Optical pickup device
First Claim
1. An optical pickup device comprising:
- a light source;
an optical system which converges light projected by said light source onto a recording medium and directs reflected light from the recording medium to a photoreceptor element;
a photoreceptor element which detects the reflected light;
a diffracting element, which diffracts reflected light from the recording medium and directs it to said photoreceptor element, divided into at least two divisions by a dividing line intersecting substantially at right angles with a diffraction direction;
said photoreceptor element including at least two main photoreceptive domains divided from one another by a dividing line, which receive reflected light corresponding to a focusing error of the light projected onto the recording medium, and an auxiliary photoreceptive domain which detects reflected light which exceeds said main photoreceptive domains in a defocused state;
wherein said auxiliary photoreceptive domain is provided adjacent to an end of said main photoreceptive domains in the direction of the dividing line; and
wherein a focusing error signal is produced based on diffracted light from at least one of said divisions.
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Accused Products
Abstract
An optical pickup device comprises a semiconductor laser, an optical system which converges light projected by the semiconductor laser onto an optical disk and directs reflected light from the optical disk to a photoreceptor element, and a photoreceptor element which detects the reflected light; the photoreceptor element including at least two main photoreceptive domains divided from one another by a dividing line, which receive reflected light corresponding to a focusing error of the light projected onto the optical disk, and at least one auxiliary photoreceptive domain which detects reflected light which exceeds the main photoreceptive domains in a defocused state; in which the auxiliary photoreceptive domain is provided adjacent to an end of said main photoreceptive domains in the direction of the dividing line.
11 Citations
17 Claims
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1. An optical pickup device comprising:
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a light source;
an optical system which converges light projected by said light source onto a recording medium and directs reflected light from the recording medium to a photoreceptor element;
a photoreceptor element which detects the reflected light;
a diffracting element, which diffracts reflected light from the recording medium and directs it to said photoreceptor element, divided into at least two divisions by a dividing line intersecting substantially at right angles with a diffraction direction;
said photoreceptor element including at least two main photoreceptive domains divided from one another by a dividing line, which receive reflected light corresponding to a focusing error of the light projected onto the recording medium, and an auxiliary photoreceptive domain which detects reflected light which exceeds said main photoreceptive domains in a defocused state;
wherein said auxiliary photoreceptive domain is provided adjacent to an end of said main photoreceptive domains in the direction of the dividing line; and
wherein a focusing error signal is produced based on diffracted light from at least one of said divisions. - View Dependent Claims (2, 3, 4, 5, 6)
said auxiliary photoreceptive domain comprises two or four photoreceptive domains provided in symmetrical positions with respect to the dividing line between said main photoreceptive domains.
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3. The optical pickup device set forth in claim 1, wherein:
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said auxiliary photoreceptive domain includes a first auxiliary photoreceptive domain on one side of the dividing line, and a second auxiliary photoreceptive domain on the other side of the dividing line;
said optical pickup device further comprising computing means, which produce a focusing error signal by calculating a difference between (a) a signal which is a sum of (i) an output from said main photoreceptive domain on one side of the dividing line and (ii) an output from said second auxiliary photoreceptive domain and (b) a signal which is the sum of (i) an output from said main photoreceptive domain on the other side of the dividing line and (ii) an output from said first auxiliary photoreceptive domain.
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4. The optical pickup device set forth in claim 1, wherein:
said light source or said optical system includes means for producing a plurality of beams, which produce a plurality of light beams for simultaneously reproducing a plurality of tracks of the recording medium.
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5. The optical pickup device set forth in claim 4, wherein:
said means for producing a plurality of beams are a diffraction grating.
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6. The optical pickup device set forth in claim 4, wherein:
said main photoreceptive domains and said auxiliary photoreceptive domain are provided so as to receive only one light beam of the plurality of light beams.
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7. An optical pickup device comprising:
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a light source;
an optical system which converges light projected by said light source onto a recording medium and directs reflected light from the recording medium to a photoreceptor element;
a photoreceptor element which detects the reflected light;
a diffracting element, which diffracts reflected light from the recording medium and directs it to said photoreceptor element, divided into at least two divisions by a dividing line intersecting substantially at right angles with a diffraction direction;
said photoreceptor element including at least two main photoreceptive domains divided from one another by a dividing line, which receive reflected light corresponding to a focusing error of the light projected onto the recording medium, and an auxiliary photoreceptive domain which detects reflected light which exceeds said main photoreceptive domains in a defocused state;
wherein said auxiliary photoreceptive domain is provided with a shape and in a position which enable compensation for fluctuation, caused by assembly error, in a quantity of light received by said main photoreceptive domains; and
wherein a focusing error signal is produced based on diffracted light from at least one of said divisions. - View Dependent Claims (8, 9, 10, 11)
said auxiliary photoreceptive domain comprises two or four photoreceptive domains provided in symmetrical positions with respect to the dividing line between said main photoreceptive domains.
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9. The optical pickup device set forth in claim 7, wherein:
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said auxiliary photoreceptive domain includes a first auxiliary photoreceptive domain on one side of the dividing line, and a second auxiliary photoreceptive domain on the other side of the dividing line;
said optical pickup device further comprising computing means, which produce a focusing error signal by calculating a difference between (a) a signal which is a sum of (i) an output from said main photoreceptive domain on one side of the dividing line and (ii) an output from said second auxiliary photoreceptive domain and (b) a signal which is the sum of (i) an output from said main photoreceptive domain on the other side of the dividing line and (ii) an output from said first auxiliary photoreceptive domain.
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10. The optical pickup device set forth in claim 7, wherein:
said light source or said optical system includes means for producing a plurality of beams, which produce a plurality of light beams for simultaneously reproducing a plurality of tracks of the recording medium.
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11. The optical pickup device set forth in claim 10, wherein:
said main photoreceptive domains and said auxiliary photoreceptive domain are provided so as to receive only one light beam of the plurality of light beams.
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12. An optical pickup device comprising:
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a light source;
an optical system which converges light projected by said light source onto a recording medium having a plurality of recording and reproducing layers and directs reflected light from the recording medium to a photoreceptor element;
a photoreceptor element which detects the reflected light;
a diffracting element, which diffracts reflected light from the recording medium and directs it to said photoreceptor element, divided into at least two divisions by a dividing line intersecting substantially at right angles with a diffraction direction;
said photoreceptor element including at least two main photoreceptive domains divided from one another by a dividing line, which receive reflected light corresponding to a focusing error of the light projected onto the recording medium, and an auxiliary photoreceptive domain which, during reproducing of a given said recording and reproducing layer, receives only reflected light from another said recording and reproducing layer, and outputs a correction portion of a focusing error signal;
wherein said auxiliary photoreceptive domain is provided adjacent to an end of said main photoreceptive domains in the direction of the dividing line; and
wherein the focusing error signal is produced based on diffracted light from at least one of said divisions. - View Dependent Claims (13, 14, 15, 16, 17)
shape and position of said auxiliary photoreceptive domain are set so as to correct an offset caused by incidence of reflected light from another of said recording and reproducing layers onto said main photoreceptive regions.
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14. The optical pickup device set forth in claim 12, wherein:
said auxiliary photoreceptive domain comprises two or four photoreceptive domains provided in symmetrical positions with respect to the dividing line between said main photoreceptive domains.
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15. The optical pickup device set forth in claim 12, wherein:
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said auxiliary photoreceptive domain includes a first auxiliary photoreceptive domain on one side of the dividing line, and a second auxiliary photoreceptive domain on the other side of the dividing line;
said optical pickup device further comprising computing means, which produce a focusing error signal by calculating a difference between (a) a signal which is a sum of (i) an output from said main photoreceptive domain on one side of the dividing line and (ii) an output from said second auxiliary photoreceptive domain and (b) a signal which is the sum of (i) an output from said main photoreceptive domain on the other side of the dividing line and (ii) an output from said first auxiliary photoreceptive domain.
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16. The optical pickup device set forth in claim 12, wherein:
said light source or said optical system includes means for producing a plurality of beams, which produce a plurality of light beams for simultaneously reproducing a plurality of tracks of the recording medium.
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17. The optical pickup device set forth in claim 16, wherein:
said main photoreceptive domains and said auxiliary photoreceptive domain are provided so as to receive only one light beam of the plurality of light beams.
Specification