KR100752476B1 - Method for controlling record speed in optical disc device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for adjusting recording speed in an optical disc apparatus. For example, when performing a data recording operation in an optical disc apparatus such as a DVD-Recorder or the like, an ADIP of a DVD + R that can be written once If the amount of synchronization shift or the synchronization correction amount spaced apart between the synchronization or the LPP synchronization of the DVD-R and the RF signal of the recording signal is detected and confirmed, and is equal to or greater than the preset reference synchronization shift amount or the reference synchronization correction amount, By lowering the recording speed by one step lower speed, even if the amount of synchronous shift is large on an optical disc in which the wobble signal recording state is bad, it is possible to compensate for this normally. It is a very useful invention that can be prevented.

Synchronous shift amount, Synchronization correction amount, Recording double speed, ADIP synchronization, LPP synchronization, RF synchronization

Description

{Method for controlling record speed in optical disc device}

1 shows a configuration of a general optical disk device,

2 and 3 illustrate an embodiment in which a sync shift amount is compensated by a general optical disk device.

4 illustrates a configuration of a reproduction digital signal processing unit applied to the present invention.

5 is a flowchart showing the operation of the recording speed adjusting method in the optical disk apparatus according to the present invention.

※ Explanation of code for main part of drawing

10: optical disc 11: optical pickup

12: recording RF processing unit 13: recording digital signal processing unit

14: reproduction RF processing unit 15: reproduction digital signal processing unit

16: microcomputer 17: spindle motor

18: servo controller

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for adjusting recording speed in an optical disk device, and for example, ADIP (Address In Pre-groove) synchronization of DVD + R or LPP (Land Pre-Pit) synchronization of DVD-R. And a recording speed control method in an optical disk device for variably adjusting the recording speed so that the RF synchronization of the recording signal coincides with each other.

In general, an optical disc apparatus such as a DVD-Recorder or the like, as shown in FIG. 1, has an optical disc 10, an optical pickup 11, a recording RF processing unit 12, a recording digital signal processing unit 13, and reproduction. The RF processor 14, the reproduction digital signal processor 15, the microcomputer 16, the spindle motor 17, and the servo controller 18 may be included.

On the other hand, in the recording RF processing unit 12, the digital audio and video data signal-processed by the recording digital signal processing unit 13 is converted into a recording RF signal and then input to the optical pickup 11 to input an optical disc ( 10), and the reproduction RF processing unit 14 outputs the reproduction RF signal read out by the optical pickup 11 to the reproduction digital signal processing unit 15.

In the microcomputer 16, the servo controller 18 is operated to rotate the spindle motor 17 at a high speed. For example, the current data recording speed is 16 times and the constant angular speed ( When set to a CAV: Constant Angle Velocity (CAV) mode, the servo controller 18 controls a series of spindle servos to control the rotational speed of the spindle motor 17 suitably for the recording double speed and the recording mode. Will perform the action.

On the other hand, when the optical disc 10 is, for example, a DVD + R that can be written once, a Wobble-type ADIP sync is recorded in a predetermined period, and the DVD-R that can be written once. In the data area, a wobble type LPP synchronization is recorded at a predetermined period. The ADIP synchronization or LPP synchronization as described above must match the RF synchronization recorded by the recording RF processing unit 12. Therefore, no synchronization detection error occurs.

For example, as shown in FIG. 2, when the LPP synchronization recorded on the recordable DVD-R does not coincide with the RF synchronization recorded by the recording RF processing unit 12, at the time of performing a subsequent reproduction operation. Since a synchronization detection error (Error) occurs, the microcomputer 16, through the reproduction RF processing unit 14 and the reproduction digital signal processing unit 15, the synchronization shift spaced apart between the LPP synchronization and the RF synchronization (Sync Shift) ) Amount will be detected.

Then, the servo controller 18 is operated and controlled so that the LPP synchronization and the RF synchronization coincide with each other. In the servo controller 18, the current recording speed (for example, 16 times speed) is maintained as it is. Fine control of the rotation speed of the spindle motor 17, as shown in Figure 3, performs the spindle servo control operation to match the LPP synchronization and RF synchronization with each other.

However, in the general optical disk device, when the synchronization (for example, ADIP synchronization and LPP synchronization) physically recorded on the optical disk and the RF synchronization of the recording signal do not coincide with each other, the current recording speed is maintained as it is. Since only the rotation speed of the spindle motor is finely adjusted, the amount of compensable sync shift is extremely limited. For example, if a large amount of sync shift occurs in an optical disc in which a wobble signal is poorly recorded, the compensation is normally compensated. There is a problem that cannot be done.

Accordingly, the present invention has been created to solve the above problems, and for example, when performing a data recording operation in an optical disk device such as a DVD-Recorder or the like, physical synchronization of the optical disk (for example, ADIP synchronization). , According to the amount of synchronous shift spaced between the LPP synchronization and the RF signal synchronization, or the amount of synchronous correction according thereto, even if a large amount of synchronous shift occurs in an optical disc in which the wobble signal recording state is poor by adjusting the current recording double speed downward. It is an object of the present invention to provide a method of controlling recording speed in an optical disk device to compensate for this normally.

According to an aspect of the present invention, there is provided a recording speed adjusting method of an optical disk apparatus, the method including: detecting a synchronization shift amount spaced between a physical synchronization of an optical disk and a synchronization of a recording signal when performing a data recording operation; And if the detected synchronous shift amount is equal to or greater than a preset reference synchronous shift amount, adjusting the current recording double speed downwardly.

In addition, the recording speed control method in the optical disk apparatus according to the present invention, when performing the data recording operation, the first step of detecting a synchronization correction amount for compensating the synchronization shift amount spaced between the physical synchronization of the optical disk and the synchronization of the recording signal; And if the detected synchronization correction amount is greater than or equal to a preset reference synchronization correction amount, two steps of adjusting the current recording double speed downward.

Best Mode for Carrying Out the Invention Hereinafter, a preferred embodiment of a recording speed adjusting method in an optical disk apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

First, the recording speed adjusting method according to the present invention can be applied to various types of optical disc devices such as a DVD-Recorder or the like configured as described above with reference to FIG. 1. As shown in FIG. 4, the reproduction digital signal processing unit 15 included in the above includes a synchronous shift detector 150, a synchronous shift limiter 151, an average detector 152, an input limiter 153, and an integrator 154. ), An output limiter 155, a scale converter 156, a phase shift 157, and the like.

On the other hand, the synchronous shift detector 150 detects, in real time, the amount of synchronous shift spaced apart between, for example, the ADIP synchronization of the DVD + R or the LPP synchronization of the DVD-R and the RF synchronization of the recording signal. The average detector 152 calculates an average value for a plurality of synchronous shift amounts output by the synchronous shift limiter 151.

In addition, the input limiter 153 outputs the synchronous shift amount of the calculated average value to the integrator 154, which is output by the average detector 152. The synchronous shift amount of the average value is input to the microcomputer 16 of the optical disk device, and is also input to the synthesizer (+) in the integrator via the 'K2' integration constant which is a part of the integrator 154.

The integrator 154 integrates the synchronous shift amount of the average value and outputs a synchronous correction amount corresponding thereto, and the output limiter 155 outputs the synchronous correction amount output by the integrator 154. The output amount is limited, and the synchronous correction amount is input to the microcomputer 16 of the optical disk device and the scale for converting the scale converter 156, for example, 1.5T into 1,2ns. It is entered into the converter.

Further, in the phase shift 157, the phase (Phase) for the synchronous correction amount converted and output by the scale converter is shifted, and the servo controller 18 of the optical disk device finely adjusts the rotational speed of the spindle motor. A series of Fine Spin Control servo control operations are performed.

On the other hand, the microcomputer 16 detects and confirms the synchronous shift amount input through the average detector 152 and the synchronous correction amount input through the output limiter 155, and then sets the synchronous shift amount in advance. When the reference synchronization shift amount or more, or the synchronization correction amount is equal to or more than the preset reference synchronization correction amount, the servo controller 18 is operated to control the current recording speed down to one step lower recording speed. This will be described in detail below.

FIG. 5 is a flowchart illustrating an operation of adjusting the recording speed in the optical disk device according to the present invention. For example, in the microcomputer 16, when the data recording operation is performed, the recording speed set in advance ( For example, 16 times speed) and a recording mode (for example, CAV mode) are set so that a corresponding data recording operation is performed (S10).

On the other hand, the reproduction digital signal processing unit 15 performs a series of processes as described above with reference to FIG. 4 to synchronize synchronization between the physical synchronization (eg, ADIP synchronization, LPP synchronization) of the optical disc and the RF synchronization of the recording signal. The amount of shift and the amount of synchronization compensation are detected and output to the microcomputer 16 (S11).

In addition, the synchronous correction amount is output to the servo controller 18 so that a series of spindle servo control operations for fine control of the rotation speed of the spindle motor is performed (S12). In (16), the amount of synchronization shift output through the reproduction digital signal processing unit 15 is '30T' which cannot be compensated by a preset reference synchronization amount, for example, fine adjustment of the spindle motor. A comparison is made to determine whether or not the reference synchronization shift amount is equal to or greater than (S13).

In addition, in the microcomputer 16, the amount of synchronization compensation outputted through the reproduction digital signal processing unit 15 is set by a preset reference synchronization correction amount, for example, fine adjustment of the spindle motor. A comparison is made to determine whether or not the reference synchronization correction amount of '10T' becomes impossible (S14).

On the other hand, as a result of the determination, if the synchronous shift amount is not equal to or greater than the reference synchronization shift amount of 30T, and the synchronous correction amount is not greater than or equal to the reference synchronization correction amount of 10T, the current recording speed (for example, 16). In the state of maintaining the double speed), the fine adjustment operation of the spindle motor is performed (S15).

On the other hand, when the determination result indicates that the synchronous shift amount is equal to or greater than the reference synchronization shift amount of 30T or the synchronous correction amount is equal to or greater than the reference synchronization correction amount of 10T, the servo controller 18 is operated and controlled. After the current recording double speed is adjusted to one step lower speed (e.g., 12x speed) (S16), the above-described series of operations (S11 to S17) are repeatedly performed until the data recording operation is completed (S17). do.

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

The recording speed control method in the optical disk device according to the present invention made as described above, for example, in the optical disk device such as a DVD recorder (DVD-Recorder), in the case of performing a data recording operation DVD + R write once When the amount of synchronization shift spaced apart from the ADIP synchronization of the DVD-R or the LPP synchronization of the DVD-R and the RF synchronization of the recording signal or the amount of synchronization correction according thereto is detected and is equal to or greater than the preset reference synchronization shift amount or the reference synchronization correction amount. By down-regulating the current recording double speed by one step, even if a large amount of synchronous shift occurs on an optical disc in which the wobble signal recording state is poor, it is possible to compensate for this normally. It is a very useful invention that can prevent the occurrence in advance.

Claims (6)

Detecting a synchronization shift amount spaced between the physical synchronization of the optical disc and the synchronization of the recording signal when performing the data recording operation; And And adjusting the current recording double speed downward to one lower recording double speed when the detected synchronous shift amount is 30T or more. The method of claim 1, The physical synchronization of the optical disc is ADIP (Address In Pre Groove) synchronization physically recorded on DVD + R, or LPP (Land Pre-Pit) synchronization physically recorded on DVD-R, and the synchronization of the recording signal is A recording speed control method in an optical disk apparatus, characterized in that the synchronization is recorded by an RF signal. delete Detecting a synchronous correction amount for compensating the synchronous shift amount spaced between the physical synchronization of the optical disc and the synchronization of the recording signal when performing the data recording operation; And And adjusting the current recording double speed downward when the detected synchronization corrected amount is equal to or greater than a preset reference synchronization corrected amount. The method of claim 4, wherein The physical synchronization of the optical disc is ADIP (Address In Pre Groove) synchronization physically recorded on DVD + R, or LPP (Land Pre-Pit) synchronization physically recorded on DVD-R, and the synchronization of the recording signal is A recording speed control method in an optical disk apparatus, characterized in that the synchronization is recorded by an RF signal. The method of claim 4, wherein In the second step, when the detected synchronous correction amount is 10T or more previously set as the reference synchronous correction amount, the recording speed adjusting method of the optical disc apparatus, characterized in that the current recording double speed is adjusted downward to one step lower recording speed. .

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