13, a motor driver (for example, A servo signal detecting unit 15, a recording / reproducing unit 16, a digital signal processing unit 17, a control unit 18, a memory 19, and the like.

6, the optical pickup 11 includes a laser diode (LD), a photodetector (PD), a beam splitter (BS), an objective lens (OL), and the like The laser beam emitted from the laser diode LD passes through the beam splitter BS and the objective lens OL and then passes through a cover layer or a recording layer formed on the optical disc 10, As shown in FIG.

The reflected laser beam is reflected by the beam splitter BS and is incident on the photodetector PD. The photodetector PD photoelectrically converts the incident laser beam to generate an electrical signal The servo signal detector 15 detects a focus error signal FE signal and a tracking error signal TE signal from the electrical signal. The optical pickup 11 and the servo signal detector 15 are known well-known technologies, and a detailed description thereof will be omitted.

On the other hand, in the control unit 18, the objective lens OL included in the optical pickup is moved up and down based on the focus error signal and the tracking error signal detected by the servo signal detecting unit 15 Focus servo operation and tracking servo operation for moving in the left and right direction are performed.

3, when the layer jump operation is performed, the control unit 18 raises or lowers the objective lens OL of the optical pickup, The signal detector 15 is operated to detect a sine wave focus error signal.

The control unit 18 integrates the area of the sinusoidal focus error signal and then compares the integrated area with a predetermined reference area Ref_Area to determine whether the sine wave focus error signal exceeds the reference area The jump operation to the target layer (Target Layr) is controlled by counting the error signal, which will be described in detail as follows.

FIG. 6 is a flowchart illustrating an operation of a layer jump control method for a multi-layer optical disc according to an embodiment of the present invention. For example, at least two layers such as a dual layer, a double layer, a video triple layer, a video quadruple layer, When a layer jump mode is set in a state in which a multilayer optical disc having a plurality of recording layers formed therein is inserted in a drive at step S10, A series of layer jump operations for raising or lowering the lens OL is performed (S11).

For example, in the case of jumping from the first recording layer to the second recording layer of the dual-layer DVD, the objective lens is moved upward, while in the case of jumping from the first recording layer to the fourth recording layer of the video quadruple layer , The objective lens is lowered in the downward direction.

The control unit 18 controls the servo signal detecting unit 15 to detect a sine wave focus error signal (S12). At this time, as described above with reference to Fig. 3, the sine wave focus error signal The control unit 18 integrates the area of the sine wave focus error signal (S13).

For example, as shown in FIG. 7, in the case of the video quadruple layer, when the objective lens is raised from the cover layer onward, four sinusoidal focus error signals are sequentially detected.

Even if the sine wave focus error signal is detected as being distorted, if the area of the sinusoidal focus error signal detected abnormally is integrated, the sine wave focus error signal has almost the same area as the sine wave focus error signal.

The control unit 18 compares the integrated area with the previously set reference area Ref_Area and counts the number of sine wave focus error signals exceeding the reference area as the number of layer jump numbers S15).

If it is determined that the jump to the target layer is completed (S16), the layer jump mode is canceled (S17). If the number of jump to the target layer is equal to the number of jump to the target layer, Thereafter, a corresponding operation requested by the user is performed (S18).

Accordingly, even if the sine wave focus error signal is partially distorted when the layer jump operation is performed, the layer jump operation can be accurately controlled. For reference, the operation of integrating the area of the sine wave focus error signal, as described above, Or may be performed by separate independent constituent means which is interlocked with the control unit.

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 in the appended claims. , Alteration, substitution, addition, or the like.

10: optical disk 11: optical pickup
12: spindle motor 13: sled motor
14: Motor driver 15: Servo signal detecting section
16: recording / reproducing section 17: digital signal processing section
18: control unit 19: memory
OL: objective lens BS; Beam splitter
PD: Photo detector LD: Laser diode

Claims (8)

A step of detecting a sine wave focus error signal while raising or lowering an objective lens of the optical pickup when a layer jump operation of the multilayer optical disk is performed;
Integrating an area of the detected sine wave focus error signal and comparing the area with a preset reference area; And
And controlling the layer jump operation by counting a sine wave focus error signal exceeding the reference area as a number of layer jump numbers as a result of the comparison. The method according to claim 1,
Wherein the multi-layer optical disc is at least one of a dual-layer, a dual-layer, a video triple, and a video quadruple layer. 3. The method of claim 2,
In the step 1, when the jump-up of the dual layer dual layer is performed, the objective lens is moved up, but when the jump-up of the video dual layer, the video triple layer and the video quadruple layer is performed, the objective lens is lowered. Of the layer jump control method. delete An objective lens of an optical pickup that rises or falls when performing a layer jump operation of a multilayer optical disk,
A detector for detecting a sine wave focus error signal while the objective lens is lifted or lowered,
And a control unit for controlling the layer jump operation by integrating an area of the detected sine wave focus error signal and comparing the detected sine wave focus error signal with a preset reference area and then counting a sine wave focus error signal exceeding the reference area by a layer jump number And a control unit for controlling the layer jump control of the multi-layer optical disc. 6. The method of claim 5,
Wherein the multi-layer optical disc is at least one of a dual-layer, a dual-layer, a video triple, and a video quadruple layer. The method according to claim 6,
Wherein the control unit lowers the objective lens when the jump-up of the dual layer is performed and when the jump-up of the video dual layer, the video triple layer, and the video quadruple layer is performed, A layer jump control device of an optical disc. delete

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