JP3813409B2 - Optical disc recording / reproducing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical disk recording / reproducing apparatus configured to record a signal on a disk by a laser irradiated from an optical pickup and perform a reproduction operation of the signal recorded on the disk by the laser.
[0002]
[Prior art]
Disc players that use optical pickups to read signals recorded on discs have become widespread, but recently, in addition to the playback function, signals are recorded on the discs by a laser emitted from the optical pickups. An optical disc recording / reproducing apparatus configured so as to be able to be used has been commercialized.
[0003]
In addition, a signal can be recorded in a state in which the disk is rotationally controlled at a constant high linear velocity such as 2 times, 4 times, 6 times, 8 times, 10 times, and 12 times with respect to a specified linear velocity. An optical disc recording / reproducing apparatus configured as described above has been developed.
[0004]
[Problems to be solved by the invention]
The optical disk recording / reproducing apparatus is configured to perform a signal recording operation in accordance with a recording command from the computer device side which is a host. Such a recording operation temporarily stores a signal to be recorded on the disk in a buffer RAM, A signal recording operation is performed on the disk by reading a signal stored in the buffer RAM.
[0005]
In a state where the signal recording operation to the disk is normally performed, the data signal output from the computer device is written to the buffer RAM, the signal is read from the buffer RAM, and the data is read. The recording operation of the signal on the disk is performed in accordance with the amount of the data signal and the recording state on the disk.
[0006]
In addition, when the signal recording operation to the disk is performed at a higher speed than the prescribed speed, the amount of the signal written to the disk may be insufficient with respect to the amount of the signal read from the buffer RAM. The recording operation cannot be performed, that is, a situation called buffer underrun. In such a state, there is a problem that not only the signal recording operation to the disc cannot be performed but also the disc itself cannot be used.
[0007]
As a technique for solving such a problem, when the amount of data signal stored in the buffer RAM becomes insufficient, the signal recording operation to the disk RAM is interrupted and the signal recording operation to the disk is interrupted. In some cases, the recording operation of the signal to the disk is resumed when the amount of the signal reaches a predetermined amount. According to such a technique, it is possible to solve the problem when the amount of the data signal stored in the buffer RAM is insufficient, but when the power is cut off due to a power failure or the like during the recording operation. In this case, not only the signal recording operation to the disc cannot be performed, but also the problem that the disc itself becomes unusable.
[0008]
The present invention is intended to provide an optical disc recording / reproducing apparatus capable of solving such a problem.
[0009]
[Means for Solving the Problems]
The present invention is configured to record the signal on the disk by reading the data signal once stored in the buffer RAM, and the recording restart operation after the recording operation is interrupted is recorded on the disk before the recording is interrupted. In an optical disk recording / reproducing apparatus configured to record a signal continuously with a signal being recorded, the signal stored in the buffer RAM and the recording operation were performed when the power was cut off during the recording operation. The position information data indicating the position is stored in a nonvolatile memory.
[0010]
【Example】
FIG. 1 is a block circuit diagram showing an embodiment of an optical disk recording / reproducing apparatus according to the present invention. In the figure, reference numeral 1 denotes a disk placed on a turntable (not shown) that is rotationally driven by a spindle motor (not shown), and is configured to be rotationally driven by the rotation of the turntable. . Also. On the disc 1, position information data is recorded by a groove called a wobble, and a signal recording / reproducing operation is performed based on a wobble signal obtained from the groove. Reference numeral 2 denotes a laser diode that irradiates the disk 1 with a light beam and a monitor diode that monitors light emitted from the laser diode, and a photodetector that receives the light beam reflected from the signal surface of the disk 1. An optical pickup incorporated therein is configured to be moved in the radial direction of the disk 1 by a pickup feeding motor (not shown).
[0011]
Reference numeral 3 denotes an RF signal amplifying circuit for amplifying an RF signal obtained from a photodetector incorporated in the optical pickup 2 and shaping the waveform, and reference numeral 4 denotes the signal based on the signal obtained via the RF signal amplifying circuit 3. A pickup control circuit for performing focusing control for focusing the light beam of the optical pickup 2 on the signal surface of the disk 1 and tracking control for causing the light beam to follow the signal track on the signal surface; a focus servo circuit and a tracking servo circuit; Is incorporated.
[0012]
Reference numeral 5 denotes a digital signal processing circuit that performs digital signal processing of signals output from the RF signal amplification circuit 3 and performs demodulation operations of various signals. Reference numeral 6 denotes a digital signal that is processed by the digital signal processing circuit 5. If the information recorded on the disc 1 is an audio signal, it is converted to an analog signal and then output to an amplifier or the like. In the case of a data signal such as computer software, it is digital. The signal is output to the computer device 7 provided as a host as a signal.
[0013]
Reference numeral 8 denotes a system control circuit that receives a signal demodulated by the digital signal processing circuit 5 and performs various control operations in response to a command signal output from the computer device 7. Reference numeral 9 denotes a test signal, a data signal, etc. This is a signal recording circuit for recording a data signal or the like on the disk 1 by inputting a recording signal and controlling the laser irradiation operation by the laser driving circuit 10 in accordance with the signal. The laser driving circuit 10 has a function of supplying a driving current to the laser diode so as to emit a light beam for reproducing operation and a light beam for performing recording operation from a laser diode incorporated in the optical pickup 2. The servo control is performed based on the signal obtained from the monitoring diode, and the laser output is controlled by the system control circuit 8.
[0014]
Reference numeral 11 denotes a buffer RAM in which data signals recorded on the disk 1 are temporarily stored. Data signals output from the computer device 7 are written, and signals are stored and read out by the control operation of the system control circuit 8. The operation is configured to be controlled. The signal stored in the buffer RAM 11 is stored and held after being read out to be recorded on the disk 1, and then a new data signal output from the computer device 7 is stored at that position. Are overwritten and erased sequentially.
[0015]
Reference numeral 12 denotes a power holding circuit whose operation is controlled by the system control circuit 8. When the power is shut off due to an erroneous operation of a power switch (not shown) or a power failure in the recording operation state, the system control circuit 8 and the buffer The operation power supply for performing the operation described later is supplied to the RAM 11 and the nonvolatile memory 13 for a predetermined time.
[0016]
In such a configuration, the data signal output from the computer device 7 is stored in the buffer RAM 11 during the recording operation of the signal to the disk 1, and the disk 1 is controlled by controlling the reading operation of the stored signal. This signal recording operation is controlled by a recording clock signal generated on the basis of a reference clock signal obtained from the disk 1. Accordingly, signals can be recorded in a prescribed recording format even when the rotational speed of the disk 1 is in various speed states. However, since such a technique is well known, its description is omitted.
[0017]
When the recording operation of the data signal to the disk 1 is interrupted, when the recording operation is restarted, the signal stored in the buffer RAM 11 and the signal recorded on the disk 1 before the interruption are The comparison operation is performed, and the signal is recorded continuously with the signal recorded before the interruption, that is, the data signal is recorded by a method called seamless.
[0018]
When the power supply is cut off during the recording operation of the data signal to the disk 1, the data signal and recording stored in the buffer RAM by the backup power supply output from the power holding circuit 12 are performed. The processing operation for performing the storing operation of the position information data indicating the position where the operation has been performed in the nonvolatile memory 13 is performed.
[0019]
As described above, the optical disk recording / reproducing apparatus according to the present invention is configured. Next, the reproducing operation in the circuit configured as described above will be described. When a command signal for performing a reproduction operation is output from the computer device 7 to the system control circuit 8 constituting the disk drive device, the control operation for the reproduction operation by the system control circuit 8 is started. When such a reproduction operation is performed, the laser diode incorporated in the optical pickup 2 is set so that a drive current that provides a laser output for performing a signal read operation is supplied from the laser drive circuit 10. Has been.
[0020]
When the control operation for the reproduction operation is started, the spindle motor rotation control operation is performed. The spindle motor rotation control operation is performed by generating a synchronization signal and a reference signal obtained by decoding the wobble signal. The disk 1 is driven to rotate at a constant linear velocity by comparing with a reference signal output from a circuit (not shown). Such a control operation is similarly performed during a signal recording operation described later.
[0021]
The rotation control operation of the spindle motor is performed as described above. In the optical pickup 2 that performs the signal reading operation, the focusing control operation and the tracking control operation are started, and the signal from the disc 1 by the optical pickup 2 is started. Although the read operation is started, the read operation of the TOC data recorded in the lead-in area constituting the first session of the disc 1 is performed prior to the reproduction operation.
[0022]
The read / play operation of the signal recorded in the signal recording area of the first session of the disc 1 is performed based on the TOC data recorded in the lead-in area. The signal read out by the optical pickup 2 is amplified and waveform-shaped through the RF signal amplifier circuit 3, and then input to the digital signal processing circuit 5, where the signal is demodulated. When signal processing is performed by the digital signal processing circuit 5 and information data is extracted, the information data is subjected to signal processing such as error correction and then applied to the signal reproduction circuit 6.
[0023]
When the information data read from the disk 1 is an audio signal, the signal reproducing circuit 6 converts the information data into an analog signal and outputs it to an amplifier or the like. Is output to the computer device 7 as a digital signal.
[0024]
As described above, the reproduction operation in this embodiment is performed. Next, the signal recording operation on the disk 1 will be described.
[0025]
The operation of recording a signal on the disc 1 is such that a test signal is first recorded in a test writing area provided on the disc 1 and then the recorded signal is reproduced to obtain an optimum laser output for the recording operation. A current is set to be supplied to the laser diode. When such a laser output setting operation is performed, an operation of reading information data recorded in an area called a buffer of the disk 1, that is, position information of a signal recorded in the signal recording area is performed.
[0026]
Recognition processing operation such as whether a data signal recording operation is possible in the signal recording area provided on the disk 1 based on the information data read in this way, and where the recording operation is performed Is done.
[0027]
When such a recognition processing operation is completed, the optical pickup 2 is moved to a position where the recording operation on the disk 1 is started, and a data signal writing operation to the buffer RAM 11 is performed. When a signal write operation to the buffer RAM 11 is performed, the amount of signal stored in the buffer RAM 11 gradually increases. When the storage amount exceeds a predetermined amount, the signal stored in the buffer RAM 11 is read, and the read signal is input to the signal recording circuit 9. As a result, the control operation of the laser drive circuit 10 by the signal recording circuit 9 is performed, and a signal is recorded on the disk 1.
[0028]
By such an operation, a signal recording operation to the disk 1 is performed, but a signal writing operation to the buffer RAM 11 is performed in accordance with a signal reading operation from the buffer RAM 11. . In a state where the recording operation is normally performed, a memory circuit provided in the system control circuit 8 has position information data indicating its position, that is, a final address, every time a signal recording operation to the disk 1 is performed. The operation to memorize is performed.
[0029]
When the data signal output from the computer device 7 is not output due to a delay in the arithmetic processing operation of the computer device 7 or the like, the amount of the data signal stored in the buffer RAM 11 becomes insufficient. In such a situation, the signal recording operation to the disk 1 is interrupted by the control operation by the system control circuit 8. In this case, the signal reading operation from the buffer RAM 11 is interrupted and the buffer The signal writing operation to the RAM 11 is also interrupted. In such a state, a data signal which is a recording signal is output from the computer device 7 and the amount of the data signal stored in the buffer RAM 11 increases. When the amount reaches a predetermined amount, the recording operation is resumed. The control operation for starting is started.
[0030]
Such an operation is started by first moving the optical pickup 2 to a position where the recording operation is started, that is, a position retracted from the position where the recording operation was interrupted, and then performing a reproducing operation from that position. The position where the recording operation is interrupted can be easily recognized from the final address stored in the memory circuit every time the normal recording operation is performed, and the optical pickup 2 is moved to a desired position based on the address. It can be made.
[0031]
A signal reproduced by such a reproducing operation is a signal recorded immediately before the recording operation is interrupted, and a comparison operation between the signal and a signal stored in the buffer RAM 11 is performed. When it is determined by such a comparison operation that both are the same signal, reading of the signal stored in the buffer RAM 11 and subsequent to the signal subjected to the comparison operation described above is read. As the operation is performed, the signal is input to the signal recording circuit 9 and the recording operation of the signal on the disk 1 is started. By the above-described operation, it is possible to perform a recording interruption operation and a recording resumption operation of the signal on the disk 1, and by performing such an operation, the disk 1 continuously receives a signal despite the interruption of the recording operation. Recording operation, so-called seamless recording operation can be performed.
[0032]
As described above, since the recording interruption and resuming operation is performed due to the lack of capacity of the data signal stored in the buffer RAM 11, the recording speed to the disk 1 is higher than the transfer speed of the data signal output from the personal computer 7. The recording operation can be performed without any trouble even if the recording time is early. Next, the gist of the present invention, that is, the case where the power-off operation is performed during the recording operation will be described.
[0033]
When the optical disk recording / reproducing apparatus is in the state of recording the data signal output from the computer apparatus 7, when the power supply is cut off due to a power failure or the like, the control operation by the system control circuit 8 causes the power supply holding circuit 12 to Processing operation by the obtained power supply is started. Such processing operation includes the reading operation of the data signal stored in the buffer RAM, the writing operation of the read data signal to the nonvolatile memory 13, and the recording position when the recording operation is performed. This is a write operation to the nonvolatile memory 13 of the final address, which is position information data indicating the After such an operation is performed, the power supply operation from the power holding circuit 12 is not performed. However, the capacity of the power supplied from the power holding circuit 12 has a time during which the above-described processing operation can be performed. It is set in consideration.
[0034]
When the power shut-off operation is performed during the recording operation, the data signal recorded on the disk 1 as described above, the data signal stored in the buffer RAM following the signal, and the final address indicating the recording position are nonvolatile. Since the data signal stored in the nonvolatile memory 13 is read out and written into the buffer RAM when the power supply operation is resumed, the data is stored in the nonvolatile memory 13. The write operation to the disk 1 can be resumed based on the final address. Then, the control operation of the data signal output from the computer device 7 is performed by the program software incorporated in the computer device 7, so that the recording operation of the data signal to the disk 1 is performed by turning off the power due to a power failure or the like. It is possible to carry out in the same manner as when no occurs.
[0035]
【The invention's effect】
The present invention compares the signal read from the disk after the recording operation is interrupted with the data signal stored in the buffer RAM where the data signal to be recorded on the disk is temporarily stored, and determines that both are the same signal. When the power is shut off during the recording operation in the optical disc recording / reproducing apparatus configured to resume the recording operation and record the signal continuously to the signal recorded on the disc before the recording interruption. The signal stored in the buffer RAM and the position information data indicating the position where the recording operation was performed are stored in the nonvolatile memory, and the data signal stored in the nonvolatile memory after the power is restored Writing to the buffer RAM and restarting the recording operation on the disk based on the position information data stored in the nonvolatile memory. Since the so that, in succession to a signal recording operation to the disk it is recorded on the disk before recording interruption after power is restored when the interrupted recording operation trouble it is possible to do without the power-off.
[0036]
Further, the present invention reads the data signal stored in the non-volatile memory after the power supply is restored and writes the read data signal to the buffer RAM, thereby resuming the recording resumption operation from the same state as before the interruption. Since it is started, the control operation can be easily performed.
[Brief description of the drawings]
FIG. 1 is a block circuit diagram showing an embodiment of an optical disc recording / reproducing apparatus according to the present invention.
[Explanation of symbols]
1 Disc 2 Optical Pickup 4 Pickup Control Circuit 5 Digital Signal Processing Circuit 7 Computer Device 8 System Control Circuit 10 Laser Drive Circuit 11 Buffer RAM
12 Power retention circuit 13 Non-volatile memory

Claims (1)

The data signal once stored in the buffer RAM is read to record the signal on the disk, and the signal read from the disk after the recording operation is interrupted and stored in the buffer RAM. Optical disc recording configured to compare a data signal and determine that both are the same signal, restart the recording operation and record the signal continuously to the signal recorded on the disc before the recording is interrupted In the reproducing apparatus, when the power is cut off during the recording operation, the data signal stored in the buffer RAM and the position information data indicating the position where the recording operation was performed are stored in the nonvolatile memory , and After power is restored, the data signal stored in the nonvolatile memory is written to the buffer RAM, and the nonvolatile memory is written. Optical disc recording and reproducing apparatus being characterized in that so as to resume the recording operation to the disk based on the position information data stored in Lee.

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