JP3768111B2 - 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]
Recently, not only the prescribed linear velocity but also the prescribed recording linear velocity, the disk is controlled to rotate at a constant linear velocity such as 4 times, 8 times, 12 times and 16 times. An optical disc recording / reproducing apparatus configured to record a signal has been developed. In an optical disc recording / reproducing apparatus capable of performing recording operations at such a plurality of linear velocities, the recording operation is generally performed at the fastest linear velocity provided in the apparatus.
[0004]
When recording is performed at a constant linear velocity, the rotational speed when recording a signal on the inner circumference of the disc is the fastest, so it is very difficult to further increase the recording velocity with a constant linear velocity. It has become a situation. In consideration of such points, recently, an optical disk recording / reproducing apparatus has been developed in which a disk is rotated at a constant angular velocity to perform a signal recording operation. That is, in such an optical disc recording / reproducing apparatus, even if the recording speed on the inner circumference is about 8 times the specified linear speed, the linear speed exceeds 20 times on the outer circumference side, thereby increasing the signal recording speed. There is an advantage that you can.
[0005]
[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.
[0006]
In addition, such an optical disk recording / reproducing apparatus performs an operation of recording a test signal while changing the laser output in a test writing area provided on the inner periphery side of the disk and performing a reproduction operation of the recorded signal. Accordingly, an operation for setting a laser output suitable for performing a recording operation is performed.
[0007]
In an optical disc recording / reproducing apparatus configured to record such a laser output setting operation at a constant angular velocity, the rotational speed of the test writing area provided on the inner peripheral side of the disc is set on the outer peripheral side. Since the recording linear velocity cannot be increased, the optimum laser output setting operation cannot be performed.
[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 relates to a recording operation on a disk that is rotationally driven at a constant linear velocity and a constant linear velocity that is a different multiple of the specified linear velocity, and recording on a disk that is rotationally driven at a constant angular velocity. Light that can be operated and configured to set the laser output for recording operation at each recording speed by recording and reproducing the test signal in the test writing area provided on the inner circumference side of the disc When performing a recording operation at a recording speed at which the rotational linear velocity of the trial writing area cannot be increased to the rotational linear rotational speed in the disc recording / reproducing apparatus, a preset maximum rotational linear velocity of the trial writing area is set. The laser output setting operation is performed at a constant rotational linear velocity that is constant and one step slower than the rotational linear velocity, and is set by the laser output setting operation at each speed. Comparing their relationship from the relationship between the change rate and the rotation linear velocity of the change of the laser power is set at relationship and production process of the change of the degree of change in the rotational linear velocity of the laser output that is, the It is configured to set by calculating the comparison result to the laser output to have groups Dzu suitable linear velocity that exceeds the maximum rotational linear velocity.
[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 M, and is configured to be rotationally driven by the rotation of the turntable. The disk 1 is recorded with position information data in a meandering groove called a pregroove, and a signal recording / reproducing operation is performed based on a wobble signal obtained from the groove. 2 a photodetector which receives a light beam reflected from the signal surface of the disc 1 together with monitoring diode for monitoring the light quantity emitted from the laser diode and the laser diode is irradiated with a light beam to the disk 1 is incorporated Is an optical pickup that is configured to be moved in the radial direction of the disk 1 by a pickup feed 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 a focusing control operation for focusing the light beam of the optical pickup 2 on the signal surface of the disk 1 and a tracking control operation for tracking the light beam on the signal track of the signal surface; A 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 which receives a signal demodulated by the digital signal processing circuit 5 and performs various control operations in accordance with a command signal output from the computer device 7, and a laser output setting operation which will be described later. And an arithmetic processing operation. Reference numeral 9 denotes a signal recording circuit that receives a recording signal such as a test signal or an information signal and controls a driving signal supplied from a laser driving circuit (not shown) to a laser diode in response to the recording signal. A data signal or the like is recorded on the optical disc 1 by controlling the irradiation operation of the diode.
[0014]
Reference numeral 10 denotes a buffer RAM in which a signal recorded on the disk 1 is temporarily stored. A signal output from the computer device 7 is written, and a signal storing operation and a reading operation are controlled by a control operation of the system control circuit 8. It is configured to be. The signal stored in the buffer RAM 10 is stored and held after being read out to be recorded on the disk 1, and then a new signal output from the computer device 7 is stored at that position. In this way, the information is sequentially overwritten and erased.
[0015]
Reference numeral 11 denotes a spindle motor drive circuit whose operation is controlled by the system control circuit 8 and has a function of rotationally driving and controlling a spindle motor M that rotationally drives the disk 1. Such rotational drive control operation can be performed at a constant linear velocity such as 4 times, 8 times, 12 times and 16 times the prescribed speed as well as the prescribed linear speed, The linear velocity on the inner peripheral side can be rotated so that the angular velocity is constant, for example, about 8 times.
[0016]
Reference numeral 12 denotes a memory circuit whose operation is controlled by the system control circuit 8. In the production process of the optical disc recording / reproducing apparatus, the laser output adjustment value determined by the laser output adjustment setting operation corresponds to the laser output. It is remembered. The relationship between the value of the drive current supplied to the laser diode incorporated in the optical pickup 2 and the laser output irradiated from the laser diode is not necessarily a linear relationship, and differs depending on the characteristics of the laser diode. Will do. The characteristics of such change are measured in the production process, and the relationship based on the measurement is stored in the memory circuit 12.
[0017]
In such a configuration, during the recording operation of the signal to the disk 1, the signal output from the computer device 7 is stored in the buffer RAM 10, and the read operation of the stored signal is controlled to control the signal to the disk 1. The signal recording operation is controlled. When the recording operation of the signal to the disk 1 is interrupted, when the recording operation is resumed, the signal stored in the buffer RAM 10 and the signal recorded on the disk 1 before the interruption are The comparison operation is performed so that the signal is recorded continuously with the signal recorded before the interruption, that is, the signal is recorded by a method called seamless.
[0018]
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 drive device, the control operation for the reproduction operation by the system control circuit 8 is started. When such a reproducing operation is performed, the laser diode incorporated in the optical pickup 2 is supplied with a driving current from which a laser output for performing a signal reading operation is obtained from the laser driving circuit. Is set.
[0019]
When the control operation for such reproduction operation is started, the rotation control operation of the spindle motor M by the spindle motor drive circuit 11 is performed. The rotation control operation of the spindle motor M is performed by decoding the wobble signal. The disk 1 is driven to rotate at a constant linear velocity by comparing the obtained synchronization signal with a reference signal output from a reference signal generation circuit (not shown). Such a control operation is similarly performed during a signal recording operation described later.
[0020]
The rotation control operation of the spindle motor M 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 disk 1 by the optical pickup 2 is started. The TOC data recorded in the lead-in area constituting the first session of the disk 1 is read prior to the reproduction operation.
[0021]
The read / play operation of the signal recorded in the signal recording area of the first session created on the disc 1 is performed based on recording information data called 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.
[0022]
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.
[0023]
As described above, the reproduction operation in this embodiment is performed. Next, the signal recording operation on the disk 1 will be described.
[0024]
The operation of recording a signal on the disc 1 is performed by first setting and outputting a laser output optimum for the recording operation by recording and reproducing a test signal in a test writing area provided on the disc 1. This setting will be described later. 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.
[0025]
When such 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 recording signal writing operation to the buffer RAM 10 is performed. When a signal write operation to the buffer RAM 10 is performed, the amount of signals stored in the buffer RAM 10 gradually increases. When the storage amount exceeds a predetermined amount, the signal stored in the buffer RAM 10 is read and the read signal is input to the signal recording circuit 9. As a result, the control operation of the laser driving circuit by the signal recording circuit 9 is performed, and the signal is recorded on the disk 1.
[0026]
By such an operation, a signal recording operation to the disk 1 is performed, but a signal writing operation to the buffer RAM 10 is performed in accordance with a signal reading operation from the buffer RAM 10. . Further, in a state where the recording operation is normally performed, an address indicating the position, that is, a final address is stored in the memory circuit incorporated in the system control circuit 8 every time a signal recording operation to the disk 1 is performed. An operation to memorize is performed.
[0027]
When the signal recording operation to the disk 1 is interrupted, the signal reading operation from the buffer RAM 10 is interrupted. In this case, the signal writing operation to the buffer RAM 10 is also interrupted. It is configured to let you. When an operation for starting a signal recording operation on the disk 1 is performed from such a state, after the optical pickup 2 is displaced to a position where the recording operation is started, that is, a position retracted from a position where the recording operation is interrupted, Playback operation is performed from that position. The position where the recording 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 can be moved to a desired position.
[0028]
The 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 the signal stored in the buffer RAM 10 is performed. When it is determined by the comparison operation that both signals are the same signal, reading of the signal stored in the buffer RAM 10 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.
[0029]
As described above, the recording operation in the present embodiment is performed. When the signal recording operation is completed, the recording operation of the recording information data indicating the recording position of the signal recorded on the disc to the lead-in area of the disc 1 is performed. Is done. The recording operation of recording information data in the lead-in area is performed at a speed at which a signal is recorded on the disk 1.
[0030]
As described above, the signal recording operation in this embodiment is performed. Next, the setting of the laser output will be described. The laser output setting operation is performed based on the recording command signal output from the computer device 7. The laser output setting operation is performed by applying a test signal to the test writing area provided on the inner peripheral side of the disk 1. The output is changed, the recorded signal is reproduced, and the laser output corresponding to the reproduced signal as the optimum signal is set as the optimum laser output. For such a laser output setting method, a well-known technique may be used, and details thereof are omitted.
[0031]
When the rotational linear velocity in the test writing area can be set to the linear velocity for recording on the disc 1, that is, at the same rotational linear velocity as the recording linear velocity at the outermost peripheral position of the disc 1, When the recording operation can be performed, the recording operation in all areas of the disk 1 can be performed without any trouble by performing the laser output setting operation in the state of the linear velocity. As described above, the laser output setting operation is performed when the test signal recording operation can be performed in the test writing area at the same linear velocity as the recording linear velocity at the outermost peripheral position of the disk 1. The operation of setting the laser output when the rotational linear velocity in the area cannot be made the rotational linear velocity in the signal recording area on the outer peripheral side of the disc 1 will be described.
[0032]
Such laser output setting operation is performed in a state where the highest linear velocity provided in the optical disc recording / reproducing apparatus, that is, the highest linear velocity as the linear velocity in the test writing area can be obtained. Do it first. For example, the laser output that is most suitable for setting the laser output in a state where the rotational linear velocity in the trial writing area is controlled to be 16 times the prescribed linear velocity, and performing the recording operation at that linear velocity. Set P1. When the setting operation of the laser output P1 suitable for performing the recording operation at the linear velocity of 16 times is completed, the linear velocity that is one step slower than the linear velocity of 16 times, for example, the rotational linear velocity in the test writing area is defined as the prescribed linear velocity. The laser output setting operation is performed in a state of being controlled so as to be twelve times, and the most suitable laser output P2 is set when the recording operation is performed at the linear velocity .
[0033]
As described above, when the laser outputs P1 and P2 suitable for the recording operation at the linear velocity of 16 times and 12 times are set, the change in the recording speed of the disc used and the change in the velocity are determined from these values. The relationship with the accompanying laser output conversion can be obtained by the arithmetic processing operation by the system control circuit 8. That is, since the relationship between the laser output value and the recording speed is, for example, a proportional relationship, the relationship between the recording speed and the laser output can be obtained from the degree of change in the recording speed and the degree of change in the laser output value. Therefore, even when the linear velocity in the test writing area cannot be increased to 20 times, such as the rotational linear velocity at which the recording operation is performed is 20 times the specified velocity, the laser output suitable for the recording linear velocity of 20 times. Can be set by an arithmetic processing operation.
[0034]
The present invention not only sets the laser output by such a method, but also sets the laser output based on the relationship based on the change in the laser output set in the production process and the relationship obtained by the above-described operation. Do. That is, the laser output change characteristic set in the production process and the laser output change characteristic set when performing the recording operation do not match, and the difference between these change characteristics is detected. A more accurate laser output can be set by setting the laser output based on the detected difference. The change characteristics of the laser output set in the production process are stored in the memory circuit 12, but the ratio of the laser outputs P1 and P2 corresponding to 16 times and 12 times detected by the laser output setting operation described above. If P1 / P2 is K and the laser output ratio corresponding to 16 times and 12 times set based on the change characteristic of the laser output set in the production process is K0, K = K0 may not be obtained. is there. In such a case, for example, it is set that the laser output is changed by the ratio of the intermediate value K1 between K and K0, and an operation is performed to set the laser output suitable for the linear velocity 20 times the specified velocity by calculation processing. .
[0037]
【The invention's effect】
The present invention relates to a recording operation on a disk that is rotationally driven at a constant linear velocity and a constant linear velocity that is a different multiple of the specified linear velocity, and recording on a disk that is rotationally driven at a constant angular velocity. Light that can be operated and configured to set the laser output for recording operation at each recording speed by recording and reproducing the test signal in the test writing area provided on the inner circumference side of the disc When performing a recording operation at a recording speed at which the rotational linear velocity of the trial writing area cannot be increased to the rotational linear rotational speed in the disc recording / reproducing apparatus, a preset maximum rotational linear velocity of the trial writing area is set. The laser output setting operation is performed at a constant rotational linear velocity that is constant and one step slower than the rotational linear velocity, and is set by the laser output setting operation at each speed. Comparing their relationship from the relationship between the change rate and the rotation linear velocity of the change of the laser power is set at relationship and production process of the change of the degree of change in the rotational linear velocity of the laser output that is, the since to set by the comparison result to be had based Dzu calculates the laser output suitable for the linear velocity that exceeds the maximum rotational linear speed, high-speed can not be performing the setting operation of the laser output at the trial writing area The laser output suitable for the recording operation can be set.
[0038]
In the present invention, since the linear velocity for performing the setting operation of the laser output in the test writing area is set to the preset maximum rotation linear velocity of the test writing area and the rotation linear velocity one step slower than the rotation linear velocity, that is, In the test writing area, the laser output setting operation is performed at the fastest rotational linear velocity, and the laser output setting operation is performed at the one-step slower rotational linear velocity. Therefore, according to the present invention, the rotational linear velocity at which the recording operation to the signal recording area is performed, that is, the rotational linear velocity at which the rotational linear velocity in the test writing area cannot be increased to the rotational linear velocity on the outer peripheral side. Therefore, the setting operation of the laser output is performed at the rotation linear velocity closest to, so that an accurate setting operation of the laser output can be 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 Buffer RAM
11 Spindle motor drive circuit 12 Memory circuit

Claims (1)

A recording operation to a disc that is rotationally driven at a constant linear velocity and a constant linear velocity that is a different multiple of the prescribed linear velocity, and a recording operation to a disc that is rotationally driven at a constant angular velocity. An optical disc recording / reproducing system configured to set a laser output for performing a recording operation at each recording speed by recording / reproducing a test signal in a test writing area provided on the inner circumference side of the disc. in the device,
When performing a recording operation by the recording speed can not increase the rotational linear velocity of the trial was writing area to the rotational linear velocity of the outer peripheral side,
Performs a setting operation of the laser output at the maximum rotational linear velocity constant and said rotational line speed stage slower rotational linear velocity constant than the state of the test writing area which is pre-Me set,
The relationship and the degree of change and the change of the laser power is set in the production process the rotational line speed of the change of the degree of change in the rotational linear velocity of the laser output set by the setting operation of the laser output at each speed From the relationship , detect the difference in change characteristics between the two ,
There difference based Dzu changes characteristic of that which was to be set by calculating the laser output suitable for the linear velocity that exceeds the maximum rotational linear velocity
Optical disc recording and reproducing apparatus according to claim and this.

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