Optical disk and optical disk drive
First Claim
Patent Images
1. An optical disk comprising:
- a prepit head data recording area surrounded by non-record areas in a radial direction and a circumferential direction of the optical disk; and
a data record track specified by prepit header data recorded on the prepit head data recording area.
1 Assignment
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Accused Products
Abstract
An optical disk comprises a prepit head data recording area surrounded by non-record areas in a radial direction and a circumferential direction of the optical disk, and a data record track specified by prepit header data recorded on the prepit head data recording area.
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Citations
15 Claims
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1. An optical disk comprising:
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a prepit head data recording area surrounded by non-record areas in a radial direction and a circumferential direction of the optical disk; and
a data record track specified by prepit header data recorded on the prepit head data recording area. - View Dependent Claims (2, 3, 4, 5)
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2. An optical disk according to claim 1, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a groove track located after the header region and a land track located after the header region, the groove track and the land track being alternately arranged in the radial direction of the disk, each of the groove track and the land track forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the land track of an (n+1)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn, is disposed to follow an end of a second header region of the (n+1)th spiral turn of said plurality of header regions, and the second header region is radially adjacent to the first header region, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, said groove track of an n-th spiral turn includes a data storing area having a data recording start point that is located away from the end of the first header region by said predetermined length T, and said land track of an (n+1)th spiral turn includes a data storing area having a data recording start point that is located away from the end of the second header region by said predetermined length T. -
3. An optical disk according to claim 1, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a groove track located after the header region and a land track located after the header region, the groove track and the land track being alternately arranged in the radial direction of the disk, each of the groove track and the land track forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the land track of an (n+1)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn, is disposed to follow an end of a second header region of the (n+1)th spiral turn of said plurality of header regions, and the second header region is radially adjacent to the first header region, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, said groove track of an n-th spiral turn includes a data storing area having a data recording start point that is located away from the end of the first header region by a predetermined length 2T, and said land track of an (n+1)th spiral turn includes a data storing area having a data recording start point that is located away from the end of the second header region by said predetermined length 2T. -
4. An optical disk according to claim 1, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a plurality of groove tracks located after the header regions, the groove tracks being arranged in the radial direction of the disk with land areas interposed in an alternate fashion, each of the groove track and the land areas forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the groove track of an (n+2)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn with the land area of an (n+1)th spiral turn interposed therebetween, is disposed to follow an end of a second header region of the (n+2)th spiral turn of said plurality of header regions, and the second header region is radially adjacent to the first header region with the land area of the (n+1)th spiral turn interposed therebetween, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, with the land area interposed therebetween, the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, with the land area interposed therebetween, said groove track of an n-th spiral turn includes a data storing area having a data recording start point that is located away from the end of the first header region by said predetermined length T, and said groove track of an (n+2)th spiral turn includes a data storing area having a data recording start point that is located away from the end of the second header region by said predetermined length T. -
5. An optical disk according to claim 1, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a plurality of groove tracks located after the header regions, the groove tracks being arranged in the radial direction of the disk with land areas interposed in an alternate fashion, each of the groove track and the land areas forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the groove track of an (n+2)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn with the land area of an (n+1)th spiral turn interposed therebetween, is disposed to follow an end of a second header region of the (n+2)th spiral turn of said plurality of header regions, and the second header region that is radially adjacent to the first header region with the land area of the (n+1)th spiral turn interposed therebetween, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, with the land area interposed therebetween, the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, with the land area interposed therebetween, said groove track of an n-th spiral turn includes a data storing area having a data recording start point that is located away from the end of the first header region by a predetermined length 2T, and said groove track of an (n+2)th spiral turn includes a data storing area having a data recording start point that is located away from the end of the second header region by said predetermined length 2T.
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2. An optical disk according to claim 1, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
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6. An optical disk drive for recording data on an optical disk having a prepit head data recording area surrounded by non-record areas in a radial direction and a circumferential direction of the optical disk, and a data record track specified by prepit header data recorded on the prepit head data recording area, the optical disk drive comprising:
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a recording section configured to record data on the optical disk; and
a recording control section configured to record data by setting, as a data recording start point, a location on the data record track which is away from a beginning of the data record track by a predetermined length. - View Dependent Claims (7, 8, 9, 10)
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7. An optical disk drive according to claim 6, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a groove track located after the header region and a land track located after the header region, the groove track and the land track being alternately arranged in the radial direction of the disk, each of the groove track and the land track forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the land track of an (n+1)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn, is disposed to follow an end of a second header region of the (n+1)th spiral turn of said plurality of header regions, and the second header region is radially adjacent to the first header region, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, and the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, and wherein said recording control section of the optical disk drive effects data recording by setting, as a data recording start point, a location on the groove track of an n-th spiral turn which is away from the end of the first header region by said predetermined length T, and also effects data recording by setting, as a data recording start point, a location on the land track of an (n+1)th spiral turn which is away from the end of the second header region by said predetermined length T. -
8. An optical disk drive according to claim 6, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a groove track located after the header region and a land track located after the header region, the groove track and the land track being alternately arranged in the radial direction of the disk, each of the groove track and the land track forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the land track of an (n+1)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn, is disposed to follow an end of a second header region of the (n+1)th spiral turn of said plurality of header regions, and the second header region is radially adjacent to the first header region, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, and the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, and wherein said recording control section of the optical disk drive effects data recording by setting, as a data recording start point, a location on the groove track of an n-th spiral turn which is away from the end of the first header region by a predetermined length 2T, and also effects data recording by setting, as a data recording start point, a location on the land track of an (n+1)th spiral turn which is away from the end of the second header region by said predetermined length 2T. -
9. An optical disk drive according to claim 6, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a plurality of groove tracks located after the header regions, the groove tracks being arranged in the radial direction of the disk with land areas interposed in an alternate fashion, each of the groove track and the land areas forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the groove track of an (n+2)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn with the land area of an (n+1)th spiral turn interposed therebetween, is disposed to follow an end of a second header region of the (n+2)th spiral turn of said plurality of header regions, and the second header region is radially adjacent to the first header region with the land area of the (n+1)th spiral turn interposed therebetween, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, with the land area interposed therebetween, and the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, with the land area interposed therebetween, and wherein said recording control section of the optical disk drive effects data recording by setting, as a data recording start point, a location on the groove track of an n-th spiral turn which is away from the end of the first header region by said predetermined length T, and also effects data recording by setting, as a data recording start point, a location on the groove track of an (n+2)th spiral turn which is away from the end of the second header region by said predetermined length T. -
10. An optical disk drive according to claim 6, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a plurality of groove tracks located after the header regions, the groove tracks being arranged in the radial direction of the disk with land areas interposed in an alternate fashion, each of the groove track and the land areas forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the groove track of an (n+2)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn with the land area of an (n+1)th spiral turn interposed therebetween, is disposed to follow an end of a second header region of the (n+2)th spiral turn of said plurality of header regions, and the second header region that is radially adjacent to the first header region with the land area of the (n+1)th spiral turn interposed therebetween, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, with the land area interposed therebetween, and the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, with the land area interposed therebetween, and wherein said recording control section of the optical disk drive effects data recording by setting, as a data recording start point, a location on the groove track which is away from the end of the associated header region by a predetermined length 2T, and also effects data recording by setting, as a data recording start point, a location on the groove track of an (n+2)th spiral turn which is away from the end of the second header region by said predetermined length 2T.
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7. An optical disk drive according to claim 6, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
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11. An optical disk drive for reproducing data from an optical disk having a prepit head data recording area surrounded by non-record areas in a radial direction and a circumferential direction of the optical disk, and a data record track specified by prepit header data recorded on the prepit head data recording area, the optical disk drive comprising:
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a reproducing section configured to reproduce data from the optical disk; and
a reproduction control section configured to reproduce data by setting, as a data reproduction start point, a location on the data record track which is away from a beginning of the data record track by a predetermined length. - View Dependent Claims (12, 13, 14, 15)
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12. An optical disk drive according to claim 11, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a groove track located after the header region and a land track located after the header region, the groove track and the land track being alternately arranged in the radial direction of the disk, each of the groove track and the land track forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the land track of an (n+1)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn, is disposed to follow an end of a second header region of the (n+1)th spiral turn of said plurality of header regions, and the second header region is radially adjacent to the first header region, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, and the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, and wherein said reproduction control section of the optical disk drive effects data reproduction by setting, as a data reproduction start point, a location on the groove track of an n-the spiral turn which is away from the end of the first header region by said predetermined length T, and also effects data reproduction by setting, as a data reproduction start point, a location on the land track of an (n+1)th spiral turn which is away from the end of the second header region by said predetermined length T. -
13. An optical disk drive according to claim 11, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a groove track located after the header region and a land track located after the header region, the groove track and the land track being alternately arranged in the radial direction of the disk, each of the groove track and the land track forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the land track of an (n+1)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn, is disposed to follow an end of a second header region of the (n+1)th spiral turn of said plurality of header regions, and the second header region is radially adjacent to the first header region, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, and the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, and wherein said reproduction control section of the optical disk drive effects data reproduction by setting, as a data reproduction start point, a location on the groove track of an n-th spiral turn which is away from the end of the first header region by a predetermined length 2T, and also effects data reproduction by setting, as a data reproduction start point, a location on the land track of an (n+1)th spiral turn which is away from the end of the second header region by said predetermined length 2T. -
14. An optical disk drive according to claim 11, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a plurality of groove tracks located after the header regions, the groove tracks being arranged in the radial direction of the disk with land areas interposed in an alternate fashion, each of the groove track and the land areas forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the groove track of an (n+2)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn with the land area of an (n+1)th spiral turn interposed therebetween, is disposed to follow an end of a second header region of the (n+2)th spiral turn of said plurality of header regions, and the second header region is radially adjacent to the first header region with the land area of the (n+1)th spiral turn interposed therebetween, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, with the land area interposed therebetween, and the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, with the land area interposed therebetween, and wherein said reproducing control section of the optical disk drive effects data reproduction by setting, as a data reproduction start point, a location on the groove track of an n-th spiral turn which is away from the end of the first header region by said predetermined length T, and also effects data reproduction by setting, as a data reproduction start point, a location on the groove track of an (n+2)th spiral turn which is away from the end of the second header region by said predetermined length T. -
15. An optical disk drive according to claim 11, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
the optical disk includes a plurality of said data record tracks comprising a plurality of groove tracks located after the header regions, the groove tracks being arranged in the radial direction of the disk with land areas interposed in an alternate fashion, each of the groove track and the land areas forming one spiral turn on the disk, the groove track of an n-th spiral turn is disposed to follow an end of a first header region of the n-th spiral turn of said plurality of header regions, the groove track of an (n+2)th spiral turn, which is radially adjacent to the groove track of the n-th spiral turn with the land area of an (n+1)th spiral turn interposed therebetween, is disposed to follow an end of a second header region of the (n+2)th spiral turn of said plurality of header regions, and the second header region that is radially adjacent to the first header region with the land area of the (n+1)th spiral turn interposed therebetween, the first header region and the second header region are displaced in the circumferential direction by a predetermined length T, the prepit header data recording area included in the first header region and the non-record area included in the second header region are adjacent to each other in the radial direction, with the land area interposed therebetween, the prepit header data recording area included in the second header region and the non-record area included in the first header region are adjacent to each other in the radial direction, with the land area interposed therebetween, wherein said reproduction control section of the optical disk drive effects data reproduction by setting, as a data reproduction start point, a location on the groove track which is away from the end of the associated header region by a predetermined length 2T, and also effects data reproduction by setting, as a data reproduction start point, a location on the groove track of an (n+2)th spiral turn which is away from the end of the second header region by said predetermined length 2T.
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12. An optical disk drive according to claim 11, wherein the optical disk includes a plurality of header regions each comprising a plurality of said prepit head data recording areas and a plurality of said non-record areas arranged on both sides of each prepit head data recording area in the circumferential direction,
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Specification
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Current AssigneeKabushiki Kaisha Toshiba (Toshiba Corporation)
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Original AssigneeKabushiki Kaisha Toshiba (Toshiba Corporation)
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InventorsKobayashi, Tadashi, Watabe, Kazuo
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Application NumberUS10/233,785Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current369/59.25CPC Class CodesG11B 7/00718 Groove and land recording, ...G11B 7/00745 Sectoring or header formats...