JP3549260B2 - Information recording / reproducing device - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to an information recording / reproducing apparatus for recording / reproducing a so-called read-only optical disc such as a CD or a CD-ROM, an optical disc for recording / reproducing, or an optical disc having a different track shape or track pitch such as a high-density optical disc. .
[0002]
[Prior art]
In recent years, in order to increase the density of optical discs, the necessity of optical discs whose track pitch is narrower than the track pitch (about 1.6 μm) of existing optical discs has been increasing, and optical discs having a narrow track pitch have been put to practical use. . Also, with the increase in numerical aperture (NA), optical disks having a thin base material have been put to practical use.
[0003]
In an information recording / reproducing apparatus, tracking control is performed so that a light spot accurately follows a track. As a method of the tracking control, for example, a method of irradiating two sub-spots to an optical disc, receiving reflected lights of the sub-spots with different detectors, obtaining a tracking error signal by a differential output thereof, and performing tracking control. There is. Hereinafter, this method is referred to as a “three beam method”.
[0004]
In the case of the three-beam method, two sub-spots for tracking control need to be set at a predetermined interval corresponding to the track pitch, and two sub-spots set at the predetermined interval are obtained. As an example of the method, there is a method using a diffraction grating.
[0005]
The general information recording / reproducing apparatus described above will be described with reference to FIGS. That is, as shown in FIG. 5, the light beam emitted from the semiconductor laser light source 1 is converted into a parallel beam by the collimator lens 2 and then divided by the diffraction grating 3 into zero-order light and ± first-order diffracted light. The 0th-order light becomes a main beam for recording and reproduction, and the + 1st-order diffracted light and the -1st-order diffracted light each become sub-beams for tracking control.
[0006]
These light beams pass through the polarizing beam splitter 101 and the quarter-wave plate 102, are narrowed down by the objective lens 5, and are arranged on the pit row or track groove GR of the optical disk 106 as shown in FIG. , Sub-spots 121 and 122 are formed.
[0007]
These reflected lights reflected by the optical disk 106 pass through the objective lens 5 and the quarter-wave plate 102 again, and enter the polarization beam splitter 101. Since the reflected light has passed through the quarter-wave plate 102 twice, the polarization plane is rotated by 90 °, reflected by the polarization beam splitter 101, converged by the detection optical system 6, and detected by the tracking error detection system. Incident on the vessel 7.
[0008]
In this case, the two sub-spots 121 and 122 are illuminated with respect to the pit row or the track groove GR of the optical disk 106 at a fixed interval from the center of the track in directions opposite to each other. The tracking error signal is detected by the tracking error detection system 103 and is used as a tracking error signal, whereby the actuator 12 is driven to perform tracking control.
[0009]
In such a three-beam information recording / reproducing device, the pitch of the diffraction grating, the optical system such as the collimator lens 2 and the objective lens 5 are designed in consideration of the track pitch of the optical disk 106. When the track pitch is different, the diffraction grating 3 is rotated to change the spot interval to a spot interval corresponding to the track pitch of the optical disk 106, and the tracking control is performed.
[0010]
Next, a description will be given of a case in which a read-only optical disk such as a CD or a CD-ROM having substantially the same track pitch and a read / write optical disk, for example, are recorded and reproduced using a three-beam method. When a phase-change optical disk is used as an optical disk for recording and reproduction, the reflectance changes before and after recording, so that the reflected light of the two sub-beams has a difference in the amount of light, and the tracking control is not normally performed. For this reason, in the manufacturing stage of the optical disk, for example, a constant signal is recorded on the optical disk by a tracking means such as a push-pull system, and when the tracking control is performed by the three-beam system, the reflectance of the sub spot before and after recording is made equal. Are being studied.
[0011]
On the other hand, for example, tracking control is performed on a read-only optical disk and a recording / reproducing optical disk having substantially the same track pitch by a so-called push-pull method in which a tracking error signal is obtained by a difference in the amount of diffracted light in a pit row or a track groove. In this case, if the pit depth of the CD is close to 1/4 wavelength, a tracking signal cannot be obtained. Therefore, it is necessary to limit the read-only optical disk.
[0012]
[Problems to be solved by the invention]
As described above, in the conventional configuration, in order to record / reproduce the optical disks having different track pitches with the same information recording / reproducing apparatus, the diffraction grating had to be rotated. Therefore, the number of parts such as a motor and a control device is increased, and there is a problem that low cost and downsizing are difficult.
[0013]
Further, when recording / reproducing a read-only optical disk and a recording / reproducing optical disk having almost the same track pitch, there is a problem that tracking control cannot be performed normally due to a change in reflectance before and after recording, or the optical disk must be limited. Was.
[0014]
An object of the present invention is to solve the above-mentioned conventional problems, and an object of the present invention is to provide an information recording / reproducing apparatus capable of recording and reproducing different optical disks.
[0015]
[Means for Solving the Problems]
In order to achieve this object, an information recording / reproducing apparatus according to the present invention comprises a light source, a diffraction grating for dividing a light beam emitted from the light source into a main beam and two sub-beams, A hologram for generating a focus on a part of the light beam at a different position in the optical axis direction, and a light beam from the hologram. The track pitch varies with the substrate thickness depending on the type An objective lens that converges on an optical disc, a four-divided photodetector for focus control for receiving the reflected light of the main beam among the reflected lights from the optical disc, and the sub-beam of the sub-beam among the reflected lights from the optical disc. A photodetector having a light receiving portion for receiving the reflected light, and a tracking error signal obtained from a signal of the four-divided photodetector for focus control for receiving the main beam of the photodetector, A tracking detection unit that obtains a tracking signal from a signal of a light receiving unit for receiving the reflected light of the beam, and by determining a substrate thickness and a track pitch of the optical disc, Types of optical discs with different track pitches along with the base material thickness Discriminating means for discriminating a signal, a tracking signal obtained from a signal of a light receiving section for receiving the sub beam based on a signal of the disc discriminating means, or a four-divided photodetector for focus control for receiving the main beam Of the tracking error signal obtained from the signal of (a), the signal corresponding to the numerical aperture of the spot of the light beam generated by the hologram is switched so that the tracking error signal can be adopted as the tracking signal used for tracking control. Means.
[0016]
[Action]
According to this configuration, the type of the optical disk is determined by the disk determining unit, and the tracking error signal used for tracking control is switched by the switching unit by the disk determining unit, so that the same optical head can be used for a plurality of types of optical disks. It is possible to realize an information recording / reproducing apparatus having the property.
[0017]
【Example】
Hereinafter, the present invention will be described in more detail with reference to the drawings and specific examples.
[0018]
(Example 1)
First Embodiment A first embodiment of the present invention will be described with reference to FIGS. In the present embodiment, two types of read-only optical discs having different track pitches are used and the same device is used for reproduction.
[0019]
That is, as shown in FIG. 1, a semiconductor laser light source 1, a collimator lens 2 for converting a light beam emitted from the semiconductor laser light source 1 into parallel light, and a light beam from the collimator lens 2 as a main beam and two sub-beams. A diffraction grating 3 for splitting the beam, an objective lens 5 for converging the three light beams of the main beam and the sub-beam on the optical disk 13 or 14, and a reflected light from either the optical disk 13 or 14 is directed to the light source 1. A beam splitter 4 that is separated from the optical path and guides the light to a condensing system; a detection optical system 6 that converges reflected light separated by the beam splitter 4; and a photodetector that receives reflected light from one of the optical disks 13 and 14 7, tracking detection means 16 for obtaining a plurality of tracking error signals from the signal of the photodetector 7, and disc discrimination for discriminating the type of the optical disc. And stage 8 is composed of switching means 10 for switching the tracking error signal used for tracking control by the disc discrimination signal 9 of the disc discrimination means 8.
[0020]
The read-only optical disks 13 and 14 used in the present embodiment are a read-only optical disk 13 with a track pitch of 1.6 μm and a read-only optical disk 14 with a track pitch of 0.8 μm. 1.2 mm.
[0021]
As shown in FIG. 1, the optical path of the light beam is such that the light beam emitted from the semiconductor laser light source 1 is converted into a parallel beam by a collimator lens 2 and then divided into a main beam and two sub-beams by a diffraction grating 3. Can be
[0022]
Next, these three light beams pass through the beam splitter 4 and enter the objective lens 5, and are focused on a read-only optical disk 13 having a track pitch of 1.6 μm or a read-only optical disk 14 having a track pitch of 0.8 μm. Is done. Then, the reflected light from the optical disk 13 or 14 passes through the objective lens 5, the beam splitter 4, and the detection optical system 6, and enters the photodetector 7.
[0023]
FIG. 2 shows the relationship between the photodetector 7 and the spots 20 to 22 received by the photodetector 7 in the optical system shown in FIG. The photodetector 7 includes light receiving sections 23 to 28. The main spot 20 is received by the light receiving sections 23 to 26, the sub spot 21 is received by the light receiving section 27, and the sub spot 22 is received by the light receiving section 28.
[0024]
Next, generation of an error signal used for tracking control will be described. When reproducing the optical disk 13 having a track pitch of 1.6 μm, the differential output of the signals of the light receiving units 27 and 28 generated by the sub-spots 21 and 22 on the photodetector generated by the diffraction grating 3 is used as a tracking error signal. 32. In this case, the switching means 10 was operated by the disc discriminating means 8, the tracking error signal 32 was adopted as the signal for tracking control, and the three-beam method was used as the tracking error detection method.
[0025]
On the other hand, when reproducing the optical disk 14 having a track pitch of 0.8 μm, the sum signal of the light receiving sections 23 and 25 of the main spot 20 on the photodetector 7 and the sum signal of the light receiving sections 24 and 26 are compared with the phase comparator. The output obtained by the phase comparison at 33 is defined as a tracking error signal 34. In this case, the switching means 10 was operated by the disc discriminating means 8, the tracking error signal 34 was adopted as the signal for tracking control, and the phase difference method was used as the tracking error detection method.
[0026]
According to the present embodiment, the phase difference tracking error signal can be generated by using the quadrant photodetector for focus control, and the tracking control is performed without providing a new photodetector. be able to. Further, for example, a photodetector which has been used in a conventional information recording / reproducing apparatus for a CD can be used as it is, and it is not necessary to provide an optical head according to the type of an optical disk, so that low cost is possible.
[0027]
In the present embodiment, as the tracking error detection method when recording and reproducing the optical disk, the optical disk 13 employs the three-beam system and the optical disk 14 employs the phase difference system. The effect of the present invention can of course be obtained even if a three-beam system is adopted for the optical disk 14 having a narrow track pitch.
[0028]
The disc discriminating means used in the present embodiment includes a method of making a discriminating hole in the cartridge and detecting and discriminating this hole, a method of discriminating based on the shape of the cartridge, or disc discriminating information of the inner peripheral portion of the disc. Any method, such as a reading method, that can determine the type of the disc can be applied.
[0029]
(Example 2)
A second embodiment of the present invention will be described with reference to FIGS. The configuration of the optical system is the same as that of FIG. 1 described in the first embodiment, but differs from the first embodiment in that a read-only optical disk having a different track pitch and a recordable / reproducible optical disk are used. .
[0030]
That is, the optical disks used in the present embodiment are a read-only optical disk 13 having a track pitch of 1.6 μm and a recordable / reproducible optical disk 15 having a track pitch of 0.8 μm, and both optical disks have a base material thickness of 1.2 mm. It is.
[0031]
FIG. 3 shows the relationship between the photodetector 45 of this embodiment and the beams 20 to 22 received by the photodetector 45. The light detector 45 includes light receiving sections 41 to 44. The main spot 20 is received by the light receiving units 41 and 42, the sub spot 21 is received by the light receiving unit 43, and the sub spot 22 is received by the light receiving unit 44.
[0032]
Next, generation of an error signal used for tracking control will be described. When reproducing the read-only optical disk 13 having a track pitch of 1.6 μm, the differential output of the signals between the light receiving units 43 and 44 generated by the sub-spots 21 and 22 on the photodetector 45 generated by the diffraction grating 3 is output. , A tracking error signal 32. In this case, the switching means 10 was operated by the optical disc discriminating means 8, the tracking error signal 32 was adopted as the signal for tracking control, and the three-beam method was used as the tracking error detection method.
[0033]
Next, when recording / reproducing the recordable / reproducible optical disk 15 having a track pitch of 0.8 μm, the main spot 20 on the photodetector 45 is used to differentiate the signal of the light receiving section 41 and the signal of the light receiving section 42. The output is a tracking error signal 46. In this case, the switching means 10 was operated by the disc discriminating means 8, the tracking error signal 46 was adopted as the signal for tracking control, and the push-pull method was used as the tracking error detection method.
[0034]
In this embodiment, the differential signal between the light receiving portions 41 and 42 of the photodetector is used as the tracking error signal. For example, the sum signal of the light receiving portions 23 and 24 and the sum signal of the light receiving portions 25 and 26 shown in FIG. May be used as the tracking error signal.
[0035]
Further, in this embodiment, as a tracking error detection system for reproducing or recording / reproducing the two optical disks 13 and 15, a three-beam system is used for the read-only optical disk 13 and a push-pull system is used for the recordable / reproducible optical disk 15. However, even if the optical disk 13 employs a push-pull system and the optical disk 15 employs a three-beam system, the effect of the present invention can be obtained.
[0036]
Further, as disc discriminating means applicable to this embodiment, a discriminating hole is formed in a cartridge, a discriminating method by detecting this hole, a discriminating method based on the shape of the cartridge, and a read only Any method can be applied as long as it can determine the type of the disk, such as a method of determining the optical disk and the optical disk for recording and reproduction, and a method of reading disk identification information on the inner peripheral portion of the disk.
[0037]
(Example 3)
A third embodiment of the present invention will be described with reference to FIGS. In this embodiment, two types of read-only optical disks having different track pitches and different substrate thicknesses of the optical disk are used.
[0038]
As shown in FIG. 4, a semiconductor laser light source 1, a collimator lens 2 for collimating a light beam emitted from the semiconductor laser light source 1, and a light beam from the collimator lens 2 into a main beam and two sub-beams A diffraction grating 3 for separating, a hologram 51 for generating a focal point of the three light beams at spatially different positions in the optical axis direction, and an objective lens for converging the light beam from the hologram 51 on one of the optical discs 13 and 53 5, a beam splitter 4 for separating reflected light from either the optical disk 13 or 53 from an optical path toward a light source and guiding the reflected light to a condensing system, and a detection optical system for condensing the reflected light separated by the beam splitter 4 6, a photodetector 7 for receiving the reflected light from the optical disc 13 or 53, and a track for obtaining a plurality of tracking error signals from the signals of the photodetector 7. A grayed detecting means 16, the disk discrimination means 8 for determining the type of the optical disc, and is composed of a switching means 10 for switching the tracking error signal used for tracking control by the disc discrimination signal 9 of the disc discrimination means 8.
[0039]
However, the optical disks 13 and 53 used in the present example are a read-only optical disk 13 having a track pitch of 1.6 μm and a base material thickness of 1.2 mm, and a track pitch of 0.8 μm and a base material thickness of 0.6 mm. Is a read-only optical disk 53.
[0040]
Next, regarding the optical path of the light beam, in FIG. 4, the light beam emitted from the semiconductor laser light source 1 is converted into a parallel beam by a collimator lens 2 and then divided into a main beam and two sub-beams by a diffraction grating 3. Can be Next, the three light beams, the main beam and the sub-beam, pass through the beam splitter 4 and the hologram 51, enter the objective lens 5, and are focused on either the optical disk 13 or 53. Then, the reflected light from either the optical disk 13 or 53 passes through the objective lens 5, the hologram 51, the beam splitter 4, and the detection optical system 6, and is incident on the photodetector 7.
[0041]
Next, generation of an error signal used for tracking control will be described. Of the spots generated by the hologram, spot A having a low numerical aperture (NA) ₁ When the optical disc 13 having a track pitch of 1.6 μm and a base material thickness of 1.2 mm is reproduced with the reflected light from the light source, the light receiving portions 27 and 28 generated by the sub-spots 21 and 22 on the photodetector generated by the diffraction grating 3. And a differential output of the signal is a tracking error signal 32. In this case, the switching means 10 was operated by the disc discriminating means 8, the tracking error signal 32 was adopted as the signal for tracking control, and the three-beam method was used as the tracking error detection method.
[0042]
Among the spots generated by the hologram, the spot A having a large NA ₀ When the optical disc 53 having a track pitch of 0.8 μm and a base material thickness of 0.6 mm is reproduced by reflected light from the optical disc, the sum signal of the 20 light receiving sections 23 and 25 on the photodetector, the light receiving section 24 and An output obtained by comparing the phase of the sum signal with the sum signal of the 26 by the phase comparator 33 is defined as a tracking error signal 34. In this case, the switching means 10 was operated by the disc discriminating means 8, the tracking error signal 34 was adopted as the signal for tracking control, and the phase difference method was used as the tracking error detection method.
[0043]
According to the present embodiment, the phase difference tracking error signal can be generated by using the quadrant photodetector for focus control, and the tracking control is performed without providing a new photodetector. be able to.
[0044]
In this embodiment, as a tracking error detection method for reproducing the optical disk, a three-beam method is used for reproducing the optical disk 13 at a spot with a low NA, and a phase difference is used for reproducing the optical disk 53 at a spot with a large NA. However, the effect of the present invention can of course be obtained by adopting a configuration in which the optical disc 13 employs a phase difference system and the optical disc 53 having a narrow track pitch employs a three-beam system.
[0045]
The disc discriminating means used in this embodiment includes a method of making a discriminating hole in a cartridge and detecting and discriminating the hole, a method of discriminating the cartridge shape, and a read-only optical disc based on the amount of reflected light from the optical disc. Any method can be applied as long as the method can determine the type of the disk, such as a method of determining the type of an optical disk for recording and reproduction, and a method of reading disk identification information on the inner periphery of the disk.
[0046]
(Example 4)
Fourth Embodiment A fourth embodiment of the present invention will be described with reference to FIGS. In the present embodiment, two types of optical disks, a read-only optical disk and a recordable / reproducible optical disk, having the same track pitch and the same substrate thickness of the optical disk, are used.
[0047]
That is, as shown in FIG. 7, a semiconductor laser light source 1, a collimator lens 2 for converting a light beam emitted from the semiconductor laser light source 1 into parallel light, and a read-only optical disk 61 for recording / reproducing a light beam from the collimator 2 An objective lens 5 that converges on any of the optical disks 62 for use, a beam splitter 4 that separates reflected light from any of the optical disks 61 or 62 from an optical path toward a light source, and guides the reflected light to a condensing system. A detection optical system 6 for converging the separated reflected light, a photodetector 63 for receiving the reflected light from either the optical disk 61 or 62, and a tracking detection for obtaining a plurality of tracking error signals from the signals of the photodetector 63 Means 16, a disc discriminating means 8 for discriminating the type of optical disc, and a disc discriminating signal 9 of the disc discriminating means 8. It is formed of a switching means 10 for switching the tracking error signal used for Kkingu control.
[0048]
However, both the read-only optical disk 61 and the recordable / reproducible optical disk 62 used in the present embodiment have a track pitch of 1.6 μm and the base material thickness of the optical disk is 1.2 mm.
[0049]
As shown in FIG. 7, the optical path of the light beam is such that the light beam emitted from the semiconductor laser light source 1 is converted into a parallel beam by the collimator lens 2, passes through the beam splitter 4, and enters the objective lens 5. Is focused on one of the optical disks 61 and 62. Then, the reflected light from either of the optical disks 61 or 62 passes through the objective lens 5, the beam splitter 4, and the detection optical system 6 and enters the photodetector 63.
[0050]
FIG. 8 shows the photodetector 63 in the optical system shown in FIG. The light detector 63 includes light receiving units 71 to 74.
[0051]
Next, generation of an error signal used for tracking control will be described. When reproducing the read-only optical disc 61, an output obtained by comparing the sum signal of the light receiving units 71 and 73 with the sum signal of the light receiving units 72 and 74 by the phase comparator 81 is set as a tracking error signal 82. In this case, the switching means 10 was operated by the disc discriminating means 8, the tracking error signal 82 was adopted as the signal for tracking control, and the phase difference method was used as the tracking error detection method.
[0052]
When recording / reproducing the recordable / reproducible optical disc 62, a differential signal between the sum signal of the light receiving units 71 and 72 and the sum signal of the light receiving units 73 and 74 is set as a tracking error signal 80. In this case, the switching means 10 was operated by the disc discriminating means 8, the tracking error signal 80 was adopted as the signal for tracking control, and the push-pull method was used as the tracking error detection method.
[0053]
According to the present embodiment, the phase difference tracking error signal and the push-pull tracking error signal can be generated by using the quadrant photodetector for focus control. In particular, a new photodetector is provided. Tracking control can be performed without the need. Further, for example, a photodetector used in a conventional information recording / reproducing apparatus of a CD can be used as it is, and an optical head corresponding to the type of an optical disk is not required. And low cost is possible.
[0054]
In the present embodiment, the push-pull method is employed for the recording / reproducing optical disk 62 as a tracking error detection method for recording / reproducing the optical disk. Of course, an effect can be obtained.
[0055]
The disc discriminating means used in this embodiment includes a method of making a discriminating hole in a cartridge and detecting and discriminating the hole, a method of discriminating the cartridge shape, and a read-only optical disc based on the amount of reflected light from the optical disc. Any method can be applied as long as the method can determine the type of the disk, such as a method of determining the type of an optical disk for recording and reproduction, and a method of reading disk identification information on the inner periphery of the disk.
[0056]
(Example 5)
A fifth embodiment of the present invention will be described with reference to FIGS. The configuration of the optical system is the same as that of the fourth embodiment. However, in this embodiment, two types of optical disks are recordable / reproducible optical disks having a track pitch of 1.6 μm and a base material thickness of 1.2 mm, and differ only in the presence or absence of wobble pits.
[0057]
As shown in FIG. 9, a semiconductor laser light source 1, a collimator lens 2 for converting a light beam emitted from the semiconductor laser light source 1 into parallel light, and a light beam from the collimator 2 are recorded and reproduced without a wobble pit. The objective lens 5 for converging on any of the recordable / reproducible optical disc 90 having wobble pits and the recordable optical disc 62, and the reflected light from either of the optical discs 62 or 90 is separated from the optical path toward the light source to the condensing system. A beam splitter 4 for guiding, a detection optical system 6 for converging the reflected light separated by the beam splitter 4, a photodetector 45 for receiving the reflected light from either the optical disk 62 or 90, and a signal from the photodetector 45. A tracking detecting means 16 for obtaining a plurality of tracking error signals; and a disc discriminating means for discriminating the type of the optical disc. 8, is constructed from a switching means 10 for switching the tracking error signal used for tracking control by the disc discrimination signal 9 of the disc discrimination means 8.
[0058]
As shown in FIG. 9, the optical path of the light beam is such that the light beam emitted from the semiconductor laser light source 1 is converted into a parallel light beam by the collimator lens 2, passes through the beam splitter 4, and enters the objective lens 5. Then, focusing is performed on either the optical disk 62 or 90. Then, the reflected light from either the optical disk 62 or 90 passes through the objective lens 5, the beam splitter 4, and the detection optical system 6 and enters the photodetector 45.
[0059]
Next, generation of an error signal used for tracking control will be described. When recording / reproducing the recordable / reproducible optical disk 62 without wobble pits, the differential output of the signal between the light receiving sections 41 and 42 is used as a tracking error signal 93. In this case, the switching means 10 was operated by the disc discriminating means 8, the tracking error signal 93 was adopted as the signal for tracking control, and the push-pull method was used as the tracking error detection method.
[0060]
When recording / reproducing the recording / reproducing optical disk 90 having wobble pits, as shown in FIG. 11, the magnitudes of the reflected light from the two wobble pits 201 and 202 are compared, and a deviation from the track center is detected. The tracking error signal 94 is used. In this case, the switching means 10 was operated by the disc discriminating means 8, the tracking error signal 94 was adopted as the signal for tracking control, and the sample servo method was used as the tracking error detection method.
[0061]
According to the present embodiment, a push-pull tracking error signal and a sample servo error signal can be generated by using a four-divided photodetector for focus control. In particular, a new photodetector is provided. Tracking control can be performed without the need. Further, for example, a photodetector used in a conventional information recording / reproducing apparatus of a CD can be used as it is, and an optical head corresponding to the type of an optical disk is not required. And low cost is possible.
[0062]
In the present embodiment, the push-pull method is used for the recording / reproducing optical disk 90 as a tracking error detection method for recording / reproducing the optical disk. Of course, the effect described above can be obtained.
[0063]
The disc discriminating means used in this embodiment includes a method of making a discriminating hole in the cartridge and detecting and discriminating this hole, a method of discriminating the cartridge based on the shape of the cartridge, and reading disc discriminating information on the inner peripheral portion of the disc. Any method can be applied as long as the method can discriminate the type of the disk.
[0064]
In the above-described embodiment, the track pitches are set to 1.6 μm and 0.8 μm, and the thickness of the base material of the optical disk is set to 1.2 mm and 0.6 mm. However, the present invention is limited by these numerical values. In other words, if there is at least one kind of apparent difference such as track pitch, track shape, base material thickness or optical disk reflectivity, the tracking error signal is switched according to the difference. Of course, the same effect can be achieved.
[0065]
【The invention's effect】
As described above, according to the information recording / reproducing apparatus of the present invention, a light source, a diffraction grating that divides a light beam emitted from the light source into a main beam and two sub-beams, A hologram for generating a focus on a part of the light beam at a different position in the optical axis direction, and a light beam from the hologram. The track pitch varies with the substrate thickness depending on the type An objective lens that converges on an optical disc, a four-divided photodetector for focus control for receiving the reflected light of the main beam among the reflected lights from the optical disc, and the sub-beam of the sub-beam among the reflected lights from the optical disc. A photodetector having a light receiving portion for receiving the reflected light, and a tracking error signal obtained from a signal of the four-divided photodetector for focus control for receiving the main beam of the photodetector, A tracking detection unit that obtains a tracking signal from a signal of a light receiving unit for receiving the reflected light of the beam, and by determining a substrate thickness and a track pitch of the optical disc, Types of optical discs with different track pitches along with substrate thickness Discriminating means for discriminating a signal, a tracking signal obtained from a signal of a light receiving section for receiving the sub beam based on a signal of the disc discriminating means, or a four-divided photodetector for focus control for receiving the main beam Of the tracking error signal obtained from the signal of (a), the signal corresponding to the numerical aperture of the spot of the light beam generated by the hologram is switched so that the tracking error signal can be adopted as a tracking signal used for tracking control. Means, it is possible to generate a tracking error signal by the phase difference method by using the quadrant photodetector for focus control, and particularly to perform tracking control without providing a new photodetector. Substrate thickness and track with the same optical head. In response to a plurality of different optical disks Kupitchi those that can achieve excellent information recording and reproducing apparatus can have compatibility. Further, since it is possible to reproduce or record / reproduce different kinds of optical disks with one optical head without adding a mechanical mechanism, a small-sized and low-cost information recording / reproducing apparatus can be realized.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an example of an information recording / reproducing apparatus according to the present invention.
FIG. 2 is a configuration diagram of a tracking error detection method according to the first embodiment of the present invention.
FIG. 3 is a configuration diagram of a tracking error detection method according to a second embodiment of the present invention.
FIG. 4 is a configuration diagram of an example of an information recording / reproducing device according to a third embodiment of the present invention;
FIG. 5 is a configuration diagram of an example of a conventional information recording / reproducing device.
FIG. 6 is a light spot arrangement diagram of a conventional information recording / reproducing apparatus.
FIG. 7 is a configuration diagram of an example of an information recording / reproducing apparatus according to a fourth embodiment of the present invention.
FIG. 8 is a configuration diagram of a tracking error detection method according to a fourth embodiment of the present invention.
FIG. 9 is a configuration diagram of an example of an information recording / reproducing device according to a fifth embodiment of the present invention.
FIG. 10 is a configuration diagram of a tracking error detection method according to a fifth embodiment of the present invention.
FIG. 11 is a diagram showing a configuration of a wobble pit and its detection signal according to a fifth embodiment of the present invention.
[Explanation of symbols]
1 Semiconductor laser light source
3 Diffraction grating
5 Objective lens
7 Photodetector
8 Disk discriminating means
10 Switching means
11 Tracking error signal
13, 14, 15, 53, 61, 62, 90 Optical Disk
16 Tracking detection means

Claims (3)

A light source, a diffraction grating that divides a light beam emitted from the light source into a main beam and two sub-beams, and generates a focal point at a position different from the main beam and the sub-beam in the optical axis direction. A hologram to be formed, an objective lens for converging a light beam from the hologram on an optical disc having a different track pitch along with a base material thickness depending on the type thereof , and an object lens for receiving reflected light of the main beam among reflected light from the optical disc. A photodetector having a four-divided photodetector for focus control and a light receiving unit for receiving the reflected light of the sub-beam among the reflected light from the optical disc; and for receiving the main beam of the photodetector A light receiving unit for obtaining a tracking error signal from a signal of the four-divided photodetector for focus control and receiving reflected light of the sub-beam A tracking detection means for obtaining a tracking signal from the signal, by determining the base thickness and the track pitch of the optical disk, and a disk discrimination means for track pitch together with the substrate thickness to determine the different types of optical disks, the disk discriminating means Out of the tracking signal obtained from the signal of the light receiving unit for receiving the sub beam by the signal of the above or the tracking error signal obtained from the signal of the quadrant photodetector for focus control for receiving the main beam, An information recording / reproducing apparatus comprising: switching means for switching the tracking error signal so that a signal corresponding to a numerical aperture of a spot of a light beam generated by a hologram can be employed as a tracking signal used for tracking control. 2. The information recording / reproducing apparatus according to claim 1, wherein the disc discriminating means discriminates between a read-only optical disc and a recording / reproducing optical disc. Disc discrimination means, and discriminates the optical disc continuously optical disc and the intermittent tracking error signal a tracking error signal can be obtained is obtained, the information recording and reproducing apparatus according to claim 1.

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