![]() US Patent # 6,8. 04,1. Dubbing apparatus and dubbing method. Oblon, Spivak, Mc. Clelland, Maier & Neustadt, P. C. This may have the user worried or even distrustful of normal functioning of the apparatus. BRIEF DESCRIPTION OF THE DRAWINGS. E25 means you're attempting to copy a copy prohibited program. I get the same error about 15 minutes into dubbing a home VHS. Mark as New; Bookmark; Subscribe. Today there are many programs that will allow you to burn copy protected DVDs, it's just a matter of which one best suits your purpose. That's the purpose of our site --- dvdcloningsoftware.com. Furthermore, CPRM-compatible DVD-RW Ver.1.1 can record TV programs that contain CPRM signals. Figure 1 is a block diagram of an AV system used for dubbing. In the case of copy-prohibited. JAMCO has stored 1,657 superb Japanese TV programs, including. A total of 11,145 programs have so. Unauthorized copy of these pages is prohibited. Later you can safely uninstall any older versions listed under Add or Remove Programs in the Windows Control Panel. Channel menu and the Copy and Replace commands. 2 WARNING To prevent fire or shock hazard, do not expose the unit to rain or moisture. To avoid electrical shock, do not open the cabinet. Refer servicing to qualified personnel o. FIG. 1 is a block diagram of a dubbing apparatus embodying this invention. FIG. 2. A is a schematic view of a data structure for explaining clusters as units of recording on an MD used as a recordable medium. FIG. 2. B is a schematic view of a data structure for explaining sectors constituting each cluster. FIG. 2. C is a schematic view of a data structure for explaining a sound group. FIG. 2. D is a schematic view of another data structure for explaining the sound group. FIG. 2. E is a schematic view of another data structure for explaining the sound group. FIG. 3 is a schematic view of a data structure in U- TOC sector 0 on an MD used as a recordable medium, the sector containing MD management information. FIG. 4 is a schematic view depicting how discrete recordable areas are linked one another on an MD used as a recording medium. FIG. 5 is a schematic view of a frame structure comprising data stored on a CD used as a read- only medium. FIG. 6. A is a schematic view of a block structure comprising data stored on a CD used as a read- only medium. FIG. 6. B is a schematic view of a Q channel data structure in sub- code information recorded on the CD. FIG. 7. A is a schematic view indicating how the Q channel data shown in FIG. B are structured when recorded in a lead- in area. FIG. 7. B is a schematic view depicting how the Q channel data shown in FIG. B are structured when recorded in a track area and a lead- out area. FIG. 8 is a tabular view listing typical table content information recorded in the lead- in area of a CD used as a read- only medium. FIG. 9. A is a schematic view of a Q channel data structure in mode 1 on a CD as a read- only medium. FIG. 9. B is a schematic view of a Q channel data structure in mode 2 on the CD. FIG. 9. C is a schematic view of a Q channel data structure in mode 3 on the CD. FIG. 9. D is a schematic view of a Q channel data structure on an MD used as a recordable medium. FIG. 1. 0 is a code table listing codes for expressing alphanumeric characters. FIG. 1. 1A is a schematic view of a typical display appearing on a display unit before dubbing is started. FIG. 1. 1B is a schematic view of a typical display appearing on the display unit while recording is put on hold. FIG. 1. 1C is a schematic view of a typical display appearing on the display unit while high- speed dubbing is being inhibited. FIG. 1. 1D is a schematic view of a typical display appearing on the display unit after the setting of high- sped dubbing is cleared. FIG. 1. 2 is a view of an HCMS management table stored in memory. FIG. 1. 3 is a flowchart of steps performed when high- speed dubbing is started. FIG. 1. 4 is a flowchart of steps detailing an ISRC detection handling process S1. FIG. 1. 5 is a flowchart of steps detailing an HCMS table management process S1. FIG. 1. 6 is a flowchart of steps constituting a dubbing error display process carried out during a high- speed dubbing restriction process; and. FIG. 1. 7 is a schematic view of another typical display indicating the status of HCMS management. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS. Preferred embodiments of this invention will now be described by referring to the accompanying drawings. MD/CD composite apparatus serving as a dubbing apparatus embodying the invention. MD 9. 0 (magneto- optical disc) is loaded into an MD unit that writes and reads. MD. 1), and commands (indicated as COMMAND) for giving various orders to the MD controller 1. CD section. 2. A, clusters CL are formed consecutively as recording tracks on the MD. B, a cluster CL is constituted by a four- sector sub- data area made of sectors SFC through SFF and by a 3. S0. 0 through S1. F. 2. C, a sector is a data unit composed of 2,3. D, each sector is further divided into smaller units called sound groups. C and 2. D, a pair of contiguous two even- numbered and odd- numbered sectors (e. S0. 0 and S0. 1) contain sound groups SG0. SG0. A. 3 shows a format of U- TOC sector 0. U- TOC sector 0 has a header in which a 1. Cluster H, Cluster L, SECTOR), a maker code identifying the relevant disc. First TNO), a last program number (Last TNO), sector usage status (used sectors), a disc serial number, and a disc ID. P- FRA for managing recordable areas. PMIN, PSEC and PFRAME denote the start points of tracks #1 through #6. In the lead- out area, the track number is . A, the first four bits Q1 through Q4 in the Q channel data constitute control data CTL that are used to represent the number of audio channels, presence or absence of emphasis, and CD- ROM identification. In the lead- out. B depicts a structure of Q channel data classified as mode 2. C shows a typical structure of Q channel data classified as mode 3. D shows a typical structure of Q channel data for the Mini- disc, explained here for purpose of reference. A through 1. 1D show transitions of displays performed on the display unit 2. A depicts a display on the display unit 2. C, it is assumed that the first track to be reproduced from the CD 9. HCMS provisions. 1. D on the display unit 2. C is provided in the course of restricting high- speed dubbing when applicable. C from the Q channel data obtained at that point. ISRC and a timer ID identifying the timer started in relation to each new ISRC. Nos. 1 is shown currently to have a count of 6. CD. 9. A, 9. B and 9. C constituting the contents of the Q channel sub- coding data included in. S1. 03 of FIG. 1. C is executed by use of the timer time acquired earlier in step S3. HCMS management table process that is performed illustratively as shown in FIG. S1. 04) is skipped and step S1. FIG. 1. 3 through 1. HCMS management is implemented. C is also carried out in the course of HCMS management execution. TOC of the CD indicates a start point of each of the recorded tracks in terms of minutes, seconds, and a frame count, as well as a lead- out start point also. HCMS management can be implemented in a manner similar to what was described above. C, is given in a manner indicative of the status of any given track inhibited under HCMS management from any. D1. 0 such as < HCMS Remain Time>. C is carried out by a speed- free copy management setup.
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