Abstract: A recording apparatus for a write-once and/or re-recordable optical recording medium includes a discriminator for discriminating a recording position information from the optical recording medium; a detector for detecting a deviation between the address information recorded in the recording medium and the recording position information; and a controller for controlling the recording position of a data signal including address information based on the deviation while recording the data signal.
Abstract: An optical disc recording and reproducing apparatus for recording and reproducing data in and from an optical disc by the use of the optical disc as a recording medium, comprises analog processing means including a binarization unit for subjecting a signal read from the optical disc to binarization and a servo unit for controlling recording and reproducing a signal in and from the optical disc; synchronous clock generating means for generating a synchronous clock signal which is synchronized with the signal read from the optical disc; address detecting means for detecting address information indicating a physical position on the optical disc based on the signal read from the optical disc, and outputting a signal indicating the address information and a signal indicating that the address has been detected when the address information has been detected; a sector counter for holding a sector count value of a sector as a recording unit on the optical disc, and updating the sector count value according to the sync
Type:
Grant
Filed:
December 8, 1998
Date of Patent:
October 1, 2002
Assignee:
Matsushita Electric Industrial Co., Ltd.
Abstract: A phase correction circuit includes a phase control data generation circuit which judges whether or not the present sector is a leading sector in an ECC block, which is the minimum recording unit in a magneto-optical disk, and generates phase control data by referring to a phase difference data of a previous sector when the present sector is not the leading sector, based on a phase difference detected by a phase difference detection circuit; and a phase control circuit for controlling the phase of a channel clock based on the output of the phase control data generation circuit. With this structure, it becomes possible to provide the phase correction circuit for a disk reproduction device which can generate a sampling clock even when there is a flaw, etc. in a fixed pattern area of the magneto-optical disk, by making a correction so as to avoid or reduce influence by the flaw, etc., and to provide the disk reproduction device using the circuit.
Abstract: In an optical disk apparatus, when the write-in process to the optical disk is interrupted, a data processing part and an encoder part are set to be in the waiting state after an access to a data storing part is completed, so as to stop accessing the data storing part and also to stop storing data that is to be written. Thus, the interleave can be managed and the DSV calculation can be properly conducted without any irregular calculation. Even in a case in which the write-in process to the optical disk is restarted after temporarily interrupted, it is possible to read data similar to a case in which data to be written is successively written without an interruption.
Abstract: To ensure compatibility of apparatus, seamless_connection_flag is set to 1 when a succeeding play item can be reproduced in seamless reproduction consecutive to a previous play item and set to 0 when seamless reproduction cannot be guaranteed.
Abstract: Disclosed is a method for detecting synchronous information adapted to decode information recorded on a burst cutting area (BCA) on the surface of a recording medium, which method is capable of decoding the recorded information, based on only the detection of resync bytes recorded on the BCA and adapted to provide a synchronization for information recorded on the BCA following them, even when no sync byte recorded on the BCA to indicate the start point of the burst cutting area is detected.
Abstract: A program clock reference and a transport packet are extracted from an input stream. A clock signal generated by the extracted program clock reference is generated; and a time stamp is generated in synchronization with the generated clock signal. File information representing the continuity of time stamps also is generated. Hence, the input stream can be played back correctly and continuously even if there is a discontinuity in the time stamps.
Abstract: A method for recording an information data signal on an optical recording medium includes the steps of identifying the position of a control data recording area where control data regarding recording of the information data signal is recorded; detecting a pre-pit signal by reading a predetermined section of the control data recording area; detecting an RF data signal by reading a predetermined section of the control data recording area; and executing either one of the step of detecting a pre-pit signal and the step of detecting an RF data signal to generate a recording synchronizing signal indicating recording start timing from the detected signal.
Abstract: The invention provides a link writing method for a recordable compact disk (CD-R) and a driver for using the method. The link writing method includes the steps of “recording a writing interruption address”, and “enabling a succeeding writing process” when the causes resulting in the writing interruption is eliminated. The step of “enabling a succeeding writing process” includes the steps of “searching the linking area” and “enabling a start writing signal and activating a laser power”. The purpose of the invention is to accurately link the succeeding writing area with the written interrupted area to keep the length of the data frame consistent without causing errors on data reading. The linking area is positioned either by counting the values of the interrupted block, the interrupted data frame, and the interrupted bit count or by detecting a blank area.
Abstract: A reproduction apparatus according to the present invention includes: a signal input section for receiving an input signal having an input signal type; a synchronization signal detection section for detecting a predetermined synchronization signal in the input signal and determining the input signal type in accordance with an occurrence frequency with which an interval repeatedly occurs between adjacent instances of the predetermined synchronization signal; and a signal processing section for subjecting the input signal to a signal processing which is suitable for the determined input signal type.
Type:
Application
Filed:
December 13, 2000
Publication date:
April 11, 2002
Applicant:
Matsushita Electric Industrial Co., Ltd.
Abstract: In an information recording method and apparatus which is capable of improving a recording density of an optical recording medium, a carrier signal is detected in an optical recording medium preformatted as first unit regions by modulating a synchronous signal dividing a track into first unit regions having a certain volume and address information indicating the first unit regions as time information format, and the address information is restored by the detected carrier signal. The restored address information is converted into a linear code, the converted linear code is counted with a clock signal varied in accordance with a volume of the second unit regions different from a volume of the first unit regions. Logical address information indicating the second unit regions is generated, and a record clock signal varied in accordance with a recording density of the second unit regions is generated, accordingly a recording density of an optical recording medium can improve.
Abstract: A meandering groove is formed in a digital disk (10) with a wobble signal that is wobbled to reproduce a clock signal. The wobble signal is read out by an optical head (26). An address detection circuit (40) detects an address signal that is multiplexed with the wobble signal. A PLL oscillation circuit (24) provides a clock signal in synchronization with the wobble signal. Data is modulated by a modulation circuit (16) according to the clock signal and a timing signal based on the address signal, and recorded on the digital disk (10). In reproduction, a RF signal in the wobble signal is converted into a digital signal by an A/D converter (42). The signal is demodulated by a demodulation circuit (44) for data output.
Abstract: Disclosed is a method of recording/reproducing information signals at an access speed in the order of &mgr;s, a recording density of 1 to 10 GBs/cm2, and a data transfer rate in the order of Gbit/sec without breakage of the data. The method includes the steps of: making a head device face to a memory medium having a flat recording surface, the head device including a plurality of head elements two-dimensionally arranged each of which has at its leading end a flat portion having an area of 0.1 &mgr;m2 or less; moving the head device relative to the memory medium a distance more than a gap between two adjacent ones of the head elements; and recording an information signal at a specific position of the recording surface at a recording density of 1 Gbit/cm2 or more, or reproducing an information signal previously recorded on the recording surface al a specific position by the head device.
Abstract: To ensure compatibility of apparatus, seamless_connection_flag is set to 1 when a succeeding play item can be reproduced in seamless reproduction consecutive to a previous play item and set to 0 when seamless reproduction cannot be guaranteed.
Abstract: Thermal stress is prevented from accumulating on a disk recording medium. Data to be recorded is divided into 32-kilobyte clusters, and a front link area and a back link area, whose lengths are randomly changed, formed of a total of 8 frames are added before and after the clusters. Then, the data is recorded on a predetermined area of a disk on the basis of address data prerecorded on the disk.
Abstract: An information recording apparatus initializes an information record medium of repeatedly recordable type, on which at least a lead in area and a data area following the lead in area are assigned in accordance with a predetermined format, and records record information onto the initialized information record medium, and further records the record information onto the initialized and recorded information record medium. The record information comprises data information in the data area as main portion of the record information to be recorded and control information in the lead in area for controlling recording and reproducing operation of the data information. The control information includes a last recorded address indicating an address in the data area of a last portion of the data information which is previously recorded by the recording operation.