KR100501293B1 - Holographic digital data reproducing system compatible cd and dvd - Google Patents

Abstract

 The holographic digital data reproducing system according to the invention moves a holographic optical member composed of a light source for generating a reference light for reproduction, a plurality of diffraction gratings for diffractive reproduction light at different deflection angles, and a holographic optical member. An actuator for changing a position of a diffraction grating to which the reproduction reference light is incident, a storage medium for storing an interference pattern and reacting with a reference light deflected by one of the diffraction gratings to generate reflected light, and a storage medium It includes a light receiving unit for detecting the reflected light reflected from.

As described above, the present invention omits the optical system by using a holographic optical member composed of a plurality of diffraction gratings having different diffraction rates and providing the reproducing reference light to the storage medium with different angle deflections according to the diffraction rate. This not only simplifies the regeneration system but also increases the efficiency of the laser light generated from the light source.

In addition, the present invention can multiplex the number of reference light for reproduction that the reproduction system can reproduce.

Description

Holographic digital data reproduction system compatible with CD and DVD {HOLOGRAPHIC DIGITAL DATA REPRODUCING SYSTEM COMPATIBLE CD AND DVD}

The present invention relates to a holographic digital data reproduction system, and more particularly to a holographic digital data reproduction system compatible with CD and DVD.

Recently, the field of technology using volume holographic digital data storage has been actively studied everywhere, for example, due to the remarkable development of semiconductor laser, charge coupled device (CCD), liquid crystal display (LCD), etc. As a result of these studies, fingerprint recognition systems for storing and reproducing fingerprints have been put to practical use, and are being expanded to various fields that can apply the advantages of large capacity and ultra-fast data transfer rate.

As described above, the volume holographic digital storage system is a storage medium, for example, optical refraction, sensitively reacting the interference fringe generated when the signal light from the target object and the reference light interfere with each other. photorefractive Recording is made on a storage medium such as a crystal. By recording the intensity and phase of the signal light by a method of changing the angle of the reference light or the like, the three-dimensional image of the object can be displayed and the binary data Hundreds to thousands of holograms, organized in pages, can be stored in the same place.

A holographic digital data reproducing system for reproducing data recorded on a storage medium by such a holographic digital data storage system will be described with reference to FIG.

1 is a block diagram showing the overall structure of a holographic digital data reproduction system according to the prior art.

 As shown therein, the holographic digital data reproducing system includes a light source 10 for generating laser light for reproducing holographic digital data and a storage medium 30 for storing three-dimensional holographic data (ie, interference fringes). (For example, a light refractive crystal), and a reference light processing path PS is formed between the light source 10 and the storage medium 30, and between the storage medium 30 and the light receiving unit 40. A data path DS is formed to process data output from the storage medium 30. The storage medium 30 is rotated by the motor 32 at the time of reproduction, and is a holographic disk recorded in multiple by varying the deflection angle of the reference light.

As the reproduction reference light for reproducing the data stored in the storage medium 30 and the incident laser light incident from the light source 10, the reproduction reference light is provided to the reference light processing path PS.

On the reproduction reference light processing path PS, an optical system such as the light attenuator 12 and the first shutter 14 and a reflector 16 are provided in the emission direction of the reference light. In the reference light processing path PS having such an optical structure, The reproduction reference light required for reproduction of the hologram data is generated and provided to the storage medium 30.

On the other hand, the reflector 16 is driven by the actuator 20 to deflect the reference light (beam) for reproduction at a predetermined angle, for example, a predetermined reproduction angle for reproduction, and the reference light deflected at the reproduction angle is stored in the storage medium ( 30).

In the storage medium 30, when the reproduction reference light is irradiated from the reflector 16 at a predetermined deflection angle, the recorded interference fringe diffracts the reproduction reference light so that a single page of binary data (consisting of the original pixel contrast) That is, it is demodulated in a checkerboard pattern) and provided to the data processing path DS.

The first lens 34, the second shutter 36, and the second lens 38 are provided on the data processing path DS, and the binary data reproduced from the storage medium 30 by the reference light for reproduction are such. The light receiving unit 40 or the like is irradiated and reproduced through the data processing path DS.

However, the conventional holographic digital data reproduction system has a problem in that the use efficiency of the laser light emitted from the light source is lowered by the optical system provided in the emission direction of the reproduction reference light.

In addition, in order to reproduce the multiplexed storage medium, it is necessary to precisely control the deflection angle of the reproduction reference light, but it is difficult to precisely control the deflection angle due to the performance of the device used for the reflector.

An object of the present invention is to solve the problems of the prior art, by using a holographic optical member composed of a plurality of diffraction gratings having different diffraction rates by deflecting the reference light for reproduction different angles according to the diffraction rate The present invention provides a holographic digital data reproduction system capable of simplifying a reproduction system by omitting an optical system and increasing the efficiency of laser light generated from a light source.

In addition, another object of the present invention is to use a holographic optical member composed of a plurality of diffraction gratings having different diffraction rates to angularly deflect the reference light for reproduction according to the diffraction rate, and to use an area without a diffraction grating. The present invention provides a holographic digital data reproducing system compatible with CDs and DVDs capable of reproducing a CD / DVD or a disc storing holographic digital data by deflecting a reference light for reproduction.

In order to achieve the above object, the present invention is a holographic digital data reproduction system, the light source for generating a reproduction reference light; A holographic optical member comprising a plurality of diffraction gratings for diffracting the reproduction reference light at different deflection angles; An actuator for moving the holographic optical member to change a position of a diffraction grating to which the reproduction reference light is incident; A storage medium having an interference pattern stored therein and generating reflected light in response to reference light deflected by any one of the diffraction gratings; And a light receiving unit for detecting the reflected light reflected from the storage medium.

In addition, the present invention for achieving another object of the present invention, the holographic digital data playback system compatible with CD and DVD, the light source for generating a reference light for reproduction; A holographic optical member comprising a plurality of diffraction gratings for diffracting the reproduction reference light at different deflection angles; An actuator for moving the holographic optical member to change a position of a diffraction grating to which the reproduction reference light is incident or to move the holographic optical member to allow the reproduction reference light to enter an area without the diffraction grating; An optical splitter for deflecting the reproduction reference light in a predetermined direction to enter the holographic optical member; A storage medium for generating reflected light in response to the holographic reference light deflected by a diffraction grating of the holographic optical member or the reference light for CD / DVD reproduction deflected in the region without the diffraction grating; And a light receiver configured to sense reflected light provided from the storage medium, wherein the light separator reflects the reflected light reflected from the storage medium to the light receiver.

There may be a plurality of embodiments of the present invention, and a preferred embodiment will be described in detail below with reference to the accompanying drawings. Those skilled in the art will be able to better understand the objects, features and advantages of the present invention through this embodiment.

FIG. 2 is a block diagram showing a holographic digital data reproducing system according to the present invention, and FIG. 3 is a view showing a holographic optical member used in the holographic digital data reproducing system of the present invention.

Referring to FIG. 2, the holographic digital data reproducing system includes a light source 100, a holographic optical member 110, an actuator 115, a storage medium 120, a motor 125, an optical system 130, and a light receiving unit ( 140).

The light source 100 generates a reference light for reproducing the holographic digital data recorded on the storage medium 120 and provides the generated reference light to the holographic optical member 110.

As illustrated in FIG. 3, the holographic optical member 110 is composed of a plurality of diffraction gratings 110a having different diffraction rates, and is provided with a diffraction grating in which a reference light for reproduction is incident by driving the actuator 115. The position of 110a) is changed. Each diffraction grating 110a deflects the reproduction reference light at different deflection angles and enters the storage medium 120 according to the diffraction rate, and the size of the diffraction grating 110a has the same size as that of the reproduction reference light. .

The reference light for reproduction is incident on only one of the diffraction gratings of the holographic optical member 110, and the diffraction grating into which the reference light is incident is diffracted according to the diffraction rate, that is, the reference light for deflection is deflected to the storage medium. Incident at 120.

The storage medium 120 is multiplexed and recorded and rotated by the motor 125 to generate reflected light in response to the reproduction reference light incident by being deflected at a predetermined angle by an arbitrary rotation lattice of the holographic optical member 110. The generated reflected light is provided to the light receiving unit 140 through the optical system 130. In this case, the optical system 130 includes a first lens 131, a shutter 132, and a second lens 133.

The light receiving unit 140 detects and reproduces the reflected light provided from the storage medium 120.

4 is a block diagram showing a holographic digital data reproducing system compatible with a CD / DVD using the holographic optical member according to the present invention.

As shown in FIG. 4, a holographic digital data reproducing system compatible with a CD / DVD includes a light source 200, an optical separator 202, a holographic optical member 204, an actuator 206, an optical system 208, The storage medium 210, the motor 220, the light receiving unit 230, and the signal processor 240 are included. Here, the storage medium 210 is any one of a disk, a compact disk (CD) and a DVD storing holographic digital data, and is rotated by the motor 220.

The light source 200 generates a reference light for reproduction and provides it to the optical separator 202, and the light separator 202 deflects the reference light for reproduction in a predetermined direction and enters the holographic optical fan 204. At this time, the reproduction reference light deflected in the predetermined direction by the optical separator 202 is deflected by the holographic optical member 204 and is incident on the storage medium 210.

The holographic optical member 204 is composed of a plurality of diffraction gratings having different diffraction rates, and the position of the diffraction grating into which the reproducing reference light is incident is changed by driving the actuator 206.

First, in the case of reproducing the storage medium 210 in which the holographic digital data is recorded, the holographic optical member 204 is moved by driving the actuator 206, whereby the reference light for reproducing is one of the diffraction gratings. Incident. The reproduction reference light incident on the diffraction grating is diffracted according to the diffraction rate of the diffraction grating and incident on the storage medium 210.

Thereafter, the holographic optical member 204 is moved again by the driving of the actuator 206, whereby the reproduction reference light is incident on the other diffraction grating. Regeneration reference light incident on the other diffraction grating is diffracted at different diffraction rates and incident on the storage medium 210. In other words, the deflection angle incident on the storage medium 210 to the reproduction reference light varies according to the diffraction grating to which the reproduction reference light is incident.

In the case of reproducing the storage medium 210 such as a CD / DVD, the holographic optical member 204 is moved by the driving of the actuator 206 to receive a reference light for reproducing to an area without a diffraction grating. The reference light is deflected at an angle by the holographic optical member 204 and provided to the storage medium 210 such as a CD / DVD.

The storage medium 210 provides reflected light generated in response to the reproducing reference light provided by the holographic optical member 204 to the optical separator 202 through the optical system 208. Accordingly, the optical separator 202 reacts with the reflected light reflected from the storage medium 210 in response to the CD / DVD reference light or the holographic reference light deflected at a predetermined angle by the holographic optical member 204 in the storage medium 210. Reflected reflected light is reflected to the light receiving unit 230.

The reflected light received by the light receiving unit 230 is signal-processed by the signal processing unit 240 and reproduced.

As described above, the present invention omits the optical system by using a holographic optical member composed of a plurality of diffraction gratings having different diffraction rates and providing the reproducing reference light to the storage medium with different angle deflections according to the diffraction rate. This not only simplifies the regeneration system but also increases the efficiency of the laser light generated from the light source.

In addition, the present invention can multiplex the number of reference light for reproduction that the reproduction system can reproduce.

1 is a block diagram showing the overall structure of a holographic digital data reproduction system according to the prior art,

2 is a block diagram showing a holographic digital data reproduction system according to the present invention;

3 is a view showing a holographic optical member used in the holographic digital data reproduction system of the present invention,

4 is a block diagram showing a holographic digital data reproducing system compatible with a CD / DVD using the holographic optical member according to the present invention.

<Description of the code | symbol about the principal part of drawing>

100, 200: light source 110, 204: holographic optical member

115, 206: actuator 120, 210: storage medium

125, 220: motor 130, 208: optical system

140 and 230: light receiving unit 202: light separator

240: signal processing unit

Claims (4)

In a holographic digital data reproduction system, A light source for generating reproduction reference light; A holographic optical member comprising a plurality of diffraction gratings for diffracting the reproduction reference light at different deflection angles; An actuator for moving the holographic optical member to change a position of a diffraction grating to which the reproduction reference light is incident; A storage medium having an interference pattern stored therein and generating reflected light in response to reference light deflected by any one of the diffraction gratings; And And a light receiving unit for detecting the reflected light reflected from the storage medium. The holographic digital data reproduction system of claim 1, wherein the size of the diffraction grating of the holographic optical member is equal to that of the reproduction reference light. In the holographic digital data playback system compatible with CD and DVD, A light source for generating reproduction reference light; A holographic optical member comprising a plurality of diffraction gratings for diffracting the reproduction reference light at different deflection angles; An actuator for moving the holographic optical member to change a position of a diffraction grating to which the reproduction reference light is incident or to move the holographic optical member to allow the reproduction reference light to enter an area without the diffraction grating; An optical splitter for deflecting the reproduction reference light in a predetermined direction to enter the holographic optical member;  A storage medium for generating reflected light in response to the holographic reference light deflected by a diffraction grating of the holographic optical member or the reference light for CD / DVD reproduction deflected in the region without the diffraction grating; And It includes a light receiving unit for detecting the reflected light provided from the storage medium, And the optical separator is compatible with CD and DVD for reflecting the reflected light reflected from the storage medium to the optical receiver. 4. The holographic digital data reproduction system of claim 3, wherein the size of the diffraction grating of the holographic optical member is equal to that of the reproduction reference light.