JP2005032335A - Recording device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a recording device capable of highly accurately detecting an inspection signal outputted in reading out trial write information without using a detection circuit capable of detecting a signal of a high frequency band and capable of illuminating light by suitable output in writing information in an optical recording medium. <P>SOLUTION: A microcomputer 9 controls a spindle motor 3 so as to rotate an optical disk 50 by prescribed trial write rotational frequency, controls an optical pickup 5 so as to write the trial write information in the optical disk 50, controls the spindle motor 3 so as to rotate the optical disk 50 by inspection rotational frequency lower than the trial write rotational frequency, controls the optical pickup part 5 so as to read out the trial write information written in the optical disk 50, and determines the output of illuminating laser light in writing information in the optical disk 50 on the basis of the modulation degree of the inspection signal outputted when the optical pickup part 5 reads out the trial write information and detected by an RF detection circuit 15. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical recording medium capable of additionally recording information and a recording apparatus for writing information on an optical recording medium capable of rewriting information.
[0002]
[Prior art]
As the density of optical discs, which are optical recording media, has increased, recording devices that can write recording marks on optical discs with an accurate length have been desired. The characteristics of the recording layer of the optical disc vary depending on the individual optical disc. Therefore, it is necessary to adjust the power, amplitude, and interval of the recording waveform for causing a laser light source such as a semiconductor laser element to emit light in consideration of the compatibility between the optical disk and the recording apparatus.
[0003]
The recording device performs a process called OPC (Optimum Power Control) that performs trial writing on a predetermined area of the optical disc before writing information on the optical disc, and outputs an optimum output of the laser beam to be irradiated when writing the information. To decide. The OPC writes predetermined test writing information with a plurality of types of laser beams in a test writing area called PCA (Power Calibration Area) provided in the innermost radial direction of the recording area of the optical disc. Thereafter, the test writing information is read, and the modulation degree of the RF signal corresponding to each output from the pickup unit is used as an evaluation criterion, and the output in the best state among them is determined as the optimum output. Information is written on the optical disk with the laser beam having the optimum output determined in this way.
[0004]
The aforementioned OPC is published in a standard called Orange Book that defines standards for optical discs such as a compact disc (Record Disc-Recordable; abbreviated as CD-R).
[0005]
As a conventional technique for obtaining the optimum output, in an optical disk device for writing information on a phase change optical disk, the laser light is continuously emitted for a predetermined time during the trial writing with the laser light as a pulse light, and the test is performed. There is an optical disc device that reads a written area and adjusts an output based on an RF signal at the time of reading (see, for example, Patent Document 1).
[0006]
[Patent Document 1]
Japanese Patent Laid-Open No. 10-134352
[0007]
[Problems to be solved by the invention]
When performing OPC on a phase change recording optical disk, which is an information rewritable optical disk, the amplitude of the RF signal must be measured. The writing capacity of information per unit time on the optical disk increases. In other words, when the rotational speed of the optical disk is increased and the writing speed is increased, the frequency of the RF signal also increases. In order to detect the value, a detection circuit capable of detecting a high-band RF signal is required. However, it is generally difficult to realize such a detection circuit, and even if it can be realized, the cost becomes very high.
[0008]
For example, in the case of a recording apparatus that can read an optical disc on which music is recorded, the detection circuit that detects the RF signal can detect a frequency band necessary for reading and reproducing the music recorded on the optical disc. Good. When the recording speed when writing music on the optical disc is higher than the playback speed when reproducing music on the optical disc, the test writing information is read at the recording speed, and the test writing information is output from the pickup unit when the test writing information is read. The detected RF signal cannot be detected with high accuracy. However, mounting a detection circuit capable of detecting a high-band RF signal in the recording apparatus only to detect the RF signal output from the pickup unit with high accuracy when reading the test writing information is possible. Increase in manufacturing costs.
[0009]
Therefore, an object of the present invention is to detect an inspection signal output when reading test writing information with high accuracy without using a detection circuit capable of detecting a signal having a high frequency band, and to store information on the optical recording medium. It is an object of the present invention to provide a recording apparatus capable of irradiating light with an appropriate output when writing.
[0010]
[Means for Solving the Problems]
The present invention detects a drive means for rotating an optical recording medium, a pickup means for irradiating the optical recording medium with light to write or read information, and a signal output when the pickup means reads trial writing information. A recording apparatus comprising detection means, and control means for controlling the drive means and the pickup means,
The control means controls the driving means so as to rotate the optical recording medium at a predetermined trial writing rotation speed, and controls the pickup means so as to write trial writing information on the optical recording medium. The drive means is controlled to rotate at an inspection speed lower than the trial writing speed, and the pickup means is controlled so as to read the trial writing information written on the optical recording medium, and the pickup means reads the trial writing information. The recording apparatus is characterized in that the output of the light to be irradiated when information is written on the optical recording medium is determined based on the inspection signal output by the detecting means and detected by the detecting means.
[0011]
According to the present invention, when the trial writing information is written on the optical recording medium by the control means, the driving means is controlled to rotate the optical recording medium at a predetermined trial writing rotational speed, and the pickup means Control is performed so that the test writing information is written on the optical recording medium rotating at the rotational speed. When reading the trial writing information written on the optical recording medium, the driving means is controlled to rotate the optical recording medium at an inspection rotational speed lower than the trial writing rotational speed, and the pickup means is written on the optical recording medium. It is controlled to read the written test writing information. The inspection signal output when reading the test writing information of the optical recording medium rotating at the inspection rotation speed lower than the test writing rotation speed is when the test writing information of the optical recording medium rotating at the test writing rotation speed is read. The frequency band is lower than that of the inspection signal output to. Therefore, the detection means may be of a level that can detect a signal in a frequency band about the inspection signal that is output when the test writing information of the optical recording medium that rotates at the inspection rotational speed is read. An inspection signal output when the pickup means reads the trial writing information can be detected with high accuracy. Therefore, it is not necessary to use a detection circuit capable of detecting a signal having a high frequency band, and the manufacturing cost of the recording apparatus can be suppressed.
[0012]
The control means determines the output of light to be irradiated when information is written on the optical recording medium based on the inspection signal. Therefore, by controlling the pickup means so as to irradiate the optical recording medium with the output determined as described above, information can be accurately written on the optical recording medium.
[0013]
Further, the present invention is characterized in that the control means determines the output of the light to be irradiated when writing information on the optical recording medium based on the modulation degree obtained by dividing the amplitude of the inspection signal by the maximum value of the inspection signal. To do.
[0014]
According to the present invention, the output of the light irradiated when writing information on the optical recording medium is determined based on the modulation degree obtained by dividing the amplitude of the inspection signal by the maximum value of the inspection signal. As described above, the modulation degree can be obtained only by the amplitude of the inspection signal and the maximum value of the inspection signal, so that the modulation degree can be obtained easily and at high speed. Can be determined easily and at high speed.
[0015]
According to the present invention, when the test means writes the test writing information on the optical recording medium, the optical recording is performed at the same trial writing rotational speed as the recording rotational speed when the information other than the trial writing information is written on the optical recording medium. When reading the trial writing information of the optical recording medium by controlling the driving means so as to rotate the medium, the optical recording is performed at the inspection rotational speed equal to or lower than the reproduction rotational speed when reading information other than the trial writing information of the optical recording medium. The drive means is controlled to rotate the medium.
[0016]
According to the present invention, the trial writing rotational speed when writing the trial writing information on the optical recording medium is the same as the recording rotational speed when writing information other than the trial writing information on the optical recording medium. As a result, the control of the driving means when writing the test writing information on the optical recording medium can be made the same as the control of the driving means when writing information other than the test writing information on the optical recording medium. Further, the inspection rotation speed when reading the trial writing information of the optical recording medium is equal to or lower than the reproduction rotation speed when reading information other than the trial writing information of the optical recording medium. When the inspection rotational speed is the same as the reproduction rotational speed, the control of the driving means when reading the trial writing information of the optical recording medium is the same as the control of the driving means when reading the information other than the trial writing information of the optical recording medium. Can be. Further, when the inspection rotational speed is less than the reproduction rotational speed, it is easier to control the drive means than when the inspection rotational speed exceeds the reproduction rotational speed. Thus, the control of the driving means by the control means can be facilitated.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing a configuration of a recording / reproducing apparatus 1 according to an embodiment of the present invention. The recording / reproducing apparatus 1 which is a recording apparatus can be added to, for example, a recordable compact disc (Compact Disc-Recordable; abbreviated: CD-R), a rewritable compact disc (Compact Disc-ReWriteable; abbreviated: CD-RW), and additionally recordable. Digital Versatile Disc-Recordable (abbreviation: DVD-R, DVD + R) and a rewritable digital multi-function disc (Digital Versatile Disc-ReWriteRisableDV); ; Abbreviation: DVD-RAM), etc. Information recorded or recorded on an optical recording medium such as a compact disc (abbreviation: CD) and a digital multifunction disc (abbreviation: DVD) in addition to the optical recording medium described above Playback that is reading of. In the present embodiment, the optical disk 50 changes the phase of the recording layer into a crystalline state and an amorphous state by irradiating laser light such as CD-RW, DVD-RW, and DVD-RAM, which can rewrite information. The phase change recording type optical recording medium for recording information.
[0018]
The recording / reproducing apparatus 1 includes a servo circuit block 2, a spindle motor 3, a thread motor 4, an optical pickup unit 5, a signal processing block 6, an RF circuit block 7, a recording circuit 8, and a microcomputer (abbreviation: microcomputer) 9. Is done. In the present embodiment, the driving means is the spindle motor 3, the pickup means is the optical pickup unit 5, the detection means is the RF detection circuit 15, and the control means is the microcomputer 9.
[0019]
The servo circuit block 2 controls the spindle motor 3, the thread motor 4, and the optical pickup unit 5 based on commands from the RF circuit block 7 and the microcomputer 9. The spindle motor 3 is realized by, for example, a DC servo motor, is controlled by the servo circuit block 2, and rotates the optical disc 100 that is detachably mounted on the rotating shaft. The sled motor 4 is realized by, for example, a DC servo motor, is controlled by the servo circuit block 2, and slides and displaces the optical pickup unit 5 in a tracking direction parallel to the radial direction of the optical disk 50 via a drive mechanism.
[0020]
The optical pickup unit 5 irradiates the optical disc 50 with laser light to write information on the optical disc 50 or read information written on the optical disc 50. The optical pickup unit 5 includes a laser diode, an objective lens, a photodiode, an optical system, and an actuator. The laser diode is controlled by the recording circuit 8 and emits laser light based on a modulation signal including information to be written on the optical disc 50. The optical system guides the laser light from the laser diode to the objective lens, and guides the laser light reflected from the optical disk 50 from the objective lens to the photodiode. The objective lens focuses the laser light from the laser diode on the optical disk 50. The actuator is controlled by the servo circuit block 2 and slides and displaces the objective lens in the focusing direction, which is a direction in which the objective lens approaches and moves away from the optical disk 50. The photodiode detects the laser beam reflected by the optical disk 50 and provides an RF signal to the RF circuit block 7.
[0021]
The signal processing block 6 includes an encoder 10, a decoder 11, and an analog / digital converter 12. The encoder 10 is controlled by the microcomputer 9, modulates information to be written on the optical disk 50, generates a modulation signal, and supplies the modulated signal to the recording circuit 8. The decoder 11 is controlled by the microcomputer 9, demodulates the RF signal from the RF circuit block 7, and outputs the information written on the optical disk 50 included in the RF signal. An analog-to-digital (abbreviation: A / D) converter 12 converts a maximum value and a minimum value of a voltage of an RF signal represented by analog data from the RF circuit block 7 into digital data, and performs microcomputer processing. Give to 9.
[0022]
The RF circuit block 7 includes a reproduction circuit 13, an equalizer 14, and an RF detection circuit 15. The reproduction circuit 13 amplifies an RF signal based on the laser beam reflected by the optical disk 50 detected by the photodiode, and supplies the amplified signal to the equalizer 14 and the RF detection circuit 15. An equalizer (abbreviation: EQ) 14 shapes the waveform of the RF signal amplified by the reproduction circuit 13 and supplies the waveform to the decoder 11.
[0023]
FIG. 2 is a graph showing the frequency characteristics of the RF detection circuit 15. The RF detection circuit 15 is realized by, for example, an inexpensive operational amplifier, detects the maximum value and the minimum value of the voltage of the RF signal amplified by the reproduction circuit 13, and supplies the detected value to the signal processing block 6. In the present embodiment, the recording / reproducing apparatus 1 reads information written on the optical disc 50 at a transfer rate of 150 kilobytes per second, which is referred to as 1 × speed or 1 × speed, and at a transfer rate of 300 kilobytes per second, referred to as 2 × speed. The optical disk 50 can be written. Therefore, as shown in FIG. 2, the frequency characteristic of the RF detection circuit 15 is sufficient to read information written on the optical disc 50 at 1 × speed, but is insufficient to read at 2 × speed. Needless to say, the recording / reproducing apparatus 1 can write to the optical disc 50 at a transfer rate of 150 kilobytes per second, which is called 1 × speed.
[0024]
The recording circuit 8 is controlled by the microcomputer 9 and controls the optical pickup unit 5 based on a modulation signal including information to be written on the optical disk 50 from the signal processing block 6.
[0025]
The microcomputer 9 is realized by an arithmetic processing device such as a central processing unit (abbreviation: CPU), and controls the recording / reproducing apparatus 1 in an integrated manner. In the recording / reproducing apparatus 1, when information is recorded on the optical disc 50 at a double speed, the microcomputer 9 performs OPC (Optimum Power Control) in order to obtain an optimum output of the laser beam irradiated when information is written on the optical disc 50. Execute.
[0026]
The microcomputer 9 is configured to write trial writing information to the optical disk 50 at a double speed, specifically the recording rotational speed when writing information other than the trial writing information to the optical disk 50 in the present embodiment. The spindle motor 3 is controlled via the servo circuit block 2 so as to rotate the optical disc 50 at a writable rotational speed. Subsequently, the microcomputer 9 irradiates a trial writing area (Power Calibration Area; abbreviated as PCA) provided on the optical disc 50 with a plurality of different outputs, and writes predetermined trial writing information for each output. As described above, the sled motor 4 and the optical pickup unit 5 are controlled via the recording circuit 8 and the servo circuit block 2. Here, the plurality of outputs may be values that are equally arranged in the order of increasing values, for example, 5 milliwatts, 6 milliwatts, and 7 milliwatts. Such a plurality of outputs may be set based on recording power information recorded in advance for each optical disc 50. When the recording power information is, for example, 6 milliwatts, the above-described plurality of outputs are For example, 5 milliwatts, 5.5 milliwatts, 6.5 milliwatts and 7 milliwatts. As a result, the optimum laser beam output can be obtained when information is actually recorded on the optical disk 50.
[0027]
When writing of test writing information for each output by irradiating the PCA with laser light with a plurality of outputs is completed, the microcomputer 9 has an inspection rotation speed lower than the test writing rotation speed, usually in this embodiment, Servo so as to rotate the optical disk 50 at a rotation speed capable of reading information written on the optical disk 50 at a single speed, specifically, when reading information other than trial writing information on the optical disk 50. The spindle motor 3 is controlled via the circuit block 2. Subsequently, the microcomputer 9 controls the thread motor 4 and the optical pickup unit 5 via the servo circuit block 2 so as to read the written trial writing information by irradiating the PCA of the optical disc 50 with laser light.
[0028]
The optical pickup unit 5 detects the laser beam reflected by the PCA of the optical disc 50 and supplies an inspection signal, which is an RF signal including trial writing information of each output, to the reproduction circuit 13 of the RF circuit block 7. The reproduction circuit 13 of the RF circuit block 7 amplifies the inspection signal from the optical pickup unit 5 and supplies it to the RF detection circuit 15. The RF detection circuit 15 is a maximum value V of the voltage of the RF signal including the trial writing information of each output amplified by the reproduction circuit 13._maxAnd minimum value V_minIs supplied to the A / D converter 12 of the signal processing block 6. The A / D converter 12 of the signal processing block 6 is represented by analog data from the RF detection circuit 15 of the RF circuit block 7 and includes the maximum value V of the voltage of the RF signal including the trial writing information of each output._maxAnd minimum value V_minIs converted into digital data and given to the microcomputer 9.
[0029]
FIG. 3 is a diagram showing an eye pattern of an RF signal given from the optical pickup unit 5 to the RF circuit block 7 when information written on the optical disc 50 is read. In FIG. 3, the horizontal axis represents time, and the vertical axis represents voltage. The modulation degree M is expressed by the following equation (1).
M = I_PP/ I_max                                      ... (1)
[0030]
In formula (1), I_PPRepresents the maximum amplitude of the RF signal and I_maxRepresents the maximum value of the RF signal.
[0031]
The microcomputer 9 corresponds to the output when each test writing information is written, and the maximum value V of the voltage represented by the digital data from the A / D converter 12 of the signal processing block 6._maxAnd minimum value V_minBased on the above, the modulation degree M is obtained. Here, corresponding to the output when each trial writing information is written,
I_max= V_max, I_PP= V_max-V_min
As a result, the degree of modulation M corresponding to each output can be obtained by substituting it into equation (1). Here, since the modulation degree M takes a value of 0 or more and 1 or less, when the modulation degree M is maximum within this range, it is determined that the output of the laser beam is optimal. The modulation degree M at this time may be 0.8 and 0.9, for example. When the modulation degree M is maximum, the RF signal is also maximum. Therefore, the output of the laser beam may be determined so that the RF signal becomes maximum.
[0032]
If the frequency characteristic of the RF detection circuit 15 can detect an RF signal in a high band sufficient to measure at double speed, the value of the detected RF signal will not be lower than the actual value. If the frequency band that can be detected by the RF detection circuit 15 is not sufficient, as shown in FIG. 2, since the gain of the frequency at the point to be measured is lowered, the frequency is measured lower than the actual value. The recording / reproducing apparatus 1 of the present embodiment can obtain the optimum laser beam output at the time of double speed recording even if the frequency band detectable by the RF detection circuit 15 is not sufficient.
[0033]
As described above, according to the recording / reproducing apparatus 1 of the present embodiment, when the trial write information is written on the optical disc 50 by the microcomputer 9, the spindle motor 3 rotates the optical disc 50 at a predetermined trial write rotation speed. Thus, the optical pickup unit 5 is controlled to write the trial writing information on the optical disk 50 rotating at the trial writing rotational speed. When reading the trial writing information written on the optical disc 50, the spindle motor 3 is controlled to rotate the optical disc 50 at an inspection rotational speed lower than the trial writing rotational speed, and the optical pickup unit 5 writes to the optical disc 50. It is controlled to read the written test writing information. The inspection signal output when the test writing information of the optical disk 50 rotating at the inspection rotation speed lower than the test writing rotation speed is read is output when the test writing information of the optical disk 50 rotating at the test writing rotation speed is read. The frequency band is lower than that of the inspection signal. Although the detection of the RF signal including the test writing information requires higher accuracy than the detection of the RF signal including information other than the test writing information, the RF detection circuit 15 of the RF circuit block 7 rotates at the inspection rotational speed. When the test pickup information on the optical disc 50 is read, it is sufficient to detect a signal in a frequency band as high as the inspection signal. When the optical pickup 5 reads the test write information with such an RF detection circuit 15. Can be detected with high accuracy. Therefore, it is not necessary to use a detection circuit capable of detecting a signal having a high frequency band, and the manufacturing cost of the recording / reproducing apparatus 1 can be reduced. Further, the microcomputer 9 determines the output of the laser beam irradiated when writing information on the optical disc 50 based on the inspection signal. Therefore, by controlling the optical pickup unit 5 so as to irradiate the optical disk 50 with laser light with the optimum output determined as described above, information can be written on the optical disk 50 accurately.
[0034]
Further, according to the recording / reproducing apparatus 1 of the present embodiment, the output of the light irradiated when writing information on the optical disc 50 is determined based on the modulation degree M obtained by dividing the amplitude of the inspection signal by the maximum value of the inspection signal. Is done. As described above, the modulation degree M can be obtained only from the amplitude of the inspection signal and the maximum value of the inspection signal. Therefore, the modulation degree M can be obtained easily and at high speed. The optimal output of light can be determined easily and quickly.
[0035]
Further, according to the recording / reproducing apparatus 1 of the present embodiment, the trial writing rotational speed when writing the trial writing information on the optical disc 50 is the same as the recording rotational speed when writing information other than the trial writing information on the optical disc 50. It is. Thereby, the control of the spindle motor 3 when writing the test writing information on the optical disc 50 can be made the same as the control of the spindle motor 50 when writing the information excluding the test writing information on the optical disc 50. The inspection rotation speed when reading the trial writing information on the optical disk 50 is equal to or lower than the reproduction rotation speed when reading information other than the trial writing information on the optical disk 50. When the inspection rotational speed is the same as the reproduction rotational speed, the control of the spindle motor 3 when reading the test writing information on the optical disk 50 is the same as the control of the spindle motor 3 when reading the information other than the test writing information on the optical disk 50. Can be. Further, when the inspection rotational speed is less than the reproduction rotational speed, the spindle motor 3 can be controlled more easily than when the inspection rotational speed exceeds the reproduction rotational speed. Thus, the control of the spindle motor 3 by the microcomputer 9 can be facilitated.
[0036]
In the recording / reproducing apparatus 1 according to the present embodiment, when the microcomputer 9 reads the trial writing information written on the optical disc 50, the microcomputer 9 checks the number of rotations at which the information written on the optical disc 50 can be read at a single speed. As a number, the spindle motor 3 is controlled via the servo circuit block 2 so as to rotate the optical disk 50 at the inspection rotational speed. However, the present invention is not limited to this. The inspection rotational speed when reading the trial writing information written on the optical disc 50 should be lower than the rotational speed at which the trial writing information can be written to the optical disc 50 at the double speed in the present embodiment. The frequency may be changed according to the frequency characteristic of the detection circuit 7. Therefore, the inspection rotational speed may be, for example, a rotational speed at which information written on the optical disk 50 can be read at a transfer rate of 75 kilobytes per second, which is called ½ times speed, and is called ¼ times speed. The rotation speed may be such that information written on the optical disk 50 can be read at a transfer rate of 5 kilobytes per second. Further, the inspection rotational speed may be a rotational speed lower than the rotational speed capable of reading the information written on the optical disc 50 at the transfer speed of 37.5 kilobytes per second. As a result, the inspection signal output when the optical pickup 5 reads the test writing information can be detected with higher accuracy.
[0037]
In the recording / reproducing apparatus 1 of the present embodiment, the optical disk 50 is an optical recording medium of a phase change recording system such as a CD-RW, DVD-RW, and DVD-RAM that can rewrite information. There is no limit. For example, it may be an optical recording medium such as CD-R and DVD-R that can record information by melting the recording layer by irradiating laser light and deforming the substrate.
[0038]
In the recording / reproducing apparatus 1 of the present embodiment, the trial writing information is written in the trial writing area (PCA). However, when the optical disc 50 is a rewritable optical recording medium, the information can be written in the area. If it exists, it may be an area other than PCA.
[0039]
【The invention's effect】
As described above, according to the present invention, the inspection signal output when the test writing information of the optical recording medium rotating at the inspection rotation speed lower than the test writing rotation speed is read is the light rotated at the test writing rotation speed. Since the frequency band is lower than the inspection signal that is output when the trial writing information of the recording medium is read, the detection means is output when the trial writing information of the optical recording medium that rotates at the inspection rotational speed is read. It is sufficient that a signal in a frequency band as high as the inspection signal can be detected. With such a detection means, the inspection signal output when the pickup means reads the test writing information can be detected with high accuracy. Therefore, it is not necessary to use a detection circuit capable of detecting a signal having a high frequency band, and the manufacturing cost of the recording apparatus can be suppressed. Further, since the control means determines the output of the light to be irradiated when writing information on the optical recording medium based on the inspection signal, the control means irradiates the optical recording medium with the output determined as described above. By controlling the pickup means, information can be accurately written on the optical recording medium.
[0040]
Further, according to the present invention, the modulation degree can be obtained only by the amplitude of the inspection signal and the maximum value of the inspection signal, so that the modulation degree can be obtained easily and at high speed, thereby writing information on the optical recording medium. It is possible to easily and quickly determine the output of the light applied to.
[0041]
According to the present invention, the control of the driving means when writing the trial writing information on the optical recording medium can be made the same as the control of the driving means when writing information other than the trial writing information on the optical recording medium. it can. Further, when the inspection rotation speed is the same as the reproduction rotation speed, the control of the driving means when reading the trial writing information of the optical recording medium, the control of the driving means when reading the information other than the trial writing information of the optical recording medium, The same can be done. Further, when the inspection rotational speed is less than the reproduction rotational speed, it is easier to control the drive means than when the inspection rotational speed exceeds the reproduction rotational speed. Thus, the control of the driving means by the control means can be facilitated.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a recording / reproducing apparatus 1 according to an embodiment of the present invention.
FIG. 2 is a graph showing frequency characteristics of the RF detection circuit 15;
FIG. 3 is a diagram showing an eye pattern of an RF signal given from an optical pickup unit 5 to an RF circuit block 7 when information written on an optical disc 50 is read.
[Explanation of symbols]
1 Recording and playback device
3 Spindle motor
5 Optical pickup section
9 Microcomputer

Claims (3)

Driving means for rotating the optical recording medium; pickup means for irradiating the optical recording medium with light to write or read information; and detecting means for detecting a signal output when the pickup means reads the trial writing information; A recording apparatus comprising: control means for controlling the driving means and the pickup means;
The control means controls the driving means so as to rotate the optical recording medium at a predetermined trial writing rotation speed, and controls the pickup means so as to write trial writing information on the optical recording medium. The drive means is controlled to rotate at an inspection speed lower than the trial writing speed, and the pickup means is controlled so as to read the trial writing information written on the optical recording medium, and the pickup means reads the trial writing information. A recording apparatus for determining the output of light to be irradiated when information is written on an optical recording medium, based on an inspection signal that is output when detected and detected by a detecting means. The control means determines an output of light to be irradiated when information is written on the optical recording medium, based on a modulation degree obtained by dividing the amplitude of the inspection signal by the maximum value of the inspection signal. The recording device described. When writing the trial writing information on the optical recording medium, the control means rotates the optical recording medium at the same trial writing rotational speed as the recording rotational speed when writing information other than the trial writing information on the optical recording medium. In the case of reading the trial writing information of the optical recording medium by controlling the driving means, the optical recording medium is rotated at an inspection rotational speed equal to or lower than the reproduction rotational speed when reading information other than the trial writing information of the optical recording medium. 3. The recording apparatus according to claim 1, wherein the driving unit is controlled.

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