KR20050047186A - Apparatus for optical pick-up - Google Patents

Abstract

The present invention relates to an optical pickup device, and more particularly, to an optical pickup device using a three wavelength laser diode.

The optical pickup device according to the present invention comprises a laser diode for generating a three-wavelength beam, a beam splitter for transmitting or reflecting an incident beam according to the polarization direction of the incident beam, a collimator lens for allowing the beam to proceed in parallel, The objective lens for collecting the beam at the correct point of the optical disk, a photo detector for reading the beam reflected from the optical disk, and a three wavelength beam emitted from the laser diode to be formed at the correct position of the photo detector. It is characterized in that the two beam correction element formed between the laser diode and the photo detector.

Description

Optical pickup device {APPARATUS FOR OPTICAL PICK-UP}

The present invention relates to an optical pickup device, and more particularly, to an optical pickup device using a three wavelength laser diode.

An optical disc is a product that records and reproduces information by using optical characteristics, and generally has a small disc shape. In order to use an optical disc, an optical disc driver is required, and information of the optical disc is reproduced or recorded by an optical pickup device mounted inside the optical disc driver.

This optical pickup is a laser diode (LD) that generates a large beam, a photo detector (PD) that reads a beam reflected on the optical disk, and selectively transmits or reflects the beam depending on the direction of flatness. Beam splitter is used as an important component.

On the other hand, a mechanism called an actuator (actuator) is used to accurately form a beam on the optical disk, the actuator moves the position of the objective lens that collects the beam from the laser diode to the exact point where the information on the optical disk is recorded by the beam It is a device for improving the performance of reproducing and recording information.

Currently, two or more compatible devices capable of playing back different wavelengths such as DVD and CD have been developed. However, two laser diodes must be used to play a disc that can be read only at a specific wavelength such as CD-R.

1 is a view for explaining an optical pickup device using two conventional laser diodes.

As shown in FIG. 1, in the conventional optical pickup apparatus using two laser diodes, two laser diodes 10 and 11 are installed, a beam splitter 60 for beam separation, and a mirror ( 20), a collimator lens 30 that allows the beam to run parallel in a certain direction, an objective lens 40 that collects the beam at the correct point on the optical disk, an optical disk 50, and a boiling point. And a cylinder detector 70 for generating a light, a photo detector 80 for reading a beam reflected on the optical disk, and the like.

The conventional optical pickup device configured as described above has a problem that the volume becomes large and the structure becomes complicated by using two laser diodes.

Furthermore, the use of three laser diodes such as CD, DVD, BD in the method of FIG. 1 presents a number of problems due to the volume and complexity of the structure.

FIG. 2 is a view for explaining the formation of a laser diode having three chips in one conventional package.

The laser diode having three chips shown in FIG. 2 emits three kinds of optical disks by emitting three wavelengths of beams (for example, CD light, DVD light, BD light) in one laser diode 10. Can play.

However, as shown in FIG. 2, when a beam of three wavelengths is emitted through one laser diode 10, the distance between the chips of each wavelength is approximately 110 μm, which is precise on the optical disc 50. There is a problem that the beam is difficult to form at the point.

In addition, as shown in FIG. 3, when the photo detector 80 is adjusted based on the BD, the CD beam and the DVD beam are not formed at the center of the photo detector 80 but at different points. Therefore, a problem arises in that it is impossible to detect an accurate Servo signal and an RF signal.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and provides an optical pickup apparatus capable of detecting accurate servo signals and RF signals in reproducing three types of optical disks by using laser diodes emitting three wavelengths. For that purpose.

The optical pickup device according to the present invention comprises a laser diode for generating a three-wavelength beam, a beam splitter for transmitting or reflecting an incident beam according to the polarization direction of the incident beam, a collimator lens for allowing the beam to proceed in parallel, The objective lens for collecting the beam at the correct point of the optical disk, a photo detector for reading the beam reflected from the optical disk, and a three wavelength beam emitted from the laser diode to be formed at the correct position of the photo detector. It is characterized in that the two beam correction element formed between the laser diode and the photo detector.

In addition, the two beam correction elements are formed between the laser diode and the beam splitter.

In addition, the two beam correction elements are characterized in that formed between the beam splitter and the photo detector.

In addition, one of the two beam correction elements is formed between the laser diode and the beam splitter, the other is characterized in that formed between the beam splitter and the photo detector.

In addition, the beam correction element is characterized in that the traveling path of the beam of a predetermined wavelength to the traveling path of the particular beam.

In addition, the two beam correction elements are characterized in that the CD beam correction element and the DVD beam correction element.

In addition, the photo detector is characterized in that each PD cell according to the three wavelength beam is provided.

Hereinafter, an optical pickup apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a view for explaining an optical pickup device according to the present invention.

Referring to Figure 4, the present invention is provided with a laser diode 110 for emitting beams of three wavelengths (for example, CD light, DVD light, BD light), the laser diode 110 of each wavelength The distance between the chips is formed to about 110㎛.

The wavelengths of the beams emitted from the three chips (eg, DVD, CD, BD) are 650 nm, 780 nm, and 405 nm. Of course, the wavelength emitted may vary depending on the type of chip installed, the manufacturer, and the manufacturing process.

The centers of the three beams are emitted through different paths according to the distance between the chips. The collimator lens is reflected by a beam splitter 160 that transmits or reflects the incident beam according to the polarization direction of the incident beam. 130 and through the objective lens 140 that collects the beam at the correct point on the optical disk.

The beam reflected from the optical disk 150 passes through the objective lens 140, the collimator lens 130, and the beam splitter 160. In this case, the beam is changed in the polarization direction and passes through the beam splitter 160 without being reflected.

The beam splitter 160 allows a boiling point for servo generation to be generated, and the beam passing through the beam splitter 160 passes through the cylinder lens 170 for focus error detection by astigmatism.

In this case, since the three beams are not exactly formed at the center of the photo detector 200 due to the difference in the propagation paths, the CD beam compensator 180 and the DVD beam compensator 190 are used to correct the path of the CD beam and the DVD beam. ) So that the beam is accurately formed at the center of the photo detector 200. At this time, the positions of the CD beam correction element 180 and the DVD beam correction element 190 may be reversed.

Therefore, accurate servo signals and RF signals can be detected using laser diodes emitting three wavelengths.

5 is a view for explaining another embodiment of the optical pickup apparatus according to the present invention.

In contrast to the embodiment described with reference to FIG. 4, in the embodiment of FIG. 5, the CD beam compensator 180 and the DVD beam compensator 190 are positioned between the laser diode 110 and the beam splitter 160 so that the CD beam and the DVD. Correct the path of the beam.

Thus, it is possible to concatenate three beams at the exact point of the optical disk 150.

However, as shown in FIG. 6, when the CD beam compensator 180 and the DVD beam compensator 190 are positioned between the laser diode 110 and the beam splitter 160, light efficiency may be reduced. As in the embodiment, the DVD beam compensator 190 is positioned between the photo detector 200 and the cylinder lens 170, and the CD beam compensator 180 is disposed between the laser diode 110 and the beam splitter 160. It is also possible to be positioned.

At this time, the positions of the CD beam correction element 180 and the DVD beam correction element 190 may be reversed.

7 and 8 illustrate an embodiment of the CD beam compensator 180 or the DVD beam compensator 190.

The CD beam compensator 180 or the DVD beam compensator 190 is formed in a concentric pattern as shown in FIG. 7, so that a phase difference is generated when a beam having a predetermined wavelength is transmitted through the pattern.

For example, when the correction element is applied to the DVD beam correction element 190, the phase difference of 360 degrees is generated when the beams of 405 nm and 780 nm are transmitted so that the CD beam or BD beam is not affected and the 650 nm beam ( When the DVD beam is passed, the phase difference is given to correct the beam.

In addition, when the DVD beam is transmitted through the DVD beam compensator 190, it also serves as a grating having a curvature, thereby generating a beam of ± 1 light shield that is diffracted with the 0th light beam, so that the DVD beam correction device 190 is generated. It is possible to adjust the beam to the center of the photo detector 200 in accordance with the movement. Whether to detect a signal using the zero-order beam or the ± 1-order beam may be determined according to the magnification of the designed optical system and the pattern interval of the correction element.

The CD beam compensator 180 may be applied in the same manner as the DVD beam compensator 190.

Accordingly, it is possible to move the CD beam and the DVD beam to the center of the photo detector 200 without changing the position of the BD beam by using the CD beam correction element 180 or the DVD beam correction element 190.

9 is a view for explaining an embodiment in which the CD beam compensator 180 or the DVD beam compensator 190 is not used in the optical pickup device of the present invention.

9 is similar to the configuration of FIG. 2 described above, but as shown in FIG. 10, the photo detector 200 includes a PD cell 210 for each beam.

That is, since the PD cells 210 are provided for the DVD light, the BD light, and the CD light, respectively, accurate signals can be detected without a separate beam compensating element.

In the photo detector 200 of the two embodiments illustrated in FIG. 10, the PD cells 210 are positioned differently depending on whether the chip arrangement of each beam installed in the laser diode 100 is arranged in the R or T direction. Is showing.

The present invention has an advantage of providing an optical pickup apparatus capable of detecting accurate servo signals and RF signals in reproducing three types of optical disks by using laser diodes emitting three wavelengths.

1 is a view for explaining an optical pickup device using two conventional laser diodes.

2 is a view for explaining that a laser diode having three chips is formed in one conventional package.

3 is a view for explaining that a beam emitted from a laser diode having three chips in one conventional package is formed on a photo detector.

4 is a view for explaining an optical pickup device according to the present invention.

5 is a view for explaining another embodiment of the optical pickup apparatus according to the present invention;

6 is a view for explaining another embodiment of the optical pickup apparatus according to the present invention.

7 and 8 illustrate an embodiment of a CD beam correction element or a DVD beam correction element.

Fig. 9 is a view for explaining an embodiment in which a D beam compensator or a DVD beam compensator is not used in the optical pickup apparatus of the present invention.

<Explanation of symbols for main parts of drawing>

10; Laser diode 11; Laser diode

20; Mirror 30; Collimator lens

40; Objective lens 50; Optical disc

60; Beam splitter 70; Cylinder lens

80; Photo detector 110; Laser diode

130; Collimator lens 140; Objective

150; Optical disc 160; Beam splitter

170; Cylinder lens 180; CD beam compensator

190; DVD beam correction element 200; Photo detector

210; PD cell

Claims (7)

A laser diode in which a three wavelength beam is generated, A beam splitter for transmitting or reflecting the incident beam according to the polarization direction of the incident beam; A collimator lens allowing the beam to run in parallel; An objective lens for collecting the beam at the correct point of the optical disk, A photo detector for reading the beam reflected from the optical disk; And two beam compensators formed between the laser diode and the photo detector such that the three wavelength beams emitted from the laser diode are formed at the correct position of the photo detector. The method of claim 1, And said two beam correction elements are formed between a laser diode and a beam splitter. The method of claim 1, And the two beam compensators are formed between the beam splitter and the photo detector. The method of claim 1, Wherein one of the two beam compensators is formed between the laser diode and the beam splitter, and the other is formed between the beam splitter and the photo detector. The method according to any one of claims 1 to 4, The beam correction device is characterized in that the traveling path of the beam of a predetermined wavelength is matched to the traveling path of the particular beam. The method according to any one of claims 1 to 4, The two beam correction elements are a CD beam correction element and a DVD beam correction element. The method of claim 1, The photo detector is an optical pickup device, characterized in that each PD cell according to the three wavelength beam is provided.