KR100536713B1 - Holographic data storage system having state checking function - Google Patents

Abstract

The present invention relates to a holographic data reproducing system having a state checking function. The holographic disc used in the present invention includes a storage material region for storing data and a reflective film region for reflecting incident light according to a selected holographic recording method. The reproducing system of the present invention includes a light source for generating light for incidence into the reflective film region of the disc, a reflected light detector for receiving the reflected light incident from the light source into the reflective film region and reflected by the reflective film region, and the reflected light detection result value. It includes a control unit for determining the state of the holographic disk based on, and it is possible to easily determine the presence or absence of the holographic disk by detecting the light reflected directly from the reflective film of the disk, the system by measuring the power of the detected reflected light Optimum output of light source by checking output power of light source It is possible to operate the power has the advantage that to obtain the best reproduction of the data output signal enhanced data reproduction reliability.

Description

Holographic data reproduction system with status check function {HOLOGRAPHIC DATA STORAGE SYSTEM HAVING STATE CHECKING FUNCTION}

The present invention relates to a holographic data reproducing system, and more particularly to a holographic data reproducing system capable of reliably determining the presence or absence of a holographic disc and the output power of a light source.

Disc presence determination technology applied to a CD (Compact Disc) or DVD (Digital Versatile Disc) playback system is described.A signal detector detects the presence or absence of light reflected from a data track in a disc and a signal is detected. If it is determined that there is, and shifts to the normal playback operation, if no signal is detected by the signal detector, it is regarded as the disk is not present and warns the user that there is no disk without performing the playback operation.

This disc presence determination technique is a technique adopted because the data reproduction principle of CD and DVD reflects the reproduction light directly from the information pit in the disc, and the reproduction output signal is relatively high so that it is easy to determine the presence or absence of the disc. .

However, in the case of the holographic data reproducing system, unlike the CD or DVD, since the information reproducing principle uses the information reproducing principle by diffraction of the reference light for reproduction rather than direct reflection, the reproduction output signal is very weak compared to the CD or DVD. As a result, there is a possibility that a determination error will be caused when determining the presence or absence of a disc using only the data reproduction output signal.

In particular, when information recorded using a disc which is a holographic storage medium for a long time is deteriorated or the reproduction output is extremely degraded due to a poor surface state of the disc, it is incorrect to judge the presence of the disc using the reproduction output signal as described above. The number of cases can increase greatly.

Therefore, a new technical problem has been given in the holographic data reproducing system, which has to determine the presence or absence of a disc using a principle different from that of a CD or DVD reproducing system.

The present invention has been proposed in order to solve the above technical problem, and applies a structure in which a reflective film region separated from a storage material region is disposed in a holographic disk over a predetermined region, and applies light into the reflective film. It is an object of the present invention to detect the light reflected directly from the reflective film and then to easily determine the presence or absence of a holographic disc.

Another object of the present invention is to check the output power of the system light source by measuring the power of the detected reflected light after injecting the light emitted from the system light source to the reflective film region of the holographic disk.

The present invention for solving the above objects is a system for reproducing holographic data recorded on a holographic disc, the holographic disc is characterized in that the light incident to the storage material area for storing the data according to the selected holographic recording method And a reflecting film area for reflecting, wherein the reproducing system comprises: a light source for generating light for incident on the reflecting film area; And a control unit for determining the state of the holographic disc based on the detection result of the reflected light detector.

There may be a plurality of embodiments of the present invention. Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings. This embodiment allows for a better understanding of the objects, features and advantages of the present invention.

1 is a structural diagram of a holographic disc used for implementing a state checking function according to the present invention in a holographic data reproducing system, and FIGS. 2A and 2B are diagrams illustrating a holographic data reproducing system having a state checking function according to the present invention. As a configuration diagram, FIG. 2A is a diagram showing an optical path at the time of state check, and FIG. 2B is a diagram showing an optical path at the time of data reproduction.

The holographic disk 110 used in the holographic data reproducing system according to the present invention is used to hold the disk 110 from the inside, as shown in FIG. 1, and a clamping area 111 that does not store data. The total reflection of the incident light causes the disk presence determination function and the light source output power checking function of the present invention to be exhibited by the reflected light, and the data is stored according to the selected holographic recording method. Has a structure including a storage material region 113. Reference numeral 114 in FIG. 1 is a substrate for protecting the storage material region 113.

In the holographic data reproducing system according to the present invention for reproducing the holographic disc 110 having the above structure, as shown in FIG. 2, the control unit 120, the disc drive unit 130, the pickup unit 140, and the reflected light are shown. The detector 150 and the signal processor 160 are included.

The pickup unit 140 includes a first actuator 141, a light source 142, a light separator 143, a reflector 144, first and second lenses 145 and 146, a second actuator 147, and a reproduction light detector. It consists of 148.

Referring to the disc presence determination process of the holographic data reproduction system according to the present invention, first the first actuator 141 moves the pickup 140 to the proximal position of the reflective film region 112 according to the control signal of the controller 120. The second actuator 147 moves the reflected light detector 150 to a light receiving position close to the reflective film region 112.

The light source 142 generates a reference light for reproduction and provides it to the light separator 143, and the light separator 143 reflects a part of the reference light for reproduction to enter the reflector 144. The reproduction reference light reflected by the optical separator 143 is deflected by the reflector 144 at a predetermined angle and is incident on the reflective film region 112 of the disk 110 (FIG. 2A).

The reference light for reproduction is totally reflected in the reflective film area 112 of the disk 110, and the reflected light is emitted. The reflected light detector 150 receives the reflected light and transmits the received result to the controller 120.

As a result, the controller 120 determines the presence or absence of the holographic disk 110 based on the detection result of the reflected light detector 150. That is, when the reflected light is detected by the reflected light detector 150, it is determined that the disk 110 exists. When the reflected light is not detected by the reflected light detector 150, the disk 110 is determined to not exist. will be.

On the other hand, when the control unit 120 wants to check the output power of the light source 142, the control unit 120 compares the reflected light detection value by the reflected light detection unit 150 with a preset reference value, and outputs the system light source 142 according to the comparison result. The power will be checked.

Accordingly, the controller 120 can reliably determine the presence or absence of the disc 110 and alert the outside of the determination result through a separate display means, and determine the adequacy of the output power of the light source 142 to determine the appropriateness. According to the result, the output power of the light source 142 may be calibrated to provide the optimum output power.

The subsequent regeneration process is performed by the same procedure as the known technology, the spindle motor forming the disc drive unit 130 is driven according to the control signal of the control unit 120 to rotate the disc 110 at a predetermined regeneration speed, The pickup unit 140 is moved to the regeneration position by the first actuator 141, and the first lens 145 is moved to the predetermined light receiving position by the second actuator 147, respectively.

The light source 142 generates a reference light for reproduction and provides it to the light separator 143, and the light separator 143 reflects a part of the reference light for reproduction to enter the reflector 144. The reproduction reference light reflected by the optical separator 143 is deflected by the reflector 144 at a predetermined angle and is incident on the storage material region 113 of the disk 110 (FIG. 2B).

In the disc 110, when the reproduction reference light deflected at a predetermined angle by the reflector 144 is irradiated, the recording interference fringe diffracts the reproduction reference light to generate the reproduction signal light, and the reproduction signal light is the first and second lenses 145, 146 to the optical separator 143.

The optical separator 143 reflects the reproduction signal light to provide the reproduction signal detector 148, and the reproduction signal light received by the reproduction light detector 148 is reproduced by the signal processing unit 160.

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

As described above, the present invention applies a structure in which a reflective film region separated from a storage material region is disposed in a holographic disk to a holographic disk to inject light into the reflective film, and then reflects light reflected directly from the reflective film. By detecting, the presence or absence of a holographic disc can be easily determined without error.

In addition, by injecting the light emitted from the system light source into the reflective film region of the holographic disc, the output power of the system light source is checked by measuring the power of the detected reflected light so that the light source can be operated at the optimum output power. There is an effect of ensuring a data reproduction reliability by securing a signal.

1 is a structural diagram of a holographic disc used for implementing a state checking function according to the present invention in a holographic data reproduction system;

2A and 2B are schematic diagrams of a holographic data reproducing system having a state checking function according to the present invention, and FIG. 2A is a view showing an optical path during state checking, and FIG. 2B is a view showing an optical path during data reproducing. .

Claims (4)

A system for reproducing holographic data recorded on a holographic disc, The holographic disk includes a storage material region for storing data and a reflective film region for reflecting incident light according to a selected holographic recording method. The regeneration system includes a light source for generating light for entering the reflective film region; A reflection light detector which receives the reflection light incident from the light source into the reflection film area and reflected by the reflection film area; A control unit which determines the state of the holographic disc based on the detection result of the reflected light detector Holographic data reproduction system having a status check function comprising a. The method of claim 1, And a first actuator for moving the light source to a proximal position of the reflecting film region according to a control signal of the controller. The method according to claim 1 or 2, And a second actuator for moving the reflected light detector to a light receiving position proximate to the reflective film region in accordance with a control signal of the control unit. The method of claim 1, The light source is incident to the storage material region to generate a reference light for reproducing the holographic data, And the control unit checks the output power of the light source by comparing the reflected light detection value by the reflected light detection unit with a predetermined reference value.