Dynamic information storage or retrieval – Storage medium structure – Optical track structure
Reexamination Certificate
1999-02-24
2001-09-18
Dinh, Tan (Department: 2651)
Dynamic information storage or retrieval
Storage medium structure
Optical track structure
C369S275400
Reexamination Certificate
active
06292458
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to an optical disc record carrier for recording information under servo control based on spindle revolution control and address information recorded on wobbled grove(s), an apparatus for manufacturing such a record carrier, an apparatus for recording information on such a record carrier, and an apparatus for reading information recorded on such a record carrier.
2. Description of the Prior Art
Spindle revolution control information and address information is often recorded in advance on such a record carrier as is done for ATIP (Absolute Time In Pregroove) in CD-R (Compact Disc-Recordable) in order to enable information to be recorded in desired positions. Specifically, spiral or concentric groove(s) is (are) formed on the record carrier with the groove(s) wobbled (or periodically changed in position in a direction transverse to the groove) in response to the spindle revolution control information and the frequency-modulated address information.
If application data is recorded on the groove(s), the modulated address information obtained from the wobbling of the groove(s) is correctly read, which permits the application data to be recorded in desired sectors on desired tracks. However, if a land is scanned in recording application data on both the groove and land tracks trying to increase the capacity of the optical disc, a mixture of wobbling signals from the grooves adjacent to the land being scanned is obtained as the modulated address information. This makes it difficult to correctly read only the wobbling signal from a groove associated with the scanned land. Accordingly, application data can be hardly recorded in desired position.
One solution for this problem is disclosed as “Optical Disc Recording Medium and Optical Disc Drive” in Japanese unexamined patent publication No. 9-231580 (1997). In this recording medium, a revolution control signal is recorded as wobbling of the groove(s), while address information is recorded as prepits formed in positions corresponding to the boundary between adjacent groove and land in ID area which is part of the groove and land tracks. The prepits enable the address information to be correctly read out both when a groove adjacent to the prepits is scanned and when a land adjacent to the prepits is scanned.
However, in addition to the fact that the ID area occupies part of the tracks, the ID area has to be followed by another area in which a variable frequency oscillator is inserted in order to facilitate the synchronization of the PLL (phase-locked loop). This causes the capacity of resultant optical disc to become small.
Thus, the tracks need to be divided into address areas and data areas in order to record application data on both the groove and land tracks, which makes it difficult to raise the recording density.
It is therefore an object of the invention to provide an optical disc record carrier having spiral or concentric wobbled groove(s) that permits (permit) recording application data on both groove and land tracks without occupying any portion of the tracks.
It is another object of the invention to provide an apparatus for manufacturing such a record carrier, and an apparatus for recording application data on such a record carrier and/or for reading application data recorded on such a record carrier.
SUMMARY OF THE INVENTION
According to one aspect of the invention, an optical disc record carrier having at least one wobbled groove that permits information recording on both groove and land tracks is provided. The record carrier comprises:
a substrate for recording information on tracks formed thereon, the tracks comprising at least one groove and at least one land, and the tracks being divided into sectors in a predetermined manner;
a sync wobble formed in one side of each of the at least one groove, the sync wobble is configured to provide a constant frequency regardless of a radius to an access point when the disc record carrier is revolved at a constant angular velocity (hereinafter, referred to as CAV); and
an address wobble formed in the other side of each of the at least one groove, the address wobble including:
an address portion including address information of each sector in which the address portion is included, the address portion comprising:
presence of a first predetermined number of wobbles, the presence corresponding to bits of the address information which are equal to a logical value of binary system; and
absence of a second predetermined number of wobbles, the absence corresponding to bits of the address information which are equal to the other logical value of the binary system,
wherein widths of the at least one wobble and the at least one land are substantially constant throughout, and wherein all of the tracks wobble substantially in phase.
According to another aspect of the invention, a method of manufacturing an optical disc record carrier having tracks comprising at least one groove and at least one land is provided. The tracks are divided into sectors in a predetermined manner. The method comprises the steps of:
deflecting a first laser light in response to a sync wobble signal of a predetermined constant frequency into a first deflected light;
deflecting a second laser light in response to an address wobble signal into a second deflected light; and
using the first and second deflected lights for respective sides of the at least one groove to form the groove on the record carrier, wherein the address wobble signal includes:
an address portion including address information of each sector in which the address portion is included, the address portion comprising:
presence of a first predetermined number of waves, the presence corresponding to bits of the address information which are equal to a logical value of binary system; and
absence of a second predetermined number of waves, the absence corresponding to bits of the address information which are equal to the other logical value of the binary system.
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Eguchi Hideharu
Hosoda Atsushi
Ueki Yasuhiro
Ueno Ichiro
Anderson Kill & Olick P.C.
Dinh Tan
Victor Company of Japan Ltd.
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