KR20070116315A - Recording meduim, method for recording and reproducing, apparatus for recording and reproducing - Google Patents

Abstract

A recording medium, a recording and/or reproducing method and a device thereof are provided to accurately measure vibration isolation generated when loading the recording medium. A recording medium(1) comprises a recording area and a reflection area. The recording area records data using interference between first and second beams. The reflection area reflects the beam generated by a photo coupler measuring the degree of vibration isolation. The reflection area is formed at the circumference of the recording medium. A recording and/or reproducing method includes a step of loading a recording medium; a step of calculating the distance between the recording medium and the photo coupler positioned under the recording medium by using the beam radiated from the photo coupler; and a step of correcting a focusing position of a pickup device(2) by using the calculated distance. A device of the recording and/or reproducing method includes a vibration isolation detecting unit(117). The vibration isolation detecting unit measures a vibration isolating component of the recording medium by using the beam radiated from the photo coupler and the beam which is reflected from a predetermined area of the recording medium and re-sent to the photo coupler.

Description

Recording medium, recording and / or reproducing method and apparatus therefor {Recording meduim, method for recording and reproducing, apparatus for recording and reproducing}

1 is a recording and / or reproducing apparatus according to an embodiment of the present invention.

2 shows a recording medium according to an embodiment of the present invention.

3 is a diagram for explaining the configuration of a playback apparatus according to an embodiment of the present invention;

4 is a view for explaining an optical pickup device according to an embodiment of the present invention.

5 to 7 are diagrams for explaining a method for measuring base isolation of a recording medium according to an embodiment of the present invention.

The present invention relates to a method for detecting base isolation of a recording medium and a method for reproducing the recording medium.

With the development of technology, disc-type recording media are widely used. Especially, as the recording density increases, various types of discs such as CD, DVD, or magneto-optical disc (MOD) are used. Manufacture.

Such recording media may cause the recording media to be bent or twisted up or down due to inherent factors such as manufacturing process errors, deviations in the manufacturing process, or acquired factors due to distribution and carelessness of the user.

In the case of reproducing the recorded data from the recording medium having the above defects, surface vibration occurs due to the warpage of the recording medium, and this surface vibration component is generated beyond the allowable range or in the radial direction due to the warpage of the recording medium. A curved skew may occur. In this case, when the playback of the recording medium is performed, accurate focusing and tracking operations are not performed, so that the playback image is cut or, in some cases, the playback of the recording medium is not possible at all.

Therefore, there is a need for a method for accurately measuring and compensating for vibration isolation generated during reproduction of a recording medium.

SUMMARY OF THE INVENTION An object of the present invention is to propose a method for measuring base isolation and a method for reproducing a base which enables accurate measurement of base isolation generated during reproduction of the recording medium.

The recording medium according to an embodiment of the present invention for achieving the above object reflects the recording area in which data is recorded by the interference of the first beam and the second beam, and the light generated by the photo coupler for measuring the degree of isolation It consists of a reflective area.

In addition, a method of recording and / or reproducing data on a recording medium according to the present invention includes the steps of loading the recording medium; Calculating a distance between the recording medium and the photo coupler by using light emitted from the photo coupler positioned below the recording medium; And correcting a focusing position of the pickup apparatus by using the calculated distance.

In addition, the recording and / or reproducing apparatus according to the present invention comprises: a pickup apparatus for moving a beam for recording or reproducing data to a recording medium; A driving device for moving the pickup device in a radial direction of a recording medium; A photo coupler provided below the recording medium to inject a beam into a predetermined area of the recording medium; And an isolating detection unit for measuring an isolating component of the recording medium using a beam emitted from the photo coupler and a beam reflected from a predetermined area of the recording medium and re-entered into the photo coupler.

Hereinafter, with reference to the accompanying drawings will be described in detail.

1 shows a recording and / or reproducing apparatus according to an embodiment of the present invention, FIG. 2 shows a recording medium according to an embodiment of the present invention, and FIG. 3 shows a configuration of a reproducing apparatus according to an embodiment of the present invention. 4 is a diagram for explaining an optical pickup device according to an exemplary embodiment of the present invention.

First, referring to FIG. 1, a recording and / or reproducing apparatus according to the present invention includes a spindle 120 for supporting a recording medium 1, a spindle motor 121 for rotating the spindle 120, and a recording. Pick-up device 2 having an objective lens for condensing light on the medium 1, and driving device 3 for moving the pickup device 2 in the radial direction of the recording medium 1 are included. .

In addition, when the recording medium 1 is loaded on the spindle 120 at a predetermined angle, a photo coupler 113 for measuring the degree of seismic isolation is provided under one side of the recording medium 1. do.

The light emitted from the photo coupler 113 is reflected from the lower side of one side of the recording medium 1, and the reflected light is reincident to the photo coupler 113 so that the photo coupler 113 is re-incident light. Is converted into an electrical signal.

At this time, the side of the recording medium 1 is made of a reflecting surface that can reflect the incident light, and measure the time for the light exiting through the photo coupler 113 is re-incident to the photo coupler 113 Thus, the base isolation detector 117 for measuring the travel time of the light for base isolation measurement is provided.

In addition, the base isolation detection unit 117 may measure whether the edge area of the recording medium 1 is higher or lower than a reference height (preset value) through the photo coupler 113.

As shown in FIG. 2, the recording medium 1 is provided in a shape that surrounds the recording area 11 in which data is recorded and the recording area 11 in an edge area of the recording medium 1. It is composed of a reflection area 12 for reflecting the light emitted from the photo coupler 113.

The reflective region 12 may be formed by coating or depositing a material capable of reflecting light in a predetermined edge region of the recording medium 1.

The recording area 11 is made of a polymer, and seals a predetermined portion of the edge of the recording medium 1 with a material capable of preventing deterioration of the recording area 11 and reflecting incident light. The reflective region 12 is formed by sealing.

On the other hand, the seismic isolator 117 determines the degree of inclination of the recording medium 1 through the photo coupler 113 (in other words, to determine the vertical position of the reflective area 12, the drive device ( 3) the pickup device 2 can measure the distance in the radial direction from the center of the recording medium (1).

In detail, the driving device 3 includes a predetermined optical system for changing the movement of the signal light or the reference light containing data, and a shaft motor for moving the pickup device 2 in the radial direction of the recording medium 1. (Described later).

In addition, the controller 118 connected to the base isolation detector 117 is connected to the shaft motor to sense driving of the shaft motor, so that the pickup device 2 moves in the radial direction from the lower portion of the recording medium 1. Detected distance can be detected.

A pickup device is shown in FIG. 4. The pickup device serves to move a signal beam including data to the recording medium 1 through the spatial light modulator 6 as shown in FIG. 3.

In detail, referring to FIG. 3, the recording and / or reproducing apparatus according to the present invention is provided with an optical separator 5 for separating the beam emitted from the light source 4 into a signal beam and a reference beam.

In addition, a shutter may be further provided between the optical separator 5 and the light source 4 to intermittently pass the beam emitted from the light source 4 by an on / off operation. .

The light source 4 may be formed of a laser diode, and the optical splitter 5 may use a polarization beam splitter (PBS) that transmits or reflects according to the polarization direction of the incident beam. At this time, the beam incident on the optical splitter 5 is divided into a signal beam and a reference beam to include data to be recorded.

The beam transmitted through the optical separator 5 (signal beam) is incident to a spatial light modulator 6 (SLM), and the beam incident to the spatial light modulator 6 is recorded on a recording medium. The predetermined data to be included is included.

The signal beam including data by the spatial light modulator 6 is incident on the recording medium 1 through the pickup device 2.

On the other hand, the beam reflected by the optical separator 5 (reference beam) is reflected through a predetermined reflection mirror 7, and the reflected beam is also incident on the recording medium 1.

The recording medium 1 may be a hologram recording medium capable of recording data due to interference between a signal beam and a reference beam, and if the data is to be reproduced on the recording medium 1, the original electrical signal may be used. Is provided with an image sensor 9 for conversion.

When the data recorded on the recording medium 1 is to be reproduced, the data may be performed by the reference beam reflected through the optical separator 5.

In addition, reference is made to FIG. 4 to describe the pickup device 2 and the drive device 3.

A shaft motor 31 is provided for moving the pickup device 2 in the radial direction of the recording medium 1.

In addition, the pickup device 2 includes a lens holder 22 for supporting an objective lens 21 for condensing, a cover 23 and a frame for protecting a magnetic circuit for operating the lens holder 112. And a base 25 supporting the back.

Inside the cover 23, the lens holder 22 is provided with a plurality of coils, magnets, etc. for performing translational movement in a focusing direction (vertical up / down), tracking direction, or tilting direction.

In addition, shaft holders 26 and 27 are provided at both sides of the pickup device 2, and the shaft holders 26 and 27 are connected to shafts 41 and 42. As the shaft motor 31 is driven, the shafts 41 and 42 are rotated, and as the shafts 41 and 42 are rotated, the base 25 of the pickup device 2 is rotated by the shaft 41, 42. 42) is moved in the longitudinal direction.

At this time, the inner circumferential surface of the shaft holder (26, 27) is a predetermined thread is formed, the shaft (41, 42) so that the screw bone corresponding to the thread is formed, as the shaft (41, 42) is rotated The shaft holders 26 and 27 and the base 25 may be moved in the longitudinal direction of the shaft. In this case, the direction in which the pickup device 2 including the base 25 moves is the radial direction of the recording medium 1.

In particular, the drive of the shaft motor 31 is sensed by the controller 118, the controller 118 is the pick-up device 2 by using the detected drive time and driving time of the shaft motor 31 The distance moved in the radial direction of the recording medium is measured.

A method of measuring the base isolation of the recording medium by the base isolation detection unit 117 will be described later with reference to the accompanying drawings.

The seismic isolator 117 transmits a twist distance (isolated of the recording medium) to the controller 118 in the up and down direction of the recording medium 1 measured by the photo coupler 113.

The controller 118 measures the distance that the pickup device 2 is moved in the radial direction of the recording medium 1.

The controller 118 calculates the focusing driving value of the pickup device 2 using the measured base isolation so that the light passing through the objective lens of the pickup device 2 is correctly focused on the recording medium 1. do.

The controller 118 may include a CPU (Central Processing Unit), a ROM, and a RAM, and the CPU may execute a program stored in the ROM using the RAM as a working medium. In addition, an operation unit 119 may be further provided to give various instructions to the controller 118.

The controller 118 controls the pickup device 2 to move in the focusing direction with reference to the base isolation of the recording medium measured by the base isolation detection unit 117.

In this case, the controller 118 is connected to the focusing control unit 114 and the tracking control unit 115, the focusing control unit 114 to allow a current to flow in the magnetic circuit provided in the pickup device 2 the pickup device Let (2) be moved in the focusing direction.

In addition, the tracking control unit 115 allows current to flow in the magnetic circuit provided in the pickup device 2 so that the pickup device 2 moves in the tracking direction.

In addition, a detection circuit for detecting a focusing error signal and a reproduction signal from the output signal of the pickup device 2 may be further provided, and reproducing or detecting the data recorded in the data recording area of the recording medium 1. A signal processing circuit is further provided for reproducing the basic clock or determining the address from the reproduction signal from the signal.

5 to 7 are views for explaining a method for measuring the base isolation of the recording medium according to an embodiment of the present invention, for reference, the degree of base isolation of the recording medium is enlarged in order to explain the method for measuring the base isolation of the recording medium; Shown.

First, FIG. 5 illustrates a case where seismic isolation does not occur when the recording medium 1 is loaded, and the recording medium 1 is parallel to the X direction (which may be referred to as a horizontal direction) by the spindle 120. Supported.

In this case, whether or not seismic isolation is generated in the recording medium 1 can be easily determined by measuring the degree of inclination of the recording medium 1 by the photo coupler 113.

That is, the photo coupler 113 emits light to the reflection area 12 formed in the recording medium 1 when the recording medium 1 is loaded, and the light reflected by the reflection area 12. To receive. In addition, the base isolation detector connected to the photo coupler 113 measures the time when the light is emitted from the photo coupler 113 and re-entered so that the recording medium 1 is separated from the photo coupler 113 in the Y direction. The position can be calculated.

In this case, the controller may store a reference value for the position where the recording medium 1 is separated in the Y direction from the photo coupler 113.

The photo coupler 113 is fixed to the lower side of the reflective area 12 of the recording medium 1 and is formed at a predetermined distance from the center of the spindle 120 or the recording medium 1. .

6 and 7 are diagrams when the isolating of the recording medium occurs.

A photo coupler 113 in which the photo coupler 113 is separated from the center of the recording medium 1 or the spindle 120 by a distance x1 is fixed, and it can be determined that no seismic isolation has occurred in the recording medium 1. And the distance y1 in the Y direction between the recording medium 1 are also fixed to the reference value.

First, FIG. 6 illustrates a case in which the base isolation occurs in a direction away from the photo coupler 113 of the reflective region 12 of the recording medium 1, and the photo coupler 113 emits light to emit the light. The light reflected from the light is received and converted into an electrical signal.

In addition, the base isolation detector 117 measures the distance y2 of the recording medium 1 away from the photo coupler 113 in the Y direction by observing the movement time of the light through the photo coupler 113.

Accordingly, the base isolation detection unit 117 determines that base isolation of y2-y1 is generated in the Y direction. That is, the controller 118 connected to the base isolation detector 117 calculates a distance difference in the Y direction.

Although the base isolation detector 117 and the controller 118 are described as performing a separate role, the base isolation detector 117 may be configured in the controller 118.

In addition, the controller 118 detects driving of the shaft motor for moving in the radial direction of the pickup device 2, thereby picking up the pickup device 2 from the center of the recording medium 1 or the spindle 120. Measure the distance x2 away.

Therefore, the base isolation distance a in the Y direction with respect to the current position of the pickup device 2 can be calculated by the base isolation detector 117 or the controller 118.

x1: │ y1-y2 │ = x2: a

이 된다.As a result, the value of a is

Becomes

In this case, the controller 118 controls the focusing controller 114 so that the focusing of the light passing through the pickup device 2 is made smaller by a value than the reference value.

In addition, the lens holder 22 may be moved downward by a value in the focusing direction (or Y direction) by the magnetic circuit of the pickup device 2.

FIG. 7 illustrates a case in which the base isolation occurs in a direction in which the reflective region 12 of the recording medium 1 approaches the photo coupler 113, and the photo coupler 113 emits light from the reflective region 12. It receives the reflected light and converts it into an electrical signal.

In addition, the base isolation detector 117 measures the distance y3 of the recording medium 1 away from the photo coupler 113 in the Y direction by observing the movement time of the light through the photo coupler 113.

Accordingly, the base isolation detection unit 117 determines that base isolation of y1-y3 is generated in the Y direction. That is, the controller 118 connected to the base isolation detector 117 calculates a distance difference in the Y direction.

In addition, the controller 118 detects driving of the shaft motor for moving in the radial direction of the pickup device 2, thereby picking up the pickup device 2 from the center of the recording medium 1 or the spindle 120. Measure the distance x3 away.

Therefore, the base isolation distance b in the Y direction with respect to the current position of the pickup device 2 can be calculated by the base isolation detector 117 or the controller 118.

x1: │ y1-y3 │ = x3: b

이 된다. The value of the calculation b is

Becomes

In this case, the controller 118 controls the focusing controller 114 so that the focusing of the light passing through the pickup device 2 is made larger by a value b than the reference value.

In addition, the lens holder 22 may be moved upward by the b value in the focusing direction (or Y direction) by the magnetic circuit of the pickup device 2.

8 is a flowchart illustrating a method for measuring base isolation of a recording medium according to an embodiment of the present invention.

Referring to the bar described above, the recording medium 1 is loaded to be supported by the spindle 120 (S101).

The vertical distance of the reflection area 12 of the recording medium 1 is measured using the photo coupler 113. At this time, the reference distance which can be regarded as the absence of seismic isolation on the recording medium is set in advance, and is measured in the vertical direction of the recording medium 1 by using the measured distance between the photo coupler 113 and the reflection area 12. The base isolation component is measured (S103).

Then, the distance from the pick-up device 2 to the spindle 120 is measured by detecting whether the drive of the shaft motor 31 and the drive time by the controller 118 (S105).

Then, the focusing component in the pickup device 2 is the radial distance of the photo coupler 113, the base isolation distance measured in the vertical direction measured by the photo coupler 113 and the pickup device 2. Is corrected using the distance in the radial direction.

According to the embodiment of the present invention as proposed, there is an advantage that the seismic isolation that may occur when loading the recording medium can be measured by a simple configuration.

Claims (8)

A recording area in which data is recorded by interference of the first beam and the second beam; A recording medium comprising a reflecting area for reflecting light generated by a photo coupler for measuring the degree of isolation. The method of claim 1, And the reflection area is formed on an outer circumferential surface of the recording medium. A method of recording and / or reproducing data on a recording medium, the method comprising: Loading the recording medium; Calculating a distance between the recording medium and the photo coupler by using light emitted from the photo coupler positioned below the recording medium; And Correcting a focusing position of a pickup device by using the calculated distance. The method of claim 3, wherein The recording medium includes a recording area in which data is recorded by interference between the first beam and the second beam, and a reflection area which provides information on the base isolation component of the recording medium by reflecting light emitted from the photo coupler. Recording and / or reproducing method. The method of claim 3, wherein Computing the distance between the recording medium and the photo coupler, Light incident from the photo coupler onto the recording medium, light incident on the recording medium is reflected in a predetermined area of the recording medium, and re-entered into the photo coupler, and a movement time of the light by the photo coupler Recording and / or reproducing method comprising the step of measuring. The method of claim 3, wherein The focusing position of the pickup apparatus is adjusted based on the calculated distance, wherein the focusing position of the pickup apparatus is adjusted by a difference between the calculated distance and a preset reference distance. . A pickup device for moving a beam for recording or reproducing data to a recording medium; A driving device for moving the pickup device in a radial direction of a recording medium; A photo coupler provided below the recording medium to inject a beam into a predetermined area of the recording medium; And And a seismic isolation detector for measuring a seismic isolation component of the recording medium using the beam emitted from the photo coupler and the beam reflected from a predetermined area of the recording medium and re-entered into the photo coupler. . The method of claim 7, wherein Is connected to the drive device includes a controller for detecting the position of the pickup device, And the controller corrects a focusing component of the pickup apparatus by using the measured distance between the photo coupler and the recording medium and the position of the pickup apparatus.

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