KR101329244B1 - Optical pickup device - Google Patents

Abstract

The present invention relates to an optical pickup device. The optical pickup device according to the present invention constitutes a B / D optical system and a CD / DVD optical system, and adopts a wedge plate having a thickness of 0.8 mm or less in the center of the beam transmission instead of CUBIC. By placing the phosphorous B / D optical system on the wedge plate in a transmissive form and the CD / DVD optical system on the wedge plate in a reflective form, it is possible to minimize the deterioration of the performance of the B / D optical system passing through the wedge plate. Compared with the conventional optical system used, the manufacturing cost can be remarkably reduced while ensuring the same performance.

Description

Optical pickup device {OPTICAL PICKUP DEVICE}

The present invention relates to an optical pickup device.

Optical Disc Drive (ODD) uses signal processing to process compact discs (CDs), digital video discs (DVDs), and Blu-ray Discs (B / Ds). Is provided, or an optical pickup device for reproducing data stored in the CD, DVD and B / D.

The optical pickup device uses an objective lens (O / L) for CD / DVD and B / D to focus a beam of a laser diode (L / D) as a light source onto CD, DVD, and B / D. Each of them has an optical system.

However, when the optical system is configured as described above, since the two objective lenses (O / L) must be provided as described above, the overall optical system can be complicated, and thus the size of the optical pickup device can be increased. To solve this problem, three wavelength compatible objectives (O / L) compatible with CDs, DVDs and B / Ds have been developed and used.

The optical pickup apparatus to which the said three wavelength compatible objective lens (O / L) was applied is disclosed by (patent document 1) and (patent document 2). That is, according to the (Patent Document 1), the optical pickup device is a light source (L / D) for emitting a three-wavelength laser beam, a three-wavelength compatible objective lens (O / condensing the laser beam emitted from the light source on a disk) L), a three-wavelength compatible optical system is composed of an optical element for branching the path of reflected light reflected from the disk and a photo-integrated circuit (PDIC) for receiving the reflected light separated from the optical element.

According to (Patent Document 2), the optical pickup device includes two light sources (L / D), two optical elements for branching the laser beam emitted from the light source, and a path of the laser beam branched from the optical element. 3 wavelengths with a mirror for switching, a 3 wavelength compatible objective lens for condensing the laser beam emitted from the light source onto a disk, and a photoelectric integrated circuit (PDIC) for receiving the laser beam returned to the optical element. A compatible optical system is constructed.

Here, the conventional optical pickup apparatus including the above (Patent Document 1) and (Patent Document 2) has a collimator lens and a polarizing hologram element between the light source L / D and the objective lens O / L in common. (HOE) is arrange | positioned and the optical system is comprised.

In addition, it is also common to use CUBIC as an optical element for aligning optical axes of a Blu-ray disc optical system (hereinafter referred to as B / D optical system) and a compact disc / digital video disc optical system (CD / DVD optical system) on the same axis. .

However, the cubic has a problem in that the unit cost is high, and in order to solve this problem, an increase in aberration occurs in a transmission optical system when using other general beam splitters.

In addition, the conventional optical pickup device minimizes aberration deterioration by arranging the B / D optical system in the optical element in a reflective type when constructing the optical system, but the problem of performance deterioration occurs as the CD / DVD optical system is disposed on the transmission side. have.

KR 2006-0047813 A KR 2009-0053704 A

Accordingly, the present invention is to solve the problem that the increase in manufacturing cost and aberration increases due to the use of a cubic or beam splitter as an optical element, and also to solve the problem that the overall performance is deteriorated according to the arrangement of the optical system.

SUMMARY OF THE INVENTION An aspect of the present invention is to provide an optical pickup apparatus which can easily improve the configuration and arrangement of an optical system using a three wavelength compatible objective lens.

In order to achieve the above point of view,

The optical pickup device according to the present invention comprises a wedge plate having a thickness of 0.8 mm or less at the center of the beam transmission;

A B / D optical system configured to transmit a light source to the wedge plate, and to condense a laser beam onto a Blu-ray disc through a three wavelength compatible objective lens; And

A CD / DVD optical system in which a light source is disposed on the wedge plate in a reflective manner and focuses a laser beam on a compact disc / digital video disc through the three wavelength compatible objective lens;

.

In the optical pickup device according to the present invention, the wedge plate is characterized in that the cross section is formed in a trapezoid.

An optical pickup apparatus according to the present invention, wherein the B / D optical system and the CD / DVD optical system include: a beam splitter for changing an optical axis of a beam irradiated from a light source;

A collimator lens disposed in front of the beam splitter to convert a divergence angle of the incident beam;

A mirror for switching a path of a beam emitted from the beam splitter; And

A three wavelength compatible photonic integrated circuit for receiving the beam returned to the beam splitter;

And a control unit.

These features will become more apparent from the following detailed description for carrying out the invention according to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor should appropriately define the concept of the term in order to describe its invention in the best way possible It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

According to the present invention, by placing the B / D optical system in a transmissive type on a wedge plate formed of a thickness of 0.2 ~ 0.8 mm of the center of the beam transmission, and the CD / DVD optical system in a reflective type on the wedge plate, relatively relative to cubic It is possible to configure the optical system using an inexpensive wedge plate, thereby significantly reducing the manufacturing cost. And it is possible to minimize the degradation of the overall optical system due to the improvement of the arrangement structure around the wedge plate.

1 is a system diagram showing a B / D optical system and a CD / DVD optical system according to an embodiment of the present invention.
2 is a cross-sectional view showing a wedge plate according to an embodiment of the present invention.
Figure 3 is a schematic diagram showing an optical pickup device according to an embodiment of the present invention.

Aspects, specific advantages, and novel features of the present invention will become more apparent from the following detailed description and examples associated with the accompanying drawings. In the present specification, in adding reference numerals to the components of each drawing, it should be noted that the same components as much as possible even if displayed on different drawings. Also, in describing the present invention, detailed descriptions of related well-known technologies that may unnecessarily obscure the subject matter of the present invention will be omitted.

In the optical pickup device according to the present invention, as shown in FIG. 1, a wedge plate having a thickness of the center C through which the beam is transmitted is 0.2 to 0.8 mm, and a light source on the wedge plate 30. L / D) is disposed in a transmissive type, and the light source is applied to the B / D optical system 10 and the wedge plate 30 that focus a beam onto a Blu-ray disc B / D through a three-wavelength compatible objective lens. (L / D) is arranged in a reflection type, and includes a CD / DVD optical system 20 for condensing a beam onto a compact disc (CD) / digital video disc (DVD) through the three wavelength compatible objective lens 80. .

In this case, the light source L / D is provided in the B / D optical system 10 and the CD / DVD optical system 20, respectively, so that the light source L of the B / D optical system 10 will be described below for easy explanation and understanding. / D) is referred to as the first laser diode 11, and it is known in advance that the light source (L / D) of the CD / DVD optical system is referred to as the second laser diode (21).

That is, the first laser diode 11 emits a beam having a wavelength of about 405 nm for the B / D, and the second laser diode 21 has a wavelength of about 655 nm for the CD / DVD. It emits a three wavelength beam having a wavelength and a wavelength of about 785 nm.

In this case, the first laser diode 11 is disposed in the transmissive type on the wedge plate 30 formed with a thickness of 0.2 to 0.8 mm in the center C, through which the beam is transmitted, to prevent performance degradation. The second laser diode 21 is disposed in the wedge plate 30 in a reflective manner to minimize aberration degradation.

The wedge plate 30 is of a glass type, and is provided to align optical axes of the first laser diode 11 and the second laser diode 21 on the same axis, and is generally made of BK7 or B270 material. The thickness of the center (C) through which the beam is transmitted is formed in 0.2 ~ 0.8mm, the cross section is formed in a trapezoid.

That is, as shown in Figure 2, on the basis of the thickness of the center (C) to form a narrow upper portion 33, the lower portion 34 to form a wide cross section of the wedge plate 30 to have a trapezoid as a whole. .

Therefore, the transmission distance of one wavelength beam passing through the wedge plate 30 can be made uniform, and the reflection angles of the two wavelength and three wavelength beams reflected by the wedge plate 30 can be made uniform.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the optical pickup device according to the present invention has a thickness of the center C through which the beam is transmitted is 0.2 to 0.8 mm so that a first laser is formed on the transmission surface 31 of the wedge plate 30 formed in a trapezoid shape. The diode 11 is arranged to form the B / D optical system 10. The second laser diode 21 is disposed on the reflective surface 32 of the wedge plate 30 to form the CD / DVD optical system 20.

Meanwhile, as shown in FIG. 3, the B / D optical system 10 and the CD / DVD optical system 20 include a beam splitter, a collimator lens, a mirror, and a three wavelength compatible objective lens 80. ) And three wavelength compatible photoelectric integrated circuits (PDICs) in common.

Accordingly, one wavelength of the first laser diode 11 passes through the transmission surface 31 of the wedge plate 30 and is then irradiated onto the beam splitter 40 to change the optical axis. The second laser diode 21 2,3 wavelength of the beam is reflected on the reflecting surface 32 of the wedge plate 30 and then irradiated to the beam splitter 40 to change the optical axis.

In addition, the 1,2,3 wavelengths irradiated from the beam splitter 40 are incident on the collimator lens 50 to convert divergence angles, and have different conversion amounts according to wavelengths. That is, the collimator lens 50 is arranged to be movable along the optical axis direction through a normal actuator to adjust the focal lengths of the 1,2 and 3 wavelengths.

In addition, the collimator lens 50 is moved in the optical axis direction to correct the spherical aberration caused by the thickness error of the CD, DVD and B / D.

The three-wavelength compatible objective lens 80 has a spherical surface formed on one surface to condense beams of 1,2 and 3 wavelengths onto CD, DVD, and B / D. In other words, the numerical aperture of the objective lens 80 is 0.85 for one wavelength, 0.60 for two wavelengths, and 0.45 for three wavelengths, which are formed by a so-called zone division method to provide compatibility with three different wavelengths. Can be achieved.

Therefore, the three-wavelength compatible objective lens 50 condenses a beam of one wavelength whose divergence angle is converted by the collimator lens 50 with respect to the B / D, and records or reproduces data in the B / D. The CD and DVD condense two or three wavelength beams whose divergence angles have been converted by the collimator lens 50 to record or reproduce data on the CD / DVD. The three wavelength compatible photoelectric integrated circuit 90 receives the beam reflected from the CD / DVD and the B / D and returned to the beam splitter 40.

Table 1 is a result of simulating a total RMS change amount according to the thickness of the wedge plate 30, by forming the thickness of the center of the wedge plate 30 to 0.2 ~ 0.8 mm, RMS 0.01 ~ It shows that it satisfies 0.03.

That is, aberration generally referred to as an inspection unit of an optical component typically has a third aberration. The comprehensive RMS is a combination of spherical aberration, coma, and astigmatism, and is usually a unit of aberration.

Although the present invention has been described in detail by way of examples, it is intended to specifically describe the present invention, and the optical pickup device according to the present invention is not limited thereto, and the general knowledge of the art within the technical spirit of the present invention is provided. It is obvious that modifications and improvements are possible by those who have them.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10-B / D optics 11-first laser diode
20-CD / DVD optics 21-Second laser diode
30-wedge plate 31-transmissive surface
32-Reflective surface 33-Top
34-lower 40-beam splitter
50-collimator lens 60-mirror
80-3 wavelength compatible objective 90-3 wavelength compatible photonic integrated circuit
C-center

Claims (3)

The center C through which the laser beam is transmitted has a thickness of 0.2 to 0.8 mm to satisfy RMS 0.01 to 0.03, which combines spherical aberration, coma, and astigmatism. Formed wedge plates of glass type;
A first laser diode (L / D) disposed in the wedge plate to form a B / D optical system;
A second laser diode (L / D) disposed reflectively on the wedge plate to constitute a CD / DVD optical system;
A beam splitter for changing an optical axis of the laser beam irradiated from the first and second laser diodes;
A collimator lens arranged to be movable along the optical axis in front of the beam splitter and converting a divergence angle of the incident beam;
A mirror disposed in front of the collimator lens to switch a path of the laser beam emitted from the beam splitter;
A three-wavelength compatible photonic integrated circuit (PDIC) disposed behind the beam splitter and receiving a laser beam returned to the beam splitter; And
A three wavelength compatible objective lens for condensing the laser beam of the first laser diode on a Blu-ray Disc (B / D) and condensing the laser beam of the second laser diode on a Compact Disc (CD) / Digital Video Disc (DVD) O / L);
Optical pickup device comprising a. delete delete

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