KR100865846B1 - Optical information recording apparatus, optical information reproducing apparatus and optical information recording method, optical information reproducing method, optical information servo control method - Google Patents

Abstract

The present invention relates to an optical information recording apparatus and an optical information reproducing apparatus, and an optical information recording method, an optical information reproducing method, and an optical information servo control method. An optical system, a reflected light detector for receiving the light reflected from the optical information storage medium, a detector for detecting reproduction condition information reproduced in the optical information storage medium, and detecting a reproduction light at the time of reproduction, the amount of light received by the reflected light detector A control unit configured to receive the information to determine a tilting state of the storage medium, to control the incident angle of the light by receiving the reproduction condition information detected by the detector, and to adjust the tilting state of the storage medium according to the control unit And an optical information recording apparatus and an optical information reproducing apparatus, and an optical information recording room using the same. The optical information reproducing method and the optical information servo control method improve the recording efficiency and the reproducing efficiency of the optical information by controlling the incident environment of the light which can be changed when the storage medium is moved by using the reflecting part and the reproducing condition information part of the storage medium. There is.

Optical information reproducing apparatus, optical information recording apparatus, reproducing method

Description

Optical information recording apparatus and optical information reproducing apparatus, and optical information recording method, optical information reproducing method, optical information servo control method using the optical information recording apparatus, optical information reproducing apparatus and optical information recording method, optical information reproducing method, optical information servo control method}

1 is a block diagram showing an optical information recording / reproducing apparatus according to an embodiment of the present invention.

2 is a block diagram showing an optical information recording / reproducing apparatus according to another embodiment of the present invention.

3 is a view showing an optical information storage medium used in the optical information recording apparatus and the reproducing apparatus according to the embodiment of the present invention.

4 exemplarily shows an output signal detected in five types of reproduction condition information recorded in the reproduction condition information unit of the optical information storage medium.

Fig. 5 is a plan view showing a light receiving state of a reflected light detector for servo control of an optical information recording / reproducing apparatus according to an embodiment of the present invention.

6 is a block flow diagram showing an optical information recording method according to an embodiment of the present invention.

7 is a block flow diagram illustrating a method of reproducing optical information according to an embodiment of the present invention.

8 is a block flow diagram illustrating an optical information servo control method according to an embodiment of the present invention.

The present invention relates to an optical information recording apparatus and an optical information reproducing apparatus, and an optical information recording method, an optical information reproducing method, and an optical information servo control method. More particularly, the optical information recording medium is moved to record arbitrary optical information. / Optical information reproducing apparatus and optical information recording method, optical information reproducing method, optical information servo control for controlling the incidence environment of light incident on the storage medium when recording or reproducing optical information in the reproducing apparatus It is about a method.

With the development of multimedia industry and communication industry, the modern society has technical limitations in storing and processing the vast amount of information required in the highly information society, so there is an urgent need for a new generation of ultra-large capacity information storage method. have. The mass storage technology developed according to these requirements includes holographic memory, near-field recording, and scanning probe microscope.

In the holographic optical information processing apparatus using holography, an interference fringe formed by crossing an optically modulated signal beam and a reference beam having the same phase as the signal beam is recorded on a storage medium. Be sure to At this time, a large amount of data can be stored inside a small cube by recording many holograms in the same portion where the interference fringe is recorded using different reference light.

When reproducing such optical information, it is desirable to irradiate the storage medium with the same incident environment as that of recording the optical information, that is, the pattern of reference light, the angle of incidence of light incident on the storage medium, and the tilting state of the storage medium and the optical system. Do. In this case, when light is irradiated to the storage medium in an incident environment different from that of the recorder, the bit error rate of the reproduced data increases, thereby reducing the reproduction efficiency of the optical information.

However, when the storage medium recording the optical information is moved to another optical information processing apparatus using an arbitrary optical information processing apparatus and the optical information is reproduced, it is difficult to set the same environment as the incident environment of the light at the time of recording. There is a problem that is difficult to play.

SUMMARY OF THE INVENTION An object of the present invention is an optical information recording apparatus, an optical information reproducing apparatus, and an optical information recording method, an optical information reproducing method, and an optical information servo control, which can control an incident environment of light that is changed by moving an optical information storage medium. It is to provide a method.

Another object of the present invention is to provide an optical information storage medium having a reflector and a reproduction condition information unit to control an incident environment in which light is incident.

The optical information reproducing apparatus according to the present invention for achieving the above object is an optical system for injecting light into the optical information storage medium, a reflected light detector for receiving the light reflected from the optical information storage medium, the reproduction in the optical information storage medium A reproducing condition information is detected and reproducing light is detected during reproducing, the light quantity information of the light received by the reflected light detector is received to determine a tilting state of the storage medium, and the reproducing condition information detected by the detector is received. And a controller for controlling the angle of incidence of the light, and a controller for controlling the tilting state of the storage medium according to the determination of the controller.

The reproduction condition information may be detected by any one of a hologram pattern and an output signal of frequency.

The control unit may be an actuator for adjusting the tilt of the optical system to adjust the tilt of the storage medium.

An optical information recording apparatus according to the present invention for achieving the above object is an optical system for injecting light into an optical information storage medium, a reflected light detector for receiving the light reflected from the optical information storage medium, the reproduction in the optical information storage medium A detector for detecting the reproducing condition information, and receiving the light quantity information of the light received by the reflected light detector to determine the tilting state of the storage medium, and receiving the reproducing condition information detected by the detector to control the incident angle of the light. And a controller configured to adjust the tilting state of the storage medium according to the controller and the controller.

The optical system may include a reference light optical system and a signal light optical system.

The control unit may be an actuator for adjusting the tilt of the optical system to adjust the tilt of the storage medium.

The optical information recording method according to the present invention for achieving the above object comprises the steps of incident light to the optical information storage medium, receiving the light reflected from the optical information storage medium to adjust the tilting of the storage medium, Detecting the reproduction condition information reproduced by the optical information storage medium to control the incident angle of the light, and recording the optical information on the optical information storage medium.

The recording of the optical information may be recorded as a track in the circumferential direction from a track close to the center of the optical information storage medium.

In accordance with another aspect of the present invention, there is provided a method of reproducing optical information, the method comprising: injecting light into an optical information storage medium, adjusting the tilting by receiving the light reflected from the optical information storage medium, and storing the optical information. Detecting the reproduction condition information reproduced from the medium to adjust the incident angle of the light and reproducing and detecting the optical information recorded on the optical information storage medium.

The optical information may be reproduced from tracks close to the center of the optical information storage medium to tracks in the circumferential direction.

The optical information servo control method according to the present invention for achieving the above object is the step of incident light to the optical information storage medium, receiving the light reflected from the optical information storage medium to adjust the tilting, the optical And adjusting the incident angle of the light by detecting the reproduction condition information reproduced from the information storage medium.

An optical information storage medium according to the present invention for achieving the above object includes a reflecting unit for reflecting light, a reproduction condition information unit for recording reproduction condition information, and a data area unit for recording optical information.

The reproduction condition information may be recorded as a hologram.

The reproduction condition information may be an incident angle of light incident for recording and reproduction of the optical information.

Hereinafter, an optical information recording / reproducing apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing an apparatus for processing an optical information recording / reproducing apparatus according to an embodiment of the present invention.

As shown in FIG. 1, the optical information recording / reproducing apparatus according to the embodiment of the present invention includes a light splitter 110 including a light source 100 and separating the light emitted from the light source 100 into signal light and reference light. Include. The light splitter 110 includes a polarized light splitter 110 that transmits signal light of S polarization in a 90 degree direction and transmits reference light of P polarization in a linear direction.

In the path of the reference light transmitted by the optical splitter 110, a rotation mirror 120 for injecting the reference light into the optical information storage medium 210 may be located and a galvano mirror may be used. After the rotating mirror 120, a pair of lenses 170a and 170b are provided to adjust the focus so that the reference light may be imaged on the optical information storage medium 120.

Subsequently, a reflection mirror 130 for guiding the signal light to the optical expander 150 is disposed in the path of the signal light, and after the reflection mirror 130, the shutter 140 is opened when recording the optical information and blocks the signal light when the optical information is reproduced. Is located. The signal light passing through the shutter 140 is extended while passing through the optical expander 150 so that data can be loaded by the spatial light modulator 160. After the optical modulator 160, the spatial filter 180 is installed to form light having a flat intensity distribution.

/2편광판(190)에 의해 P편광으로 변환되고, 제 1푸리에 변환렌즈(200)에 의해 푸리에 변환되어 저장매체(210)의 반사부(210a)에 입사된다. The signal light of the S-polarized light is placed after the spatial filter 180.

The polarization plate 190 is converted into P-polarized light by the / 2 polarizing plate 190, and Fourier-converted by the first Fourier transform lens 200 to be incident on the reflector 210a of the storage medium 210.

The storage medium 210 includes a photopolymer-based material, and includes a reflector 210a for reflecting light for determining a tilting state, a reproduction condition information unit 210b for correcting an incident angle of light, and optical information. It consists of the data area part 210c recorded. The storage medium 210 is a medium necessary for performing the information processing of the optical information processing apparatus according to the embodiment of the present invention.

Subsequently, in the direction in which the light reflected from the reflector 210a of the storage medium 210 travels, the reflected light detector 230 for detecting the amount of light is installed. The reflected light detector 230 is composed of four divided photodiodes and detects the amount of light reflected from the storage medium 210. Detailed description of the reflected light detector 230 will be described with reference to FIG. 4.

The amount of light information detected by the reflected light detector 230 is transmitted to the controller 240, and the controller 240 analyzes the amount of light information and controls the controller 250 to adjust the tilting state of the storage medium 210. In addition, the reflection mirror 120 is connected to adjust the incident angle of the light according to the reproduction condition information detected by the detector 280.

Subsequently, a spindle motor 220 for rotating the storage medium 210 is provided. When the tilting control of the storage medium 210, the control unit 250 located below the spindle motor 220 is configured by four actuators to adjust the tilting state of the storage medium 210 by tilting the spindle motor 220. . Four actuators support the bottom of the spindle motor 220 in four directions and extend or contract to adjust the tilting of the storage medium 210.

Two lenses 260a and 260b are disposed in a path along which reproduction light reproduced by the storage medium 210 moves, and the light passing through the lenses 260a and 260b is Fourier-converted by the second Fourier transform lens 270 to detect the detector. Proceed to 280. The detector 280 may be provided with an image sensing device having a pixel array such as a charge-coupled device (CCD) and a complementary metal-oxide semiconductor (CMOS).

The detector 280 detects the reproduction light reproduced in the data area unit 210c of the storage medium 210 and the reproduction condition information reproduced in the reproduction condition information unit 210b of the storage medium 210. The reproduction condition information can be detected as a hologram pattern or an output signal of frequency. In this case, if a detector (not shown) for detecting only the reproduction condition information is provided without detecting the reproduction light, it can be used only with the optical information recording apparatus.

2 is a block diagram showing an optical information recording / reproducing apparatus according to another embodiment of the present invention.

The configuration of FIG. 2 is the same as that of FIG. 1 and has a difference in tilting control. The controller 240 of FIG. 2 receives the light amount information detected by the reflected light detector 230. At this time, the control unit 240 analyzes the received light amount information to determine the tilting state between the storage medium 210 and the incident optical system 10 that enters light into the storage medium 210.

When there is a tilt between the storage medium 210 and the incident optical system 10, since the position of the light incident on the storage medium 210 is fixed, only the reproducing optical system 20 placed in the path in which the storage medium 210 and the reproducing light travel. Move to adjust the tilting state. The tilting control may be performed by placing the adjuster 250 ′ under the base substrate 290 on which the spindle motor 220 and the regenerative optical system 20 are placed.

The adjusting part 250 ′ may be configured with four actuators supporting the lower surface of the base substrate 290 in four directions, and the number of actuators may vary depending on use. When the four actuators adjust the tilting of the base substrate 290 while stretching and contracting, the tilting control between the incident optical system 10 and the storage medium 210 is performed.

3 is a view showing an optical information storage medium used in the optical information recording apparatus and the reproducing apparatus according to the embodiment of the present invention.

As shown in FIG. 3, the storage medium 210 is divided into a reflection unit 210a, a reproduction condition information unit 210b, and a data area unit 210c. The reflector 210a may be coated with a reflective material so that light incident on the storage medium 210 may be reflected and detected by the reflected light detector 230. Reflective materials include aluminum (Al), aluminum oxide, copper (Cu), silver (Ag), gold (Au), and the like.

The reproduction condition information unit 210b records the reproduction condition information according to the angle so as to identify and correct the incident angle of the light incident on the storage medium 210. This will be described in more detail with reference to FIG. 4.

4 exemplarily shows an output signal detected in five types of reproduction condition information recorded in the reproduction condition information unit of the optical information storage medium.

As shown in FIG. 4, five types of reproduction condition information 211 having a difference of 0.1 degrees from +0.2 to -0.2 degrees are recorded in the reproduction condition information unit 210b. The reproduction condition information 211 may be any pattern having a difference in the output signal for each hologram or angle.

Since the five types of reproduction condition information 211 have different reproduction condition information for each angle, the detected output signal also differs for each angle. In order to record different reproduction condition information for each angle, light must be irradiated to the reproduction condition information unit 210b with arbitrary regularity at the irradiation time 211a and the irradiation interval 211b of the light.

First, the reproduction condition information 211 is recorded by irradiating light having an inclination of +0.2 degrees from the optical information storage medium 210 to the reproduction condition information unit 210b of the optical information storage medium 210. At this time, the irradiation time 211a of the incident light is short and the irradiation interval 211b is irradiated with light at any regularity, and when the optical information storage medium 210 is rotated, the reproduction condition information as shown in FIG. 4 is formed. .

Subsequently, the reproduction condition information unit 210b is irradiated with light having an inclination of +0.1 degrees from the storage medium 210 so that the irradiation time 211a is longer than the light having an inclination of +0.2 degrees and the irradiation interval 211b is wide. The optical information storage medium 210 is rotated. In this way, light is irradiated according to any regularity so that different reproduction condition information 211 is formed for each angle.

Thereafter, when the storage medium 210 is rotated while irradiating light to the reproduction condition information unit 210b of the storage medium 210, the reproduction condition information 211 corresponding to the incident angle of the irradiated light is detected by the detector 280. The pulse of the output signal 212 detected in the reproduction condition information 211 is turned on by diffraction of light in the portion where the pattern is recorded, and has a pulse of OFF in the portion where the pattern is not recorded.

In addition, since the period 212a at which the pulses are turned on is different for each angle, by measuring the ON pulse period 212a of the detected output signal, the incident angle of light irradiated to the reproduction condition information unit 210b can be measured, and the output signal An incident angle of light irradiated based on the ON pulse period 212a may be adjusted.

The data area 210c intersects the reference light and the signal light whose angle of incidence is corrected on the basis of the reproduction condition information 211 recorded in the reproduction condition information unit 210b to record the optical information. In the embodiment of the present invention, the difference in incidence angle is performed by 0.1 degrees, and five reproduction condition information 211 is recorded. However, the difference in incidence angle and the number of reproduction condition information 211 is determined by the detection condition information 211 detected by the detector. It may be set differently according to the detection efficiency.

FIG. 5 is a plan view illustrating a light receiving state of a servo control reflective light detector of an optical information processing apparatus according to an exemplary embodiment of the present invention.

As shown in FIG. 5, the reflected light detector 230 includes four photodiodes 230a, 230b, 230c, and 230d. The reflected light detector 230 receives the light reflected from the optical information storage medium 210 and detects the amount of light, and the control unit 240 tilts the optical information storage medium 210 and the incident optical system 10 by comparing the amount of light. Determine the control unit 250 to adjust the tilting.

At this time, if there is no tilting between the optical information storage medium 210 and the optical system 10, the light reflected from the reflecting portion 210a of the storage medium 210 is received at the center of the reflected light detector 230 and the four photodiodes 230a, The amount of light detected at 230b, 230c, and 230d is the same.

In addition, if the amount of light detected by each photodiode 230a, 230b, 230c, 230d is different, this means that there is a tilt between the storage medium 210 and the optical system 10. In the four photodiodes 230a, 230b, 230c, 230d, The tilting state of the storage medium 210 should be adjusted so that the same amount of light can be detected.

6 is a block flow diagram illustrating an optical information recording method according to an embodiment of the present invention. As shown in FIG. 6, light is irradiated to the reflector 210a of the storage medium 210 (S100). Then, the light is reflected by the reflective material applied to the reflector 210a and proceeds to the reflected light detector 230. Subsequently, the light is imaged on the four photodiodes 230a, 230b, 230c, and 230d of the reflected light detector 230, and the amount of light is acquired (S110). The obtained amount of light information is transferred to the controller 240.

The controller 240 determines a tilting state between the storage medium 210 and the optical system 10 according to the acquired light amount, and controls the controller 250 to adjust the tilting between the storage medium 210 and the optical system 10. (S120). Subsequently, when the servo control of the tilting is performed, light is irradiated to the reproduction condition information unit 210b in which the reproduction condition information 211 is recorded for each angle, and it is checked whether the irradiated light is incident at the incident angle to be recorded.

At this time, if the incident angle is different from the incident angle to be recorded, the reproduction condition information 211 of the incorrect incident angle is detected by the detector 280, and the reproduction condition information 211 is transmitted to the control unit 240 and is incident by the reflection mirror 120. This is corrected (S130). Subsequently, the light whose angle of incidence is corrected is irradiated to the data area unit 210c, and the signal light is incident on the irradiated position to record the optical information (S140). The recording of the optical information proceeds from the track close to the center of the storage medium 210 in the data area section 210c to the track in the circumferential direction.

7 is a block flow diagram illustrating a method of reproducing optical information according to an embodiment of the present invention. As shown in FIG. 7, light is irradiated to the reflector 210a of the storage medium 210 (S200). The light is reflected by the reflective material of the reflector 210a and proceeds to the reflected light detector 230. Subsequently, the light propagated to the reflected light detector 230 is detected by the four photo diodes 230a, 230b, 230c, and 230d (S210), and the detected light quantity information is transmitted to the controller 240.

The controller 240 determines the tilting state between the storage medium 210 and the optical system 10 by comparing the amounts of light detected by the four photodiodes 230a, 230b, 230c, and 230d, and controls the controller 250. By adjusting the tilting of the storage medium 210 (S220). Subsequently, when the servo control of the tilting is performed, light is irradiated to the reproduction condition information unit 210b of the storage medium 210 to check whether the irradiated light is incident at the incident angle to be recorded.

At this time, if the incident angle is different from the incident angle to be recorded, the reproduction condition information 211 of the incorrect incident angle is detected by the detector 280, and the reproduction condition information 211 is transmitted to the control unit 240 and is incident by the reflection mirror 120. This is corrected (S230). Then, the light whose incident angle is corrected is irradiated to the data area unit 210c to reproduce the light information recorded in the reproduction condition information unit 210c (S240). At this time, the playback order is reproduced from the innermost track of the data area 210c, that is, the track closest to the center of the storage medium 210, to the track in the circumferential direction.

8 is a block flow diagram illustrating an optical information servo control method according to an embodiment of the present invention. As shown in FIG. 8, light is irradiated to the reflector 210a of the storage medium 210 (S300). Then, the light is reflected by the reflective material of the reflector 210a and proceeds to the reflected light detector 230 having four photodiodes 230a, 230b, 230c, and 230d.

Subsequently, by comparing the amount of light detected by the reflected light detector 230 (S310), the controller 240 determines a tilting state between the storage medium 210 and the incident optical system 10, and tilting is performed by the controller 250. It is adjusted (S320).

Thereafter, when the servo control of the tilting is performed, light is irradiated to the reproduction condition information unit 210b of the storage medium 210 to check whether the irradiated light is incident at the incident angle to be recorded. At this time, if the incident angle is different from the incident angle to be recorded, the reproduction condition information 211 of the incorrect incident angle is detected by the detector 280, and the reproduction condition information 211 is transmitted to the control unit 240 and is incident by the reflection mirror 120. This is corrected (S330).

As described above, the optical information recording apparatus and the optical information reproducing apparatus, the optical information recording method, the optical information reproducing method, and the optical information servo control method using the optical information recording apparatus and the optical information reproducing apparatus by using the reflecting part and the reproducing condition information part of the storage medium. There is an effect of improving the recording efficiency and reproduction efficiency of the optical information by controlling the incident environment of the light that can be changed when moving.

Claims (14)

An optical system for injecting light into the optical information storage medium; A reflected light detector for receiving the light reflected from the optical information storage medium; A detector which detects reproduction condition information reproduced from the optical information storage medium and detects reproduction light during reproduction; A control unit configured to receive light quantity information of the light received by the reflected light detector to determine a tilting state of the storage medium, and to control the incident angle of the light by receiving the reproduction condition information detected by the detector; And an adjusting unit for adjusting the tilting state of the storage medium according to the determination of the control unit. The optical information reproducing apparatus according to claim 1, wherein the reproducing condition information is detected by any one of a hologram pattern and an output signal of a frequency. The optical information reproducing apparatus according to claim 1, wherein the adjusting unit is an actuator which adjusts the tilting of the optical system to adjust the tilting of the storage medium. An optical system for injecting light into the optical information storage medium; A reflected light detector for receiving the light reflected from the optical information storage medium; A detector for detecting reproduction condition information reproduced from the optical information storage medium; A control unit configured to receive light quantity information of the light received by the reflected light detector to determine a tilting state of the storage medium, and to control the incident angle of the light by receiving the reproduction condition information detected by the detector; And an adjusting unit for adjusting a tilting state of the storage medium according to the determination of the controller. The optical information recording apparatus according to claim 4, wherein the optical system comprises a reference light optical system and a signal light optical system. The optical information recording apparatus of claim 5, wherein the control unit is an actuator that adjusts the tilting of the optical system to adjust the tilting of the storage medium. Injecting light into the optical information storage medium; Adjusting the tilting of the storage medium by receiving the light reflected from the optical information storage medium; Controlling the incident angle of the light by detecting reproduction condition information reproduced from the optical information storage medium; And recording optical information on the optical information storage medium. 8. The optical information recording method according to claim 7, wherein the recording of the optical information is recorded in a track in the circumferential direction from a track close to the center of the optical information storage medium. Injecting light into the optical information storage medium; Adjusting tilting by receiving the light reflected from the optical information storage medium; Adjusting the incident angle of the light by detecting reproduction condition information reproduced from the optical information storage medium; And And reproducing and detecting optical information recorded on the optical information storage medium. 10. The optical information reproducing method according to claim 9, wherein the optical information is reproduced from a track close to the center of the optical information storage medium to a track in the circumferential direction. Injecting light into the optical information storage medium; Adjusting tilting by receiving the light reflected from the optical information storage medium; And detecting the reproduction condition information reproduced from the optical information storage medium to adjust the incident angle of the light. In the optical information storage medium used in the optical information recording apparatus and playback apparatus, A reflector reflecting light; A reproduction condition information unit which records, as reproduction condition information, an incident angle of incident light for recording and reproducing optical information; And a data area unit in which the optical information is recorded. The optical information storage medium of claim 12, wherein the reproduction condition information is recorded as a hologram. delete

Images