Optical recording/reproducing apparatus for optical disks with various disk substrate thicknesses
Abstract
An optical disc apparatus for recording, reproducing or erasing an information signal by converging a light flux onto a recording layer through a transparent substrate. The apparatus includes one or a plurality of optical heads having a plurality of objective lenses whose aberrations have respectively been corrected for a plurality of disc substrates of different thicknesses, a cartridge for enclosing the optical disc, a discrimination hole which is formed on the cartridge, and a sensor for detecting the opening/closing state of the discrimination hole and for generating a discrimination signal. In accordance with the result of the discrimination as to the thickness of the loaded optical disc, the objective lens, in which the occurrence of the aberration is smallest, is used, so that the information signal can preferably be recorded, reproduced or erased onto/from the optical discs having different substrate thicknesses. Instead of an optical head having objective lenses, an optical head having a waveguide and a plurality of converging grating couplers whose aberrations have respectively been corrected for a plurality of disc substrates of different thicknesses is provided to achieve the same object.An optical recording/reproducing apparatus for recording, reproducing or erasing an information signal onto/from an optical disc having at least a transparent substrate and an information layer by converging a light flux on the information layer through the transparent substrate. The apparatus includes optical converging devices, with different numerical apertures, focal distances or working distances, such as objective lenses or grating lenses, for performing aberration correction over a plurality of transparent substrates of different thicknesses of optical discs and a device for discriminating the type of optical disc based on the thicknesses of the transparent substrates. One of the optical converging devices that generates the least aberration is used according to a result of the discrimination of the thickness of the optical disk loaded in the apparatus to cause the information signal to be suitably recorded, reproduced or erased onto/from the optical discs having the different substrate thicknesses.
Claims
exact text as granted — not AI-modified1. An optical recording/reproducing apparatus for recording, reproducing or erasing an information signal by converging a light flux onto/from a recording layer through a transparent disc substrate, comprising:
(a) N optical heads, N being greater than or equal to 2, each comprising: light emitting means, objective lenses, whose aberrations have respectively been corrected for said N disc substrates having different thicknesses, each for converging the light flux which is emitted from the light emitting means onto the optical disc, and a plurality of photo detecting means each for detecting the reflected light from the optical disc; (b) N optical head moving means which are arranged below the optical disc and move the N optical heads in the radial direction of the optical disc; (c) disc discriminating means for discriminating the thickness of the disc substrate of the loaded optical disc and for generating a discrimination signal in accordance with the result of the discrimination; and (d) control means for selecting the optical head having the objective lens in which the occurrence of the aberration due to the disc substrate is smallest in accordance with the discrimination signal, wherein the selected optical head records, reproduces or erases the information signal onto/from the optical disc.
2. An apparatus according to claim 1 , further comprising backward moving means for moving the non-selected optical heads to the outside of the optical disc for a period of time when the optical head which has been selected by the control means is recording, reproducing, or erasing the information signal.
3. An apparatus according to claim 1 , wherein said disc discriminating means comprises:
a cartridge for enclosing the optical disc; a discrimination hole which is formed on the cartridge and whose opening/closing state differs in correspondence to the thickness of the disc substrate of the optical disc; and detecting means for detecting the opening/closing state of the discrimination hole and for generating a discrimination signal.
4. An apparatus according to claim 2 , wherein said disc discriminating means comprises:
a cartridge for enclosing the optical disc; a discrimination hole which is formed on the cartridge and whose opening/closing state differs in correspondence to the thickness of the disc substrate of the optical disc; and detecting means for detecting the opening/closing state of the discrimination hole and for generating a discrimination signal.
5. An apparatus according to claim 1 , wherein numerical apertures of at least two or more of said N objective lenses differ.
6. An apparatus according to claim 2 , wherein numerical apertures of at least two or more of said N objective lenses differ.
7. An optical recording/reproducing apparatus for recording, reproducing or erasing an information signal by converging a light flux onto/from a recording layer through a transparent disc substrate, comprising:
(a) an optical head having N, N being greater than or equal to 2, converging optical systems each comprising: light emitting means, objective lenses, whose aberrations have respectively been corrected for said N disc substrates having different thicknesses, each for converging the light flux which is emitted from the light emitting means onto the optical disc, and a plurality of photo detecting means each for detecting the reflected light from the optical disc; (b) optical head moving means which is arranged below the optical disc and move the optical head in the radial direction of the optical disc; (c) disc discriminating means for discriminating the thickness of the disc substrate of the loaded optical disc and for generating a discrimination signal in accordance with the result of the discrimination; and (d) control means for allowing the light emitting means, which belongs to the converging optical system in which the occurrence of the aberration due to the disc substrate is smallest in accordance with the discrimination signal, to emit light, wherein the selected converging optical system records, reproduces or erases the information signal onto/from the optical disc.
8. An apparatus according to claim 7 , wherein said disc discriminating means comprises:
a cartridge for enclosing the optical disc; a discrimination hole which is formed on the cartridge and whose opening/closing state differs in correspondence to the thickness of the disc substrate of the optical disc; and detecting means for detecting the opening/closing state of the discrimination hole and for generating a discrimination signal.
9. An apparatus according to claim 7 , wherein numerical apertures of at least two or more of said N objective lenses differ.
10. An optical recording/reproducing apparatus for recording, reproducing or erasing an information signal by converging a light flux onto/from a recording layer through a transparent disc substrate, comprising:
(a) an optical head including: light emitting means, light flux dividing means which are arranged in the light flux from the emitting means and divide the emitted light flux into N, N being greater than or equal to 2, light fluxes and deflect in different directions, N objective lenses, whose aberrations have respectively been corrected for said N disc substrates having different thicknesses, for respectively converging said N light fluxes onto the optical disc, light flux selecting means for selecting one of the N light fluxes divided by the light flux dividing means and for allowing said light flux to pass, and photo detecting means for detecting the light fluxes reflected by the optical disc; (b) optical head moving means which is arranged below the optical disc and moves the optical head in the radial direction of the optical disc; (c) disc discriminating means for discriminating the thickness of the disc substrate of the loaded optical disc and for generating a discrimination signal in accordance with the result of the discrimination; and (d) control means for generating a control signal to the light flux selecting means in accordance with the discrimination signal and for selecting the light flux which passes through the objective lens in which the occurrence of the aberration due to the disc substrate is smallest, wherein the optical head records, reproduces or erases the information signal onto/from the optical disc by the selected light flux.
11. An apparatus according to claim 10 , wherein said disc discriminating means comprises:
a cartridge for enclosing the optical disc; a discrimination hole which is formed on the cartridge and whose opening/closing state differs in correspondence to the thickness of the disc substrate of the optical disc; and detecting means for detecting the opening/closing state of the discrimination hole and for generating a discrimination signal.
12. An apparatus according to claim 10 , wherein numerical apertures of at least two or more of said N objective lenses differ.
13. An optical recording/reproducing apparatus for recording, reproducing or erasing an information signal by converging a light flux onto/from a recording layer through a transparent disc substrate, comprising:
(a) an optical head including: an optical waveguide formed on a substrate, N light emitting means each for emitting a waveguide light into said optical waveguide, N being greater than or equal to 2, N converging grating couplers, whose aberrations have respectively been corrected for said N disc substrates having different thicknesses, each for emitting the waveguide light supplied from said N light emitting means to the outside of the optical waveguide and for allowing the reflected light from the optical disc to enter, and N photo detecting means each for detecting reflected light and for generating an information signal; (b) optical head moving means which is arranged below the optical disc and moves the optical head in the radial direction of the optical disc; (c) selecting means for selecting the light emitting means to be allowed to emit the light from among the N emitting means; (d) disc discriminating means for discriminating the thickness of the disc substrate of the loaded optical disc and for generating a discrimination signal according to the result of the discrimination; and (e) control means for generating a control signal in accordance with the discrimination signal, for providing said control signal to said selecting means and for allowing the light emitting means for emitting the waveguide light into the converging grating coupler in which the occurrence of the aberration due to the disc substrate is smallest, wherein the optical head records, reproduces or erases the information signal onto/from the optical disc by the light flux from the selected light emitting means.
14. An apparatus according to claim 13 , wherein said disc discriminating means comprises:
a cartridge for enclosing the optical disc; a discrimination hole which is formed on the cartridge and whose opening/closing state differs in correspondence to the thickness of the disc substrate of the optical disc; and detecting means for detecting the opening/closing state of the discrimination hole and for generating a discrimination signal.
15. An apparatus according to claim 13 , wherein numerical apertures of at least two or more of the N converging grating couplers differ.
16. An optical recording/reproducing apparatus for recording, reproducing or erasing an information signal by converging a light flux onto/from a recording layer through a transparent disc substrate, comprising:
(a) an optical head including: an optical waveguide formed on a substrate, light emitting means for emitting a waveguide light into said optical waveguide, light flux dividing means for dividing the waveguide light emitted from the light emitting means into N divided waveguide lights, N being greater than or equal to 2, said N converging grating couplers, whose aberrations have respectively been corrected for said N disc substrates having different thicknesses, each for emitting each of said N divided waveguide lights to the outside of the optical waveguide and for allowing the reflected light from the optical disc to enter, and N photo detecting means for respectively detecting said reflected lights from the N converging grating couplers and for generating information signals; (b) optical head moving means which is arranged below the optical disc and moves the optical head in the radial direction of the optical disc; (c) output switching means for selecting and outputting one of the output signals of said N photo detecting means; (d) disc discriminating means for discriminating the thickness of the disc substrate of the loaded optical disc and for generating a discrimination signal in accordance with the result of the discrimination; and (e) control means for generating a control signal to the output switching means in accordance with the discrimination signal and for selecting the photo detecting means into which the waveguide light enters from the converging grating coupler in which the occurrence of the aberration due to the disc substrate is smallest.
17. An apparatus according to claim 16 , wherein said disc discrimination means comprises:
a cartridge for enclosing the optical disc; a discrimination hole which is formed on the cartridge and whose opening/closing state differs in correspondence to the thickness of the disc substrate of the optical disc; and detecting means for detecting the opening/closing state of the discrimination hole and for generating a discrimination signal.
18. An apparatus according to claim 16 , wherein numerical apertures of at least two or more of the N converging grating couplers differ.
19. An optical recording/reproducing apparatus for recording, reproducing or erasing an information signal by converging a light flux onto/from a recording layer through a transparent disc substrate, comprising:
(a) an optical head including: an optical waveguide formed on a substrate, light emitting means for emitting a waveguide light into said optical waveguide, optical path switching means which is arranged on an optical path of said waveguide light and switches the propagating direction of the waveguide light in N directions in accordance with a control signal, N being greater than or equal to 2, N converging grating couplers, whose aberrations have respectively been corrected for said N disc substrates having different thicknesses and which are respectively arranged in said N propagating directions which are switched by said optical path switching means and emit the waveguide light to the outside of the optical waveguide and allow the reflected light from the optical disc to enter, and photo detecting means for detecting the reflected light and generating an information signal; (b) optical head moving means which is arranged below the optical disc and move the optical head in the radial direction of the optical disc; (c) disc discriminating means for discriminating the thickness of the disc substrate of the loaded optical disc and for generating a discrimination signal in accordance with the result of the discrimination; and (d) control means for generating a control signal to the optical path switching means in accordance with the discrimination signal and for switching the propagating direction of the waveguide light from the light emitting means to the direction of the converging grating coupler in which the occurrence of the aberration due to the disc substrate is smallest, wherein the optical head records, reproduces or erases the information signal onto/from the optical disc by the light flux emitted from the selected converging grating coupler.
20. An apparatus according to claim 19 , wherein said optical path switching means combines deflecting means for changing the propagating direction of the waveguide light by a deflection angle according to a input signal,
and wherein said apparatus comprises: tracking error detecting means for detecting a tracking error amount of a converged spot which has been converged onto the optical disc and for generating a tracking error signal; and tracking control means for changing the input signal to the deflecting means in accordance with said tracking error signal and for eliminating the tracking error of the converged spot.
21. An apparatus according to claim 19 , wherein said disc discriminating means comprises:
a cartridge for enclosing the optical disc; a discrimination hole which is formed on the cartridge and whose opening/closing state differs in correspondence to the thickness of the disc substrate of the optical disc; and detecting means for detecting the opening/closing state of the discrimination hole and for generating a discrimination signal.
22. An apparatus according to claim 20 , wherein said disc discrimination means comprises:
a cartridge for enclosing the optical disc; a discrimination hole which is formed on the cartridge and whose opening/closing state differs in correspondence to the thickness of the disc substrate of the optical disc; and detecting means for detecting the opening/closing state of the discrimination hole and for generating a discrimination signal.
23. An apparatus according to claim 19 , wherein numerical apertures of at least two or more of the N converging grating couplers differ.
24. An apparatus according to claim 20 , wherein numerical apertures of at least two or more of the N converging grating couplers differ.
25. An optical recording/reproducing apparatus for recording, reproducing or erasing an information signal onto/from one of the N types ( where N≧ 2 ) of optical discs having first layers of different thicknesses, each type of said optical discs having at least said first layer being transparent and a second layer for storing information, said apparatus comprising: a light emitting means for emitting a light flux; and a converting means for converging said light flux on said second layer of one of the N optical discs through said first layer as a light spot and for performing aberration correction at said light spot; and wherein when the first layer of a first disc of said N optical discs has a thickness ( d 1 ) smaller than that a thickness ( d 2 ) of the first layer of a second disc of said N optical discs, said converging means converges the light spot on the second layer of said first disc with a diameter ( D 1 ) smaller than a diameter ( D 2 ) of the light spot converged by said converging means on the second layer of said second disc, and wherein a thickness of each of said first layers of said N types of optical discs is about 1 . 2 mm or less.
26. An apparatus according to claim 25 , wherein said converging means converges the light flux in accordance with the relation D∝λ/NA where D is the diameter of the light spot, λ is the wavelength of the light flux emitted by said light emitting means, and NA is the numerical aperture of the optical disc loaded in said apparatus.
27. An apparatus according to claim 25 , wherein said first disc is of a higher recording density than that of said disc.
28. An apparatus according to claim 25 , wherein said light spot diameters are about 2 . 1 μm or less.
29. An apparatus according to claim 25 , wherein each of said first layers comprises a transparent substrate.
30. An optical recording/reproducing system comprising:
( a ) an optical recording/reproducing apparatus for recording, reproducing or erasing an information signal onto/from any one of N types ( where N≧ 2 ) of optical discs having first layers of different thicknesses, each type of said optical discs having at least said first layer being transparent and a second layer for storing information, said apparatus comprising:
photo detecting means for detecting reflective light from said optical discs;
a light emitting means for emitting a light flux; and
a converging means for converging said light flux on said second layer of one of the N optical discs through said first layer as a light spot and for performing aberration correction at said light spot; and
wherein when the first layer of a first disc of said N optical discs has a thickness ( d 1 ) smaller than a thickness ( d 2 ) of the first layer of a second disc of said N optical discs, said converging means converges the light spot on the second layer of said first disc with a diameter ( D 1 ) smaller than a diameter ( D 2 ) of the light spot converged by said converging means on the second layer of said second disc, and
wherein a thickness of each of said first layers of said N types of optical discs is about 1 . 2 mm or less;
( b ) a signal processing means, responsive to one of ( i ) a reproduction signal, corresponding to said information signal, from said photo detecting means and ( ii ) receipt of recording data, corresponding to said information signal, for recording on said disk, for generating an output signal corresponding to said information signal and for performing one of a reproducing operation and a recording operation on said discs; and
( c ) a system controlling means coupled to said signal processing means for controlling generation of the output signal of said signal processing means.
31. A system according to claim 30 , wherein said converging means converges the light flux in accordance with the relation D∝λ/NA where D is the diameter of the light spot, λ is the wavelength of the light flux emitted by said light emitting means, and NA is the numerical aperture of the loaded optical disc.
32. A system according to claim 30 , wherein said first disc is of a higher recording density than that of said disc.
33. A system according to claim 30 , wherein said light spot diameters are about 2 . 1 μm or less.
34. A system according to claim 30 , wherein each of said first layers comprises a transparent substrate.
35. An optical recording/reproducing apparatus for recording, reproducing or erasing an information signal onto/from one of N types ( where N≧ 2 ) of optical discs having first layers of different thicknesses, each type of said optical discs having at least said first layer being transparent and a second layer for storing information, said apparatus comprising: a light emitting means for emitting a light flux; and a converging optical system including a first converging means and a second converging means, said converging optical system for converging, by employing one of said first converging means and said second converging means, a light flux on said second layer of one of said N types of optical discs and for performing aberration correction at said light flux, wherein when the first layer of a first disc of said N optical discs has a thickness ( d 1 ) smaller than a thickness ( d 2 ) of the first layer of a second disc of said N optical discs, said one of said first converging means and said second converging means, which is employed by said converging optical system, converges the light flux to a spot on the second layer of said first disc with a diameter ( D 1 ) smaller than a diameter ( D 2 ) of a light spot converged by the other of said first converging means and said second converging means, which is employed by said converging optical means, on the second layer of said second disc, and wherein a thickness of said first layers of each of said N types of optical discs is about 1 . 2 mm or less.
36. An apparatus according to claim 35 , wherein said converging means converges the light flux in accordance with the relation D∝λ/NA where D is the diameter of the light spot, λ is the wavelength of the light flux emitted by said light emitting means, and NA is the numerical aperture of the loaded optical disc.
37. An apparatus according to claim 35 , wherein said first disc is of a higher recording density than that of said disc.
38. An apparatus according to claim 35 , wherein said light spot diameters are about 2 . 1 μm or less.
39. An apparatus according to claim 35 , wherein each of said first layers comprises a transparent substrate.
40. An optical recording/reproducing system comprising:
( a ) an optical recording/reproducing apparatus for recording, reproducing or erasing an information signal onto/from any one of N types ( where N≧ 2 ) of optical discs having first layers of different thicknesses, each type of said optical discs having at least said first layer being transparent and a second layer for storing information, said apparatus comprising:
a light emitting means for emitting a light flux;
a converging optical system including a first converging means and a second converging means, said converging optical system for converging, by employing one of said first converging means and said second converging means, a light flux on said second layer of one of said N types of optical discs and for performing aberration correction at said light flux; and
photo detecting means for detecting reflective light from said optical discs; wherein when the first layer of a first disc of said N optical discs has a thickness ( d 1 ) smaller than a thickness ( d 2 ) of the first layer of a second disc of said N optical discs, said one of said first converging means and said second converging means, which is employed by said converging optical system, converges the light flux to a spot on the second layer of said first disc with a diameter ( D 1 ) smaller than a diameter ( D 2 ) of a light spot converged by the other of said first converging means and said second converging means, which is employed by said converging optical means, on the second layer of said second disc, and wherein a thickness of said first layers of each of said N types of optical discs is about 1 . 2 mm or less; ( b ) a signal processing means, responsive to one of ( i ) a reproduction signal, corresponding to said information signal, from said photo detecting means and ( ii ) receipt of recording data, corresponding to said information signal, for recording on said disk, for generating an output signal corresponding to said information signal and for performing one of a reproducing operation and a recording operation on said discs; and ( c ) a system controlling means coupled to said signal processing means for controlling generation of the output signal of said signal processing means.
41. A system according to claim 40 , wherein said converging means converges the light flux in accordance with the relation D∝λ/NA where D is the diameter of the light spot, λ is the wavelength of the light flux emitted by said light emitting means, and NA is the numerical aperture of the loaded optical disc.
42. A system according to claim 40 , wherein said first disc is of a higher recording density than that of said disc.
43. A system according to claim 40 , wherein said light spot diameters are about 2 . 1 μm or less.
44. A system according to claim 40 , wherein each of said first layers comprises a transparent substrate.
45. A system comprising:
( a ) an optical recording/reproducing apparatus for recording, reproducing or erasing an information signal onto/from any one of N types ( where N≧ 2 ) of optical discs having first layers of different thicknesses, each type of said optical discs having at least said first layer being transparent and a second layer for storing information, said apparatus comprising:
photo detecting means for detecting reflective light from said optical discs;
light emitting means for emitting a light flux; and
a converging means for converging said light flux on said second layer of one of the N optical discs through said first layer as a light spot and for performing aberration correction at said light spot; and
wherein when the first layer of a first disc of said N optical discs has a thickness ( d 1 ) smaller than a thickness ( d 2 ) of the first layer of a second disc of said N optical discs, said converging means converges the light spot on the second layer of said first disc with a diameter ( D 1 ) smaller than a diameter ( D 2 ) of the light spot converged by said converging means on the second layer of said second disc, and
wherein a thickness of each of said first layers of said N types of optical discs is about 1 . 2 mm or less;
( b ) a signal processing apparatus including: signal processing means, responsive to one of ( i ) a reproduction signal, corresponding to said information signal, from said photo detecting means and ( ii ) receipt of recording data, corresponding to said information signal, for recording on said disk, for generating an output signal corresponding to said information signal and for performing one of a reproducing operation and a recording operation on said discs; and a system controlling means coupled to said signal processing means for controlling generation of the output signal of said signal processing means.Cited by (0)
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