RU97121497A - OPTICAL DISK DEVICE AND METHOD FOR REPLACING THE OPTICAL DISK - Google Patents

Claims (46)

1. A replacement method for an optical disk that is formatted such that the tracks are arranged concentrically or in a spiral to record data, said tracks comprising a plurality of zones, whereby each zone contains a predetermined number of tracks: each of the zones contains a plurality of consecutive regions sectors, each of which has a predetermined track length and contains an address field for recording address data indicating a position on the track and a recording field for recording data; and the number of sector areas provided for one track increases from the radially innermost zone to the radially outermost zone, error correction data is recorded in each of the zones in units of one block region, which contains a group of a given number of sector regions included in the specified set of sector regions , and which contains an error correction data recording area in which the elementary groups of error correction data used to reproduce data from a specified predetermined number of sector areas in paybacks are recorded for a group of a specified predetermined number of sector areas, each of the zones contains spare sector areas that are prepared for dividing a block area, whereby each separation of a block area contains a specified predetermined number of sector areas, and the specified optical disk is rotated so that the rotation speed gradually decreases from the radially innermost zone to the radially outermost zone, this method comprises the steps of: sequentially recording data and error correction data in a set of n successive block areas on said disk; running through a defective sector region in units of one sector region, and recording error correction data and data to the next sector region in the event that the error correction data and data are sequentially recorded in the specified set of sector regions in each of the indicated block regions; and the use of spare areas of the sector, when recording is performed in relation to the last area of the block, and if the sector areas of the last area of the block are insufficient, these steps are performed for each of the zones in a state where the optical disk is rotated at the same rotation speed.  2. The method of making a replacement according to claim 1, wherein the address data in the specified address field is a physical address that is pre-recorded and formed by an unwritable stamped recess.  3. The replacement method of claim 1, wherein the rewritable address data, which is a logical address, is recorded in the indicated record field.  4. The replacement method of claim 1, wherein the address data recorded in the specified address field is a non-rewritable physical address, the non-rewritable physical addresses are sequentially located on the indicated optical disk, the address data recorded on the specified record field is a rewritable logical address , and rewritable logical addresses are located on the specified optical disk, while through the area of the sector with the defect run in units of one area of the sector.  5. The method of making a replacement according to claim 1, in which each of these areas of the block includes 16 areas of the sector.  6. A replacement method for an optical disc that is formatted such that the tracks are arranged concentrically or in a spiral to record data, said tracks making up a plurality of zones, with the result that each zone contains a predetermined number of tracks: each of the zones contains many consecutive regions sectors, each of which has a predetermined track length and contains an address field for recording address data indicating a position on the track and a recording field for recording data; and the number of sector areas provided for one track increases from the radially innermost zone to the radially outermost zone, error correction data is recorded in each of the zones in units of one block region, which contains a group of a given number of sector regions included in the specified set of sector regions , and which contains an error correction data recording area in which the elementary groups of error correction data used to reproduce data from a specified predetermined number of sector areas in paybacks are recorded for a group of a specified predetermined number of sector areas, each of the zones contains spare sector areas that are prepared for dividing a block area, whereby each separation of a block area contains a specified predetermined number of sector areas, and the specified optical disk is rotated so that the rotation speed gradually decreases from the radially innermost zone to the radially outermost zone, this method comprises the steps of: recording set data in the data zone of each of the sectors of the sector of each us on the entire surface of said optical disk during manufacture or at the initial time such as the application starting time; playback of recorded data in units of one area of the sector; determining a defective sector region by comparing reproduced data with recorded data; recording address data in a sector area that is determined to be defective; sequentially recording data in a plurality of consecutive areas of a block on said optical disc; running through a defective sector region in units of one sector region based on the recorded address data, and writing data to the next sector region in the case when data is sequentially recorded in the specified set of sector regions in each of the indicated block regions; and the use of spare areas of the sector when recording is performed with respect to the last area of the block, and if the sector areas of the last area of the block are insufficient, the step of sequentially recording data, the step of running through the defective area of the sector, and the step of using spare areas of the sector is performed for each of the areas in a state where the optical disk is rotated at the same rotation speed.  7. The replacement method of claim 6, wherein the address data in the specified address field is a physical address that is pre-recorded and formed by an unwritable stamped recess.  8. The replacement method of claim 6, wherein the rewritable address data, which is a logical address, is recorded in said record field.  9. The replacement method according to claim 6, in which the address data recorded in the specified address field is a non-rewritable physical address, the non-rewritable physical addresses are sequentially placed on the indicated optical disk, the address data recorded on the specified record field is a rewritable logical address , and rewritable logical addresses are located on the specified optical disk, while through the area of the sector with the defect run in units of one area of the sector.  10. The method of implementing the replacement according to claim 6, in which each of these areas of the block includes 16 areas of the sector.  11. The method of making a replacement according to claim 6, in which an area for recording a list of defects in which a list of elementary data groups is recorded addresses of areas of the sector with defects is created on the specified optical disk.  12. A device with an optical disk for recording data on an optical disk, which is formatted so that the tracks are arranged concentrically or in a spiral for recording data, moreover, these tracks comprise a plurality of zones, as a result of which each zone contains a predetermined number of tracks; each zone contains many consecutive sectors of the sector, each of which has a predetermined track length and contains an address field for recording address data indicating a position on the track and a recording field for recording data; and the number of sector areas provided for one track increases from the radially innermost zone to the radially outermost zone, error correction data is recorded in each zone in units of one block region, which contains a group of a given number of sector regions included in the specified set areas of the sector, and which contains an area for recording error correction data in which the elementary groups of error correction data used to reproduce data from a specified number of sector areas in paybacks are recorded for a group of a specified predetermined number of sector areas, each of the zones contains spare sector areas that are prepared for dividing a block area, whereby each separation of a block area contains a specified predetermined number of sector areas, and the specified optical disk is rotated so that the rotation speed gradually decreases from the radially innermost zone to the radially outermost zone, and the specified device with an optical disk contains means for sequential data recording and error correction data in a plurality of consecutive areas of a block on a specified optical disk, for running over a defective sector of a sector in units of one sector of a sector, and recording data and error correction data in the next sector of the sector when the data and error correction data are sequentially recorded in the specified a plurality of sector areas in each of said block areas; and for the use of spare areas of the sector when recording is performed in relation to the last area of the block, and if the sector areas of the last area of the block are insufficient, and said recording means is valid for each of the zones in a state where the optical disk is rotated at the same rotation speed.  13. The device with an optical disk according to claim 12, in which the address data in the specified address field is a physical address that is pre-recorded and formed by an unwritable stamped recess.  14. The device with an optical disk according to claim 12, in which the rewritable address data, which is a logical address, is recorded in the specified record field.  15. The device with an optical disk according to claim 12, in which the address data recorded in the specified address field is an unwritable physical address, the unwritable physical addresses are sequentially placed on the indicated optical disk, the address data recorded on the indicated recording field is a rewritable logical the address and rewritable logical addresses are located on the specified optical disk, while through the area of the sector with the defect run in units of one area of the sector.  16. The device with an optical disk according to claim 12, in which each of these areas of the block includes 16 areas of the sector.  17. A device with an optical disk for recording data on an optical disk, which is formatted so that the tracks are arranged concentrically or in a spiral for recording data, moreover, these tracks comprise many zones, with the result that each zone contains a predetermined number of tracks; each zone contains many consecutive sectors of the sector, each of which has a predetermined track length and contains an address field for recording address data indicating a position on the track and a recording field for recording data; and the number of sector areas provided for one track increases from the radially innermost zone to the radially outermost zone, error correction data is recorded in each of the zones in units of one block region, which contains a group of a given number of sector regions included in the specified set of sector regions , and which contains an error correction data recording area in which the elementary groups of error correction data used to reproduce data from a specified predetermined number of sector areas in paybacks are recorded for a group of a specified predetermined number of sector areas, each of the zones contains spare sector areas that are prepared for dividing a block area, whereby each separation of a block area contains a specified predetermined number of sector areas, and the specified optical disk is rotated so that the rotation speed gradually decreases from the radially innermost zone to the radially outermost zone, and the specified device with an optical disk contains: the first recording means for recording set data x in the data area of each sector of the areas of each zone on the entire surface of said optical disk at manufacturing time or the initial time such as the application starting time; reproducing means for reproducing recorded data in units of one area of a sector; determination means for determining a defective sector region by comparing reproduced data with recorded data; second recording means for recording address data in a sector area that is determined to be defective; third recording means for sequentially recording data in a plurality of consecutive block regions on a specified optical disk, for running through a defective sector region in units of one sector region based on the recorded address data, and recording data in the next sector region in the case when data is sequentially recorded in the specified set of sector areas in each of the specified areas of the block, and for the use of spare areas of the sector when recording is performed in relation to the last area of the block, and if the region and block last sector field are insufficient, said third means operable to record each of the zones in the state where the optical disk is rotated at the same speed.  18. The device with an optical disk according to claim 17, in which the address data in the specified address field is a physical address that is pre-recorded and formed by an unwritable stamped recess.  19. The device with an optical disk according to claim 17, in which the rewritable address data, which is a logical address, is recorded in the specified record field.  20. The device with an optical disk according to claim 17, wherein the address data recorded in the specified address field is an unwritable physical address, the unwritable physical addresses are sequentially placed on the indicated optical disk, the address data recorded on the indicated recording field is a rewritable logical the address and rewritable logical addresses are located on the specified optical disk, while through the area of the sector with the defect run in units of one area of the sector.  21. The device with an optical disk according to claim 17, in which each of these areas of the block includes 16 areas of the sector.  22. The device with an optical disk according to claim 17, in which a defect list recording area is created on the specified optical disk, in which a list of elementary data groups of addresses of defective sector areas is recorded.  23. A device with an optical disk for reproducing data from an optical disk, which is formatted so that the tracks are arranged concentrically or in a spiral for recording data, moreover, these tracks comprise a plurality of zones, as a result of which each zone contains a predetermined number of tracks: each of the zones contains many consecutive areas of the sector, each of which has a given track length and contains an address field for recording address data indicating the position on the track, and a recording field for recording data x; and the number of sector areas provided for one track increases from the radially innermost zone to the radially outermost zone, error correction data is recorded in each of the zones in units of one block region, which contains a group of a given number of sector regions included in the specified set of sector regions , and which contains an error correction data recording area in which the elementary groups of error correction data used to reproduce data from a specified predetermined number of sector areas in paybacks are recorded for a group of a specified predetermined number of sector areas, each of the zones contains spare sector areas that are prepared for dividing a block area, whereby each separation of a block area contains a specified predetermined number of sector areas, and the specified optical disk is rotated so that the rotation speed gradually decreases from the radially innermost zone to the radially outermost zone, and the indicated device with an optical disk contains recording means for recording address data in her field defect sector; and reproducing means for sequentially reproducing data from a plurality of consecutive regions of a block on said optical disk, for running over a defective sector of the sector in units of one sector of the sector based on the recorded address data, and reproducing data from the next sector of the sector when the data is sequentially reproduced from the specified plurality of sector areas in each of the indicated areas of the block, and for reproducing data from spare areas of the sector when playback is performed appear in relation to the last region of the block, and if the sector areas of the last region of the block were insufficient, and the indicated reproduction means is valid for each of the zones in a state where the optical disk is rotated at the same rotation speed.  24. The device with an optical disk according to claim 23, in which the address data in the specified address field is a physical address that is pre-recorded and formed by an unwritable stamped recess.  25. The device with an optical disk according to claim 23, wherein the rewritable address data, which is a logical address, is recorded in the indicated recording field.  26. The device with an optical disk according to claim 23, wherein the address data recorded in the specified address field is an unwritable physical address, the unwritable physical addresses are sequentially placed on the indicated optical disk, the address data recorded on the indicated recording field is a rewritable logical the address and rewritable logical addresses are located on the specified optical disk, while through the area of the sector with the defect run in units of one area of the sector.  27. The device with an optical disk according to claim 23, in which each of these areas of the block includes 16 areas of the sector.  28. The device with an optical disk according to claim 23, in which a defect list recording area is created on the optical disk, in which a list of consecutive elementary data groups of addresses of defective sector areas is recorded.  29. A replacement method for an optical disc that has data tracks arranged concentrically or in a spiral, and which defines a format having a plurality of consecutive sector areas, each of which has a predetermined track length and includes an address field for recording address data indicating the position on the track and the recording field for recording recording data, and recording data is recorded in units of one area of a block containing a group of a given number of sector areas among a plurality of regions a sector and including an area for recording error correction data, in which elementary groups of error correction data used to reproduce data recorded in a specified number of sector areas are collectively recorded for a group of a specified specified number of sector areas containing stages: sequential recording of recording data and error correction data in a plurality of consecutive areas of a block on a specified optical disk during processing time or an initial time, such as application start time And, in the case when the data is sequentially recorded in the specified set of sector areas in each of the indicated areas of the block, run through one sector area with a defect in units of one sector area and then write data to the next sector area, sequential recording of recording data and correction data errors in the specified set of consecutive areas of the block on the specified optical disk for a time other than the initial time, and sequential recording of recording data and error correction data in the specified set sector areas of each of the indicated areas of the block, reproducing recording data and error correction data recorded in the indicated areas of the sector of each of the indicated areas of the block, comparing the reproduced data with the recorded recording data and error correction data to determine a block area containing the defective sector of the sector, and recording recording data and error correction data to a block region that is different from a block region containing a defective sector region.  30. The method of replacement according to claim 29, wherein the address data in the specified address field is a physical address that is pre-recorded and formed by an unwritable stamped recess.  31. The method of making a replacement according to claim 29, wherein the rewritable address data, which is a logical address, is recorded in the indicated record field.  32. The replacement method of claim 29, wherein the address data recorded in the specified address field is an unwritable physical address, the unwritable physical addresses are sequentially placed on the indicated optical disk, the address data recorded on the indicated recording field is a rewritable logical address , and rewritable logical addresses are located on the specified optical disk, while through the area of the sector with the defect run in units of one area of the sector.  33. The replacement method of claim 29, wherein each of said block areas includes 16 sector areas.  34. The replacement method of claim 29, wherein said optical disk is rotated and divided into a plurality of zones in the radial direction of a data region on said optical disk and the rotation speed of said optical disk is set to different values for the respective zones.  35. The method of replacement according to claim 33, in which accessible sector areas for the respective zones are created, and the indicated block area can be formed by a given number of sector areas, even if units of one sector area are run through a defective sector area.  36. The replacement method of claim 29, wherein said optical disk is created with (i) a primary defect list entry area, in which a list of elementary data groups of the address of said primary defect sector areas is recorded, and (ii) a secondary defect list entry area in which the address data of a region of a first sector of said different block region is recorded in combination with the address data of a region of a first sector of a block region containing a defective sector region with a secondary defect.  37. A device with an optical disk for recording data on an optical disk that has tracks for recording data arranged concentrically or in a spiral, and in which a format is defined having many consecutive sectors of the sector, each of which has a given track length and includes an address field for recording address data indicating a position on a track and a recording field for recording recording data, and recording data is recorded in units of one block area containing a group of a given number of medium sector areas a plurality of sector areas and including an error correction data recording area in which the elementary groups of error correction data used to reproduce data recorded in a specified number of sector areas are collectively recorded for a group of a specified specified number of sector areas containing a first recording device for sequential recording recording data and error correction data in a plurality of consecutive areas of a block to a specified optical disk during processing time or in the initial time , such as the start time of the applied task, and in the case when the recording data and the error correction data are sequentially recorded in the specified set of sector areas of each of the indicated block areas, run through the sector area with a defect in units of one sector area and then write the recording data and error correction data to the next sector area, a second recording device for sequentially recording recording data and error correction data in the specified set of consecutive block areas on the specified optical disk for a time other than the initial time, and sequentially recording recording data and error correction data in a specified set of sector areas of each of the indicated block areas, a reproducing apparatus for reproducing recording data and error correction data recorded in the indicated sector areas of each of the indicated block regions, a determination device for comparing recording data and error correction data reproduced by said reproducing device with recorded recording data and correction data and error to determine the block area containing the defective sector area with a defect, and a third recording device for recording data and error correction data into a block area which is different from the block area containing the defective sector area.  38. The device with an optical disk according to claim 37, in which the address data in the specified address field is a physical address that is pre-recorded and formed by an unwritable stamped recess.  39. The device with an optical disk according to claim 37, wherein the address data, which is a logical address, is written in the indicated recording field.  40. The device with an optical disk according to claim 37, wherein the address data recorded in the specified address field is an unwritable physical address, the unwritable physical addresses are sequentially placed on the indicated optical disk, the address data recorded on the indicated recording field is a rewritable logical the address and rewritable logical addresses are located on the specified optical disk, while through the area of the sector with the defect run in units of one area of the sector.  41. The device with an optical disk according to claim 37, in which each of these areas of the block includes 16 areas of the sector.  42. The device with an optical disk according to claim 37, wherein said optical disk is rotated and divided into a plurality of zones in the radial direction of a data region on said optical disk and the rotation speed of said optical disk is set to different values for the respective zones.  43. The device with an optical disk according to claim 42, in which accessible sector areas for the respective zones are created, and the indicated block area can be formed due to a specified number of sector areas, even if units of one sector area are run through a sector with a defect.  44. The device with an optical disk according to claim 37, wherein said optical disk is created with (i) a primary defect list entry area, in which a list of elementary data groups of the address of the indicated areas of the sector with the primary defect is recorded, and (ii) a secondary list entry area defects in which the address data of the region of the first sector of the indicated different block region is recorded in combination with the address data of the region of the first sector of the block region containing the defective sector region with a secondary defect.  45. A method of performing a replacement for an optical disk that is formatted to provide zones, each of which contains a plurality of tracks, and the tracks of each zone are arranged concentrically or in a spiral, each of which contains many consecutive sectors of the sector, each of which has a predetermined track length and comprises an address field for recording address data indicating a position on the track and a recording field for recording data; and the number of sector areas provided for one track increases from the radially innermost zone to the radially outermost zone, error correction data is recorded in each of the zones in units of one block region, which contains a group of a given number of sector regions included in the specified set of sector regions , and which contains an error correction data recording area in which the elementary groups of error correction data used to reproduce data from a specified predetermined number of sector areas in paybacks are recorded for a group of a specified predetermined number of sector areas, each of the zones contains spare sector areas that are prepared for dividing a block area, whereby each separation of a block area contains a specified predetermined number of sector areas, and the specified optical disk is rotated so that the rotation speed gradually decreases from the radially innermost zone to the radially outermost zone, and the specified device with an optical disk contains the first recording means for sequential recording data in a plurality of consecutive regions of a block on a specified optical disk, running through a defective region in units of one region of a sector, and writing data and error correction data to the next region of the sector when the data and error correction data are sequentially recorded in the specified set of sector regions in each of the indicated areas of the block; and the use of spare areas of the sector, when recording is performed in relation to the last area of the block, and if the sector areas of the last area of the block are insufficient, while these steps are performed for each of the zones in a state where the optical disk is rotated at the same speed of rotation, sequential recording of data in the specified set of consecutive areas of the block on the specified optical disk at a time that is not the initial time, and sequential recording of data and error correction data in the specified th set of sector areas of each of the specified areas of the block; reproduction of data from the indicated areas of the sector of each of the indicated areas of the block; determining a block region containing a defective sector region by comparing reproduced data with recorded data; and recording data in a block region that is not a block region containing a defective sector region.  46. A device with an optical disk for recording data on an optical disk, which is formatted so as to provide zones, each of which contains many tracks, and the tracks of each zone are arranged concentrically or in a spiral, and each of the zones contains many consecutive sectors of the sector, each of which has a predetermined track length and contains an address field for recording address data indicating a position on the track and a recording field for recording data; and the number of sector areas provided for one track increases from the radially innermost zone to the radially outermost zone, error correction data is recorded in each of the zones in units of one block region, which contains a group of a given number of sector regions included in the specified set of sector regions , and which contains an error correction data recording area in which the elementary groups of error correction data used to reproduce data from a specified predetermined number of sector areas in paybacks are recorded for a group of a specified predetermined number of sector areas, each of the zones contains spare sector areas that are prepared for dividing a block area, whereby each separation of a block area contains a specified predetermined number of sector areas, and the specified optical disk is rotated so that the rotation speed gradually decreases from the radially innermost zone to radially to the outermost zone, wherein said device with an optical disk comprises first recording means for sequentially recording data in a plurality of consecutive regions of a block on said optical disk during manufacture or at the initial time, for passing through a defective region in units of one region of a sector, and recording data in the next sector area in the case when data is sequentially recorded in the specified set of sector areas of each of the specified areas of the block; and for using spare areas of the sector, when recording is performed with respect to the last area of the block, and if the sector areas of the last area of the block are insufficient, while said first recording means is valid for each of the zones in a state where the optical disk is rotated at the same rotation speed, the second recording means for sequentially recording data in a specified set of consecutive areas of a block on a specified optical disk at a time that is not an initial time and sequential data records in the specified set of sector areas of each of the specified areas of the block; reproducing means for reproducing data recorded in said areas of a sector of each of said areas of the block; determination means for comparing data reproduced by said reproducing means with recorded data for determining a block region containing a defective sector region; and third recording means for recording data and error correction data in a block region that is not a block region containing a defective sector region.