KR100940024B1 - Apparatus and method for controlling tracking offset in optical disc driver - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tracking offset control method and apparatus in an optical disk driver, wherein a laser diode emitting a laser beam of a CD wavelength and a laser diode emitting a laser beam of a DVD wavelength are integrated. In the optical disk driver equipped with the light emitting device, the tracking offset value of the objective lens is preset in advance so as to compensate for the jitter characteristic of the read data caused by physically inconsistent emission points between the laser diodes. It is a very useful invention that it is possible to prevent the jitter characteristic of the data read and reproduced from the optical disc from being degraded by setting a compensation process when performing the tracking servo operation after setting.

DVD. CD. Jitter Characteristics, Tracking Offset, Laser Diode, Optical Pickup

Description

Apparatus and method for controlling tracking offset in optical disc driver}             

1 shows the configuration of an embodiment of a general DVD and CD (DVD / CD) driver,

Figure 2 shows the configuration of another embodiment for a general DVD and CD (DVD / CD) driver,

3 illustrates a configuration of an optical disk driver to which the tracking offset control method and apparatus according to the present invention are applied.

4 is a graph illustrating jitter values detected by the tracking offset control method and apparatus according to the present invention.

※ Explanation of code for main part of drawing

10,37: light receiving element 11,17,33: plate

12, 13, 31: beam splitter 14, 32: collimator lens

15,34 objective lens 16: optical disc

18 CD light emitting device 19 DVD light emitting device                 

30: CD and DVD light emitting element 35,36: condensing lens

50: jitter detection unit 51: control unit

52: memory 53: shifter

The present invention relates to a tracking offset control method in an optical disc driver including a light emitting device in which a laser diode emitting a laser beam of a CD wavelength and a laser diode emitting a laser beam of a DVD wavelength are integrated. Relates to a device.

FIG. 1 shows a configuration of an embodiment of a general DVD and CD (DVD / CD) driver. The DVD and CD driver includes a light receiving element 10, a polarizing plate 11 and 17, and a beam splitter 12. 13), a collimator lens 14, an objective lens 15, and a CD light emitting element 18, a DVD light emitting element 19, and the like.

On the other hand, the CD light emitting device 18 emits a laser beam having an optical wavelength of about 780 nm, and the DVD light emitting device 19 emits a laser beam having an optical wavelength of about 650 nm. For example, when the DVD 16 having the data recording layer formed therein is inserted into the device at 0.6 mm corresponding to the center of the optical disk thickness, the DVD light emitting element 19 is selectively driven to provide an optical wavelength of 650 nm. The laser beam having light is emitted.

The laser beam forms a beam spot on the recording layer of the DVD through the beam splitter 13, the collimator lens 14, and the objective lens 15, and is reflected by the recording layer. The light is incident on the light receiving element 10 through the objective lens 15, the collimator lens 14, the beam splitters 13 and 12, and the polarizing plates 11, and is converted into an electrical signal.

On the other hand, when the CD 16 having the data recording layer of 1.2 mm in the optical disk is inserted and seated in the apparatus, the CD light emitting element 18 is selectively driven to emit a laser beam having an optical wavelength of 780 nm. The laser beam forms a beam spot on the recording layer of the CD through the polarizing plate 17, the beam splitters 12 and 13, the collimator lens 14, and the objective lens 15.

And. The laser beam reflected by the recording layer is incident on the light receiving element 10 through the objective lens 15, the collimator lens 14, the beam splitters 13 and 12, and the polarizing plate 11. , Converted into electrical signal and output.

Therefore, when the CD or DVD is selectively inserted and seated in the optical disc driver, data recorded on the CD or DVD can be read and reproduced normally.

On the other hand, as a DVD and CD driver recently developed and released, a light emitting device in which a plurality of laser diodes for emitting laser beams of different light wavelengths are integrated is used as shown in FIG. 2, and the beam splitter 31 , The collimator lens 32, the polarizing plate 33, the objective lens 34, and the condenser lens 35, 36 and the light receiving element 37,                         

In the DVD and the CD driver configured as described above, when the DVD (DVD) is inserted and seated in the device, the laser diode for the DVD integrated in the light emitting element 30 is selectively emitted, and the CD in the device is discharged. When inserted and seated, the CD laser diode integrated in the light emitting device 30 is selectively emitted.

In addition, the laser beam forms a beam spot on the recording layer of the DVD or CD via the beam splitter 31, the collimator lens 32, the polarizing plate 33, and the objective lens 15. The laser beam reflected by the recording layer passes through the objective lens 34, the polarizing plate 33, the collimator lens 32, the beam splitter 31, and the condenser lenses 35 and 36, and the light receiving element 37. ), And then converted into an electrical signal.

Therefore, when the CD or DVD is selectively inserted and seated in the optical disc driver, the data recorded on the CD or DVD can be selectively read out and reproduced, as well as the optical element can be simplified and the optical path shortened. The device can be miniaturized.

However, when using a light emitting device in which a plurality of laser diodes emitting laser beams of different light wavelengths are integrated as described above, the light emission points do not physically coincide between the respective laser beams, and thus, jitter characteristics of the read data This deterioration problem occurs.

Accordingly, the present invention has been made to solve the above problems, and in the optical disk driver using a light emitting device in which a plurality of laser diodes emitting laser beams of different light wavelengths are integrated, the tracking offset of the objective lens (Tracking Offset) By setting the value in advance in advance, the tracking offset control method and apparatus in the optical disk driver for compensating for the jitter characteristics of the read data caused by physically inconsistent emission point between the laser beams Its purpose is to.

The tracking offset control apparatus in the optical disk driver according to the present invention for achieving the above object is an optical disk driver comprising a light emitting device in which a plurality of laser diodes for emitting laser beams of different optical wavelengths are integrated, Moving means for moving the position of the lens in a multi-step tracking direction horizontal to the recording layer of the optical disc; Detecting means for detecting jitter values at the multi-stage shifted objective lens position; Storage means for associating and storing the detected jitter values and tracking offset values according to the position change of the objective lens; And control means for selectively setting the stored tracking offset value associated with the smallest jitter value among the stored tracking offset values to an optimal tracking offset value.

In addition, the tracking offset control method in the optical disk driver according to the present invention comprises: a step of detecting jitter values at the corresponding position while moving the position of the objective lens in multiple steps with respect to the tracking direction; Associating and storing the detected jitter values and tracking offset values at a corresponding position; And selecting a tracking offset value stored in association with the smallest jitter value among the tracking offset values, and then applying the tracking offset value when the tracking servo operation is performed.

Hereinafter, a preferred embodiment of a tracking offset control method and apparatus in an optical disk driver according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 illustrates a configuration of an optical disk driver to which the tracking offset control method and apparatus according to the present invention are applied. For the optical disk driver, for example, a DVD and a CD driver, see FIG. 2. As described above, the light emitting device 30, the beam splitter 31, the collimator lens 32, the polarizing plate 33, and the objective lens, in which a plurality of laser diodes for emitting laser beams of different wavelengths are integrated are integrated. 34, the condenser lenses 35 and 36, and the light receiving element 37 are included, and the jitter detector 50, the control unit 51, the memory 52, and the shifter 53 are included.

In the DVD and the CD driver configured as described above, when the DVD (DVD) is inserted and seated in the device, the laser diode for the DVD integrated in the light emitting element 30 is selectively emitted, and the CD in the device is discharged. When it is inserted and seated, a series of operations of reading and reproducing the data recorded on the CD or DVD is performed by selectively emitting the CD laser diode integrated in the light emitting element 30.

On the other hand, the control unit 51 controls the shifter 53 so as to move the position of the objective lens 34 in a tracking direction horizontally parallel to the recording layer of the optical disc. If the optical pickup of the optical disc driver is designed based on the DVD and the CD is inserted into the device, the controller 51 controls the optical disc driver. By the manufacturing process of manufacturing and manufacturing, the shifter 53 is operated and the position of the objective lens 34 is finely moved in the tracking direction.

For example, the shifter 53 finely moves an actuator (not shown) holding the objective lens in the 280 um unit in multiple steps from the inner circumference to the outer circumference as shown in FIG. 4. Or multi-step fine movement from any one direction to the opposite direction.

In the jitter detector 50, the jitter characteristic value corresponding to the level of the high frequency (RF) signal output from the light receiving element 37 is measured at the position where the objective lens 34 is finely moved in multiple stages as described above. The control unit 51 detects and outputs the jitter characteristic value and the current tracking offset value in which the objective lens is finely moved in the memory 52.

Subsequently, when all the fine movements of the objective lens are completed while the above operation is repeatedly performed, the controller 51 compares the jitter characteristic values stored in the memory with each other and compares them with the best jitter characteristic value. The storage offset value is set as the tracking offset value for the optical pickup and managed.

When a general user inserts and seats a CD in a device, the controller 51 sequentially performs a focus servo operation and a tracking servo operation. In this case, a tracking offset stored and managed in the memory is performed. The value is read and confirmed to compensate for the offset in the tracking servo operation.

For example, as shown in FIG. 4, when the jitter characteristic value is viewed based on the tracking offset value '0', the CD has a relatively large asymmetry compared to the DVD. -140um ', and when performing the general tracking servo operation, the position of the objective lens is finely shifted by the tracking offset value of' -140um ', so that the emission point does not physically match between the CD laser diode and the DVD laser diode. The jitter characteristic of the read data generated due to this is compensated in advance.

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 tracking offset control method and apparatus in the optical disk driver according to the present invention constructed and constructed as described above include a laser diode emitting a laser beam of optical wavelength for CD and a laser beam emitting a laser beam of optical wavelength for DVD. In an optical disk driver equipped with a light emitting device in which a diode is integrated, a tracking offset value of an objective lens is preset in advance so as to compensate for jitter characteristics of read data caused by physically inconsistent light emission points between laser diodes. It is a very useful invention that it is possible to prevent the jitter characteristic of the data read and reproduced from the optical disc from being degraded by setting a compensation process when performing the tracking servo operation after setting.

Claims (4)

In an optical disc driver in which an optical pickup in which a laser diode for a first optical disc and a laser diode for a second optical disc is integrated is designed based on the second optical disc, Moving means for moving the objective lens position of the optical pickup in multiple steps in a tracking direction horizontal to the recording layer of the first optical disk; Detecting means for detecting jitter values at the multi-stage shifted objective lens position; Storage means for linking and storing the detected jitter values and tracking offset values according to a change in the position of the objective lens; And Among the stored tracking offset values, a tracking offset value stored in association with the smallest jitter value is selected, and a difference value with an optimal tracking offset value of a preset second optical disc is calculated, and the difference value is calculated. Set the optimal tracking offset value, Subsequently, when the second optical disc is inserted into the optical disc driver, the laser diode for the second optical disc emits light, an optimal tracking offset value of the second optical disc is applied, and when the first optical disc is inserted, the first optical disc And a control means for emitting a laser diode for the light emitting device and applying an optimum tracking offset value of the first optical disk. The method of claim 1, The first optical disc is a CD, the second optical disc is a DVD, And the storage means stores an optimal tracking offset value of a predetermined DVD in the process of designing an optical pickup. When the optical pickup in which the first optical disk laser diode and the second optical disk laser diode are integrated is designed based on the second optical disk, when the first optical disk is inserted into the optical disk driver, Illuminating the laser diode for the first optical disc and detecting jitter values at the corresponding position while moving the position of the objective lens in multiple steps based on the tracking direction of the first optical disc; Storing the detected jitter values and tracking offset values at a corresponding position and then selecting a tracking offset value stored in association with the least jitter value among the tracking offset values; Calculating a difference value between the selected tracking offset value and a preset optimal tracking offset value of the second optical disc, and setting the difference value as an optimal tracking offset value of the first optical disc; And After the step 3, when the second optical disc is inserted into the optical disc driver, the laser diode for the second optical disc is emitted, the optimum tracking offset value of the second optical disc is applied, and when the first optical disc is inserted, 4. A method of controlling a tracking offset in an optical disc driver, comprising: emitting a laser diode for a first optical disc and applying an optimal tracking offset value of the first optical disc. The method of claim 3, wherein The first optical disc is a CD, the second optical disc is a DVD, And the jitter value is detected based on the level of the high frequency signal converted and output from the light receiving element at the position where the objective lens is finely moved in multiple steps.

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