KR100536725B1 - Pick-up system for holographic disk - Google Patents

Abstract

The present invention relates to a pickup apparatus for a holographic disc, comprising: an optical system for injecting light emitted from a light source into the disc at an angle of signal light used in recording the hologram disc, and providing light reflected and diffracted by the disc in multiple paths And a first light detector for detecting light diffracted at a plurality of angles by the holographic reproduction layer recorded on the disc, and a second light detector for detecting light reflected by the reference layer reproducible by reflection recorded on the disc. A control unit for controlling the light detection angle of the first light detector according to the angle between the light detected by the first light detector and the light detected by the second light detector; and light by the first light detector according to the detection angle control. It includes an angle adjuster for adjusting the detection angle, and the advantage of controlling the desired holographic playback angle according to the picked-up DVD light detection There is this.

Description

Pick-up device for holographic discs {PICK-UP SYSTEM FOR HOLOGRAPHIC DISK}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a holographic disk pick-up apparatus, and more particularly, to a combo pickup apparatus capable of picking up data recorded on a holographic ROM disk and a digital data disk from a single pickup apparatus. It is about.

In general, two or more different devices connected to one integrated system are called a combination system or a combo-system. As an example of a combination system, a VCR / TV combo system that integrates the functions of a VCR and a TV, or a DVD / VCR that integrates a player of a digital data disc such as a VCR (Video Cassette Record) deck and a DVD (Digital Video Disk). There is a combo system, which provides user convenience by playing or recording discs such as DVDs and VCR tapes in a single device.

Until now, however, no device has been used to pick up data using a single device, such as a holographic ROM disk and a general DVD.

The present invention has been proposed to solve the problems of the prior art as described above, and it is possible to pick up data recorded on a digital data disc such as a holographic disc and a DVD in one pick-up device, and it is desired according to the picked-up DVD light detection It is an object of the present invention to provide a pickup device of a holographic disc to control the holographic reproduction angle.

A pickup device according to the present invention for achieving the above object, the light emitted from the light source is incident on the disk at the angle of the signal light used when recording the hologram disk, and the light reflected and diffracted by the disk is provided in multiple paths. An optical system for detecting the light diffracted at a plurality of angles by the holographic reproduction layer recorded on the disc, and detecting the light reflected by the reference layer reproducible by the reflection recorded on the disc. A control unit for controlling a light detection angle of the first light detection unit according to an angle between a second light detection unit, light detected by the first light detection unit and light detected by the second light detection unit, and the detection angle control. Accordingly, the angle adjusting unit adjusts the light detection angle by the first light detecting unit.

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

1 is a block diagram of a holographic disk pickup apparatus according to the present invention.

Referring to FIG. 1, the pickup apparatus of the present invention injects the light emitted from the light source 21 to the surface of the disk 10 at an angle of the signal light used in the recording of the hologram disk 10. An optical system for providing reflected and diffracted light in multiple paths, a first light detector (PDIC) 45 for detecting light diffracted at multiple angles by a holographic reproduction layer recorded on the disk 10, and a disk ( A second light detector 33 for detecting light diffracted in the same direction as the direction reflected by the reference layer recorded in 10), the light detected by the first light detector 45 and the second light detector 33 The control unit 40 for controlling the light detection angle of the first light detection unit 45 according to the angle with the light detected in the and the light detection angle by the first light detection unit 45 in accordance with the detection angle control It is configured to include an angle adjuster (50).

The optical system from the light source 21 to the disk 10 transmits a collimating lens 22 for converting the first light emitted from the light source 21 into parallel light and a first light passing through the lens 22. And a deformed plate (Quarter) for converting the first light transmitted through the polarizer beam splitter (PBS) reflecting the second light and the first light transmitted through the polarizing beam splitter 23 into circularly polarized light and entering the disk 10. wave plate 24).

The optical system from the disk 10 to the second light detector 33 includes a strained plate 24 that provides the polarized beam splitter 23 with the second light obtained by transforming the light reflected from the disk 10 into linearly polarized light, and a strained plate ( A polarizing beam splitter 23 reflecting the second light provided from the first light and transmitting the first light, a lens 31 for converting the second light reflected by the polarizing beam splitter 23 into parallel light; And an astigmatism lens 32 for providing the second light passing through the signal 31 to the second light detector (PDIC) 33.

The optical system from the disk 10 to the first light detector 45 is adjusted by the angle adjuster 50 to reflect the light in a predetermined angle range among the light diffracted by the disk 10 at a plurality of angles. The first light detection unit includes only a predetermined optical signal adjacent among the reflection mirror 41, the lens 42 for converting the light reflected by the reflection mirror 41 into parallel light, and the parallel light provided from the lens 42. A slit (SLIT) 43 for making incident to 45 and a lens 44 for injecting light passing through the slit 43 into the first light detector 45.

In the present invention, the light source 21 is a green laser light source having a predetermined wavelength, for example, a wavelength of 532 nm, and the first light emitted from the light source 21 has a horizontal P-polarized light due to the green laser light characteristic. When the P-polarized light is transformed into the strained plate, the light is changed into circularly polarized light. In the present invention, P polarization is divided into first light and S polarized light is divided into second light for ease of explanation.

The pickup apparatus of the holographic disc of the present invention configured as described above operates as follows.

First, the first light emitted from the light source 21 passes through the polarizing beam splitter 23 through the lens 22 and is incident on the modifying plate 24, and the modifying plate 24 deforms the first light of the P-polarized light. After switching to circularly polarized light, it enters the disk 10 at an angle of the signal light used in recording the hologram disk 10.

Then, the light diffracted by the reference layer recorded on the disc 10 is incident again to the deforming plate 24, and the light diffracted at a plurality of angles by the hologram reproducing layer recorded on the disc 10 is emitted.

The circularly polarized light incident on the deformable plate 24 is deformed to be converted into the second light of S polarization, the second light of the flat plate 24 is reflected through the polarizing beam splitter 23 to be incident on the lens 31, In the lens 31, it becomes parallel light and is sent to the astigmatism lens 32. The astigmatism lens 32 sends the second light of the parallel light to the second light detector 33, and the second light detector 33 sends the light detection data to the controller 40.

Next, among the light diffracted at a plurality of angles by the hologram reproducing layer recorded on the holographic disc 10, the first light having a predetermined angle range is incident on the reflection mirror 41.

Here, the arrangement angle of the reflection mirror 41 is determined by the angle adjuster 50, the initial angle is not finely adjusted, and the optical detection angle control signal provided from the controller 40 to be described later. The placement angle will be adjusted later.

The reflection mirror 41 reflects the first light and enters the slit 43 through the lens 42. The first light penetrating through the hole of the slit 43 is incident on the first light detector 45 through the lens 44, and the first light detector 45 sends the light detection data to the controller 40.

Then, the controller 40 recognizes the angle at which the light of the reference pattern is detected through the second light detector 33 as the reference angle.

Then, to detect the light emitted from the holographic disk 10 with the same angle as that of the reference light used to record the page to be reproduced from among the plural angle optical signals diffracted by the holographic disk 10. The light detection angle control signal is output based on the reference angle.

The angle adjusting unit 50 adjusts the placement angle of the reflection mirror 41 according to the light detection angle control signal of the control unit 40 and has the same angle as the angle of the reference light used when recording the page to be reproduced. The light emitted from the disk 10 is made incident on the reflection mirror 41.

Thus, the reflecting mirror 41 reflects the first light of the desired angle and enters the slit 43 through the lens 42, and the first light of the desired angle penetrating through the hole of the slit 43 is The light is incident on the first light detector 45 through the lens 44.

In the above description, but limited to one embodiment of the present invention, it is obvious that the technology of the present invention can be easily modified by those skilled in the art.

For example, by changing the reflecting mirror whose arrangement angle is adjusted by the angle adjusting unit in the path for detecting the diffracted light from the disk to an optical system that reflects light at multiple angles, such as a multi-reflective mirror, a plurality of pages can be reproduced simultaneously. .

Such modified embodiments should be included in the technical spirit described in the claims of the present invention.

As described above, the present invention can pick up data recorded on a digital data disk, such as a holographic disk and a DVD, in one pick-up apparatus using one light source and two light detectors. Depending on the detection, the desired holographic reproduction angle can be controlled.

1 is a block diagram of a holographic disk pickup apparatus according to the present invention.

Claims (5)

An optical system in which the light emitted from the light source is incident on the disk at an angle of the signal light used in recording the hologram disk, and provides the light reflected and diffracted by the disk in a plurality of paths; A first light detector for detecting light diffracted at a plurality of angles by the holographic reproduction layer recorded on the disc; A second light detector for detecting light reflected by a reference layer reproducible by reflection recorded on the disc; A control unit controlling a light detection angle of the first light detection unit according to an angle between the light detected by the first light detection unit and the light detected by the second light detection unit; An angle adjusting unit adjusting the light detecting angle by the first light detecting unit according to the detecting angle control Pickup device for a holographic disk comprising a. The method of claim 1, The optical system from the light source to the disk includes a lens for converting the first light emitted from the light source into parallel light; A polarizing beam splitter for transmitting the first light passing through the lens; The deformed plate for transforming the first light transmitted through the polarizing beam splitter into circularly polarized light and incident on the disk Pick-up device for a holographic disc, characterized in that configured to include. The method of claim 1, The optical system from the disk to the second light detection unit includes a deformation plate for transforming the light reflected from the disk into linearly polarized light; A polarizing beam splitter for reflecting the second light provided from the deforming plate; A lens for converting the second light reflected by the polarizing beam splitter into parallel light; An astigmatism lens that provides the second light passing through the lens to the second light detector. Pick-up device for a holographic disc, characterized in that configured to include. The method of claim 1, The optical system from the disc to the first light detecting unit includes a reflection mirror that adjusts an arrangement angle by the angle adjusting unit to reflect light in a predetermined angle range among light diffracted at a plurality of angles by the disc; A lens for converting the light reflected by the reflection mirror into parallel light; A slit for allowing only a predetermined light signal adjacent to the light incident from the lens to be incident on the first light detector; A lens for incident the light passing through the slit to the first light detector Pick-up device for a holographic disc, characterized in that configured to include. The method of claim 1, The control unit recognizes the angle at which light of the reference pattern is detected as the reference angle by the first light detector, and then uses the angle of the reference light used to record the page to be reproduced among the optical signals of the plurality of angles diffracted on the disc. And the light detection angle is controlled based on the reference angle to detect light emitted from the disc with an angle equal to.