JP2007087560A - Disk reproducing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable preventing dispersion of the number of rotations for each spindle motor when the prescribed drive voltage is applied without using an FG signal for detecting rotation of the spindle motor rotating an optical disk, and to enable shortening a rise time of rotation of the spindle motor. <P>SOLUTION: The optical disk is rotated by applying constant drive voltage to the spindle motor, the length of the longest bit in an EFM signal on information data reproduced from the optical disk is measured, based on a reference clock, the number of rotations of the optical disk is calculated from the measured length of the longest bit, gain of a motor drive IC is set in accordance with the calculated number of rotations of the optical disk, based on correlation of drive voltage of the spindle motor and the number of rotations of the optical disk, at the time of rise of rotation of the spindle motor, the largest drive voltage is applied to the spindle motor to rotate the spindle motor. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention relates to a disk reproducing apparatus that reproduces information data recorded on an optical disk, and more particularly, to a disk reproducing apparatus that can suppress variations in the starting characteristics and rotation speed of a spindle motor that rotates an optical disk. .

In general, a spindle motor that rotates an optical disc has a variation in rotational characteristics among spindle motors, a variation in output characteristics among motor drivers, a variation in mass of the optical disc, and the like. The time required to reach the number of revolutions varies from spindle motor to spindle motor, or when a predetermined drive voltage is applied, the number of revolutions varies from spindle motor to spindle motor. Therefore, in order to control the rotation speed of the spindle motor, the rotation speed of the spindle motor is controlled by detecting the rotation speed of the spindle motor based on an FG (Frequency Generator) signal generated by the rotation of the spindle motor. However, in order to control the rotation speed of the spindle motor based on the FG signal, an FG device that generates the FG signal must be used, and there is a problem in that the product cost of the disk reproducing device cannot be reduced.
As a background art, when the longest bit length of an optical disc is within the reference time range, the spindle motor is servo-controlled by a control output generated according to a synchronization signal detected from the optical disc, and the longest bit length of the optical disc is the reference time. If it is out of the range, the spindle motor is servo-controlled by a control output generated in response to detection of the longest bit length of the optical disk (for example, see Patent Document 1).
Also, the frame sync bit length in the signal read from the optical disc is counted to obtain the difference between the frame sync count value and the frame sync reference count value at the specified linear velocity, and a pulse proportional to the difference value. There has been one in which the rotation of the spindle motor is controlled by converting the width pulse signal into a speed error signal in which the voltage smoothly changes in accordance with the deviation from the specified linear velocity (see, for example, Patent Document 2).
Also, the disc playback signal is binarized using a clock with a constant frequency, the binarized playback signal is sampled, and the sample mark length in which the same sample value in the sample value is continuous is obtained. There was one that measured and calculated the linear velocity of the disk based on the measured sample mark length and the mark length recorded on the disk to control the rotation of the spindle motor (for example, Patent Documents) 3).
Japanese Unexamined Patent Publication No. 63-178783 JP-A-6-52629 JP 2000-164735 A

However, in the first one described in the background art, when the longest bit length of the optical disk is within the reference time range, the spindle motor is servo-controlled by the control output generated according to the synchronization signal detected from the optical disk. When the longest bit length of the optical disc is outside the reference time range, the spindle motor can be servo-controlled by the control output generated in response to detection of the longest bit length of the optical disc. The spindle motor rotation is servo-controlled by the control output generated according to the detection of the longest bit length. When the spindle motor rotation is started, the spindle motor rotation is started at a high speed, and the spindle It was not designed to shorten the startup time of motor rotation.
In the following, the frame sync bit length in the signal read from the optical disc is counted, and the difference between the frame sync count value and the frame sync reference count value at the specified linear velocity is obtained. It was possible to control the rotation of the spindle motor by converting a pulse signal with a pulse width proportional to the difference value into a speed error signal in which the voltage changes smoothly according to the deviation from the specified linear speed. The rotation of the spindle motor is roughly servo-controlled by a speed error signal in which the voltage changes smoothly according to the deviation of the spindle, and the spindle motor can be rotated at a high speed when starting up the spindle motor. It was not designed to shorten the startup time of spindle motor rotation.
Further, in the next one, the reproduction signal of the disk is binarized using a clock having a constant frequency, the binarized reproduction signal is sampled, and the same sample value in the sample value is obtained. Measure the sample mark length of the continuous part and calculate the linear velocity of the disc based on the measured sample mark length and the mark length recorded on the disc to control the rotation of the spindle motor However, the rotation control system of the spindle motor is made less susceptible to burst errors and random errors, and does not solve the above problems.
The present invention has been made in view of such problems of the background art, and an object of the present invention is to perform predetermined processing without using an FG signal for detecting the rotation of a spindle motor that rotates an optical disk. It is an object of the present invention to provide a disk reproducing apparatus that can eliminate variations in the number of rotations of each spindle motor when a driving voltage is applied, and can shorten the startup time of the rotation of the spindle motor.

In order to achieve the above object, in the present invention, a disk reproducing apparatus for reproducing information data recorded on an optical disk, the first rotation control means for rotating the optical disk by applying a constant driving voltage to a spindle motor; Measuring means for measuring the longest bit length in the EFM signal of information data reproduced from the optical disk based on a reference clock, calculating means for calculating the rotational speed of the optical disk from the longest bit length measured by the measuring means, and a spindle Setting means for setting the gain of the motor drive IC according to the rotation speed of the optical disk calculated by the calculation means based on the correlation between the motor drive voltage and the rotation speed of the optical disk.
Furthermore, when the reproduction of the optical disk is started, a second rotation control means for applying a maximum drive voltage to rotate the spindle motor, and when the rotation speed of the optical disk calculated by the calculation means reaches a substantially predetermined rotation speed, Drive voltage changing means for reducing the drive voltage of the motor to a predetermined voltage.
Further, if the rotation speed of the optical disk does not reach the predetermined rotation speed after the drive voltage of the spindle motor is lowered to the predetermined voltage by the drive voltage changing means, the rotation speed of the optical disk calculated by the calculation means is Adjustment means for adjusting the drive voltage of the spindle motor is provided.
By these means, it is possible to eliminate variations in the number of rotations for each spindle motor when a predetermined drive voltage is applied, without using an FG signal for detecting the rotation of the spindle motor that rotates the optical disk, and also for the spindle motor. The rotation start-up time can be shortened.

According to the disk reproducing apparatus of the first aspect, the optical disk is rotated by applying a constant driving voltage to the spindle motor, and the longest bit length in the EFM signal of the information data reproduced from the optical disk is based on the reference clock. The rotational speed of the optical disk is calculated from the measured longest bit length, and the motor drive IC is calculated according to the calculated rotational speed of the optical disk based on the correlation between the drive voltage of the spindle motor and the rotational speed of the optical disk. Therefore, without using the FG signal for detecting the rotation of the spindle motor that rotates the optical disk, the variation in characteristics of the motor drive ICs of the spindle motor and the spindle servo circuit and the mass of the optical disk It is possible to improve the variation of the startup characteristics of the spindle motor due to the variation. Come, it is possible to eliminate variations in the rotational speed of each spindle motor upon application of the predetermined drive voltage. At the start of optical disk reproduction, the spindle motor is rotated by applying the maximum drive voltage. When the calculated rotation speed of the optical disk reaches a substantially predetermined rotation speed, the spindle motor drive voltage is reduced to the predetermined voltage, and the spindle motor is rotated. If the rotation speed of the optical disk does not reach the predetermined rotation speed after the motor drive voltage is lowered to the predetermined voltage, the spindle motor drive voltage is adjusted according to the calculated rotation speed of the optical disk. When the rotation speed of the motor can be shortened and the rotation speed of the optical disk does not reach the predetermined rotation speed when a predetermined drive voltage is applied, the drive voltage is adjusted to rotate the spindle motor at the predetermined rotation speed. Can do.
According to the disk reproducing apparatus of the second aspect, the optical disk is rotated by applying a constant driving voltage to the spindle motor, and the longest bit length in the EFM signal of the information data reproduced from the optical disk is based on the reference clock. The rotational speed of the optical disk is calculated from the measured longest bit length, and the motor drive IC is calculated according to the calculated rotational speed of the optical disk based on the correlation between the drive voltage of the spindle motor and the rotational speed of the optical disk. Therefore, without using the FG signal for detecting the rotation of the spindle motor that rotates the optical disk, the variation in characteristics of the motor drive ICs of the spindle motor and the spindle servo circuit and the mass of the optical disk It is possible to improve the variation of the startup characteristics of the spindle motor due to the variation. Come, it is possible to eliminate variations in the rotational speed of each spindle motor upon application of the predetermined drive voltage.
According to the disk reproducing apparatus of the third aspect of the invention, when the reproduction of the optical disk is started, the spindle motor is rotated by applying the maximum drive voltage, and the calculated rotation speed of the optical disk reaches a substantially predetermined rotation speed. Since the spindle motor drive voltage is lowered to a predetermined voltage, the spindle motor rotation start-up time can be shortened.
According to the disk reproducing apparatus of the fourth aspect of the present invention, when the rotation speed of the optical disk does not reach the predetermined rotation speed after the drive voltage of the spindle motor is lowered to the predetermined voltage, the calculated disk rotation speed is changed. Since the drive voltage of the spindle motor is adjusted, if the rotation speed of the optical disc does not reach the predetermined rotation speed when the predetermined drive voltage is applied, the drive voltage is adjusted to rotate the spindle motor at the predetermined rotation speed. be able to.

Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings as appropriate. FIG. 1 is a block diagram showing a configuration of a disk reproducing apparatus according to an embodiment of the present invention, FIG. 2 is a diagram showing a longest bit signal in an EFM signal of a reproduced signal, and FIG. 3 is an embodiment of the present invention. FIG. 4 is a flowchart showing the operation of the disk reproducing apparatus according to the embodiment of the present invention. FIG. 5 shows the operation of the disk reproducing apparatus according to the embodiment of the present invention. It is a flowchart to show.
First, a description will be given based on a block diagram showing a configuration of a disk reproducing apparatus according to an embodiment of the present invention shown in FIG.
The disc reproducing apparatus 1 irradiates a recording surface of an optical disc 2 with laser light, detects the reflected light, reads an information data recorded on the optical disc 2, a spindle motor 4 that rotates the optical disc 2, A spindle servo circuit 5 that servo-controls the rotation speed of the optical disk 2 by driving the spindle motor 4 by the motor drive IC 5a, a thread motor 6 that moves the optical pickup 3 in the radial direction of the optical disk 2, and the rotation direction of the thread motor 6 A sled servo circuit 7 that servo-controls the rotation speed, a tracking servo circuit 8 that servo-controls tracking of the optical pickup 3 based on a tracking error signal detected by the optical pickup 3, and a focus that is detected by the optical pickup 3. Based on the error signal, A focus servo circuit 9 that servo-controls the focus of the pickup 3, an RF amplifier circuit 10 that amplifies an RF (Radio Frequency) signal of information data read by the optical pickup 3, and information data amplified by the RF amplifier circuit 10 The RF signal is synchronously detected and demodulated based on the reference clock, the error of the demodulated information data is corrected, and the compressed information data is decompressed and decoded based on a predetermined compression method. The signal processing circuit 11 for reproducing the recorded information data, and the longest bit length 11T (T: period of the recording bit in the EFM (Eight to Four Modulation) signal of the information data reproduced by the signal processing circuit 11. See FIG. ) Is measured based on the reference clock, and the disk A microcomputer 13 for controlling the entire system of the apparatus 1 receives a remote control signal of an infrared signal transmitted from the remote control device 20, and a remote control receiving unit 14 for converting into a predetermined electric signal.
The operation of the disk reproducing apparatus configured as described above will be described below.
When the optical disk 2 is loaded into the disk reproducing apparatus 1, the microcomputer 13 sends a control signal to the sled servo circuit 7 to rotate the sled motor 6 and move the optical pickup 3 to the rezero position of the optical disk 2. When the optical pickup 3 moves to the rezero position, the microcomputer 13 sends a control signal to the spindle servo circuit 5, applies a constant drive voltage to the spindle motor 4, rotates the spindle motor 4, and controls the focus servo circuit 9. A signal is sent, the focus servo of the optical pickup 3 is turned on, the information data recorded on the optical disc 2 is read by the optical pickup 3, the information data is reproduced by the signal processing circuit 11, and the EFM of the reproduced information data The longest bit length 11T (see FIG. 2) in the signal is measured by the counter 12 based on the reference clock.
Then, it is determined whether or not the optical disk 2 has rotated a predetermined amount, for example, one rotation, and when the optical disk 2 rotates a predetermined amount, the microcomputer 13 rotates the optical disk 2 from the longest bit length 11T measured by the counter 12. And the gain of the motor drive IC 5a of the spindle servo circuit 5 is set according to the calculated rotation speed of the optical disk 2 based on the correlation between the drive voltage of the spindle motor 4 and the rotation speed of the optical disk 2. As a result, it is possible to improve variations in the spindle motor and spindle servo circuit motor drive IC characteristics and optical disk mass variation due to variations in the spindle motor rise characteristics, and each spindle motor when a predetermined drive voltage is applied. It is possible to eliminate variations in the number of rotations.
When the reproduction of the optical disk 2 is instructed by the key operation of the remote controller 20, the microcomputer 13 sends a control signal to the spindle servo circuit 5, applies the maximum drive voltage V1, and rotates the spindle motor 4 ( 3 (a)), a control signal is sent to the tracking servo circuit 8 and the focus servo circuit 9, the tracking servo and the focus servo of the optical pickup 3 are turned on, and the optical pickup 3 records on the optical disc 2 The information data is read out, the information data is reproduced by the signal processing circuit 11, the longest bit length 11T in the EFM signal of the reproduced information data is measured by the counter 12 based on the reference clock, and measured by the counter 12. The rotational speed of the optical disk 2 is calculated from the longest bit length 11T, and the rotational speed of the optical disk 2 is When the rotation speed reaches a predetermined rotation speed R1, for example, 90% to 95% of the predetermined rotation speed R2 (see FIG. 3B), a control signal is sent to the spindle servo circuit 5 to cause the optical disk 2 to move to the predetermined rotation speed R1. The drive voltage of the spindle motor 4 is lowered to the predetermined voltage V2 to be rotated at (see FIG. 3A).
If the rotational speed of the optical disk 2 does not reach the predetermined rotational speed R2 after the drive voltage of the spindle motor 4 is lowered to the predetermined voltage V2, the microcomputer 13 sends a control signal to the spindle servo circuit 5 and is measured by the counter 12. The drive voltage of the spindle motor is adjusted according to the rotational speed of the optical disk 2 calculated from the longest bit length 11T. When the rotational speed of the optical disk 2 reaches the predetermined rotational speed R2, the microcomputer 13 reads out the information data recorded on the optical disk 2 by the optical pickup 3 and reproduces the information data recorded on the optical disk 2. As a result, at the time of reproducing the optical disk, the maximum drive voltage is applied to the spindle motor so that the rotation of the spindle motor is started at a high speed. Therefore, the time for starting the rotation of the spindle motor can be shortened.
The operation will be described with reference to the flowchart of FIG. 4 showing the operation of the disk reproducing apparatus according to the embodiment of the present invention.
When the optical disk is loaded on the disk reproducing apparatus, the process proceeds from step S1 to step S2, and in step S2, the optical pickup is moved to the rezero position of the optical disk, and the process proceeds to step S3.
In step S3, it is determined whether or not the optical pickup has moved to the rezero position. If the optical pickup has moved to the rezero position, the process proceeds to step S4. If the optical pickup has not moved to the rezero position, the process returns to step S2. Then, the steps from step S2 are repeated.
In step S4, a constant drive voltage is applied to the spindle motor to rotate the spindle motor, and the process proceeds to step S5.
In step S5, the focus servo is turned on, the longest bit length in the EFM signal of the information data reproduced from the optical disc is measured based on the reference clock, and the process proceeds to step S6.
In step S6, it is determined whether or not the optical disk has been rotated by a predetermined amount. If the optical disk has rotated by a predetermined amount, the process proceeds to step S7. If the optical disk has not been rotated by a predetermined amount, the process returns to step S5, and from step S5. Repeat steps.
In step S7, the rotation speed of the optical disk is calculated from the measured longest bit length, and the spindle servo circuit is set according to the calculated rotation speed of the optical disk based on the correlation between the drive voltage of the spindle motor and the rotation speed of the optical disk. The gain of the motor drive IC is set, and the process proceeds to step S8 to end the process.
The operation will be described with reference to the flowchart of FIG. 5 showing the operation of the disk reproducing apparatus according to the embodiment of the present invention.
When the reproduction of the optical disk is instructed by the key operation of the remote control device, the process proceeds from step S11 to step S12. In step S12, the maximum drive voltage is applied to the spindle motor, the spindle motor is rotated, and the process proceeds to step S13.
In step S13, the longest bit length in the EFM signal of the information data reproduced from the optical disk is measured based on the reference clock, and the rotational speed of the optical disk is calculated from the measured longest bit length, and the process proceeds to step S14.
In step S14, it is determined whether or not the rotational speed of the optical disk has reached a substantially predetermined rotational speed. If the rotational speed of the optical disk has reached a substantially predetermined rotational speed, the process proceeds to step S15, where the rotational speed of the optical disk is approximately the predetermined rotational speed. If not, the process returns to step S13 to repeat the steps from step S13.
In step S15, the drive voltage of the spindle motor is lowered to a predetermined voltage for rotating the optical disc at a predetermined number of revolutions, and the process proceeds to step S16.
In step S16, the longest bit length in the EFM signal of the information data reproduced from the optical disk is measured based on the reference clock, and the rotational speed of the optical disk is calculated from the measured longest bit length, and the process proceeds to step S17.
In step S17, it is determined whether or not the rotational speed of the optical disk has reached a predetermined rotational speed. If the rotational speed of the optical disk has reached a predetermined rotational speed, the process proceeds to step S19, and the rotational speed of the optical disk does not reach the predetermined rotational speed. The process proceeds to step S18.
In step S18, the spindle motor drive voltage is adjusted according to the rotational speed of the optical disk calculated from the longest bit length, and the process proceeds to step S19.
In step S19, the information data recorded on the optical disk is read out by the optical pickup, and the information data recorded on the optical disk is reproduced, and the process proceeds to step S20 and the process is terminated.
Although the best mode for carrying out the present invention has been described in detail above, the present invention is not limited to this, and modifications and improvements can be made within the ordinary knowledge of those skilled in the art. Needless to say. For example, the longest bit signal in the EFM signal is measured to calculate the rotation speed of the optical disk and the rotation of the spindle motor is controlled. However, the wobble signal and land pre-pit signal recorded in advance on the optical disk are measured. Thus, the rotation speed of the optical disk may be calculated to control the rotation of the spindle motor.

It is a block diagram which shows the structure of the disc reproducing | regenerating apparatus of one Example of this invention. It is a figure which shows the longest bit signal in the EFM signal of a reproduction signal. It is explanatory drawing which shows operation | movement of the disc reproducing | regenerating apparatus of one Example of this invention. It is a flowchart which shows operation | movement of the disc reproducing | regenerating apparatus of one Example of this invention. It is a flowchart which shows operation | movement of the disc reproducing | regenerating apparatus of one Example of this invention.

Explanation of symbols

1 Disc player 2 Optical disc 3 Optical pickup 4 Spindle motor 5 Spindle servo circuit 5a Motor drive IC
6 Thread motor 7 Thread servo circuit 8 Tracking servo circuit 9 Focus servo circuit 10 RF amplifier circuit 11 Signal processing circuit 12 Counter 13 Microcomputer 14 Remote control receiver 20 Remote control device

Claims (4)

A disc playback device for playing back information data recorded on an optical disc,
A first rotation control means for rotating the optical disk by applying a constant drive voltage to the spindle motor; a measuring means for measuring the longest bit length in the EFM signal of information data reproduced from the optical disk based on a reference clock; Based on the correlation between the drive speed of the spindle motor and the rotation speed of the optical disk, the calculation means for calculating the rotation speed of the optical disk from the longest bit length measured by the measurement means, and the rotation speed of the optical disk calculated by the calculation means Accordingly, setting means for setting the gain of the motor drive IC, second rotation control means for rotating the spindle motor by applying a maximum drive voltage at the start of reproduction of the optical disk, and rotation of the optical disk calculated by the calculation means When the number reaches approximately the predetermined number of rotations, the drive voltage change that lowers the drive voltage of the spindle motor to the predetermined voltage. And when the rotation speed of the optical disk does not reach a predetermined rotation speed after the drive voltage of the spindle motor has been lowered to a predetermined voltage by the drive voltage changing means, the spindle according to the rotation speed of the optical disk calculated by the calculation means An apparatus for adjusting a drive voltage of a motor, comprising: an adjusting means for adjusting the drive voltage of the motor. A disc playback device for playing back information data recorded on an optical disc,
A first rotation control means for rotating the optical disk by applying a constant drive voltage to the spindle motor; a measuring means for measuring the longest bit length in the EFM signal of information data reproduced from the optical disk based on a reference clock; Based on the correlation between the drive speed of the spindle motor and the rotation speed of the optical disk, the calculation means for calculating the rotation speed of the optical disk from the longest bit length measured by the measurement means, and the rotation speed of the optical disk calculated by the calculation means And a setting means for setting the gain of the motor drive IC in response. When the reproduction of the optical disk starts, the second rotation control means for applying the maximum drive voltage to rotate the spindle motor, and when the rotation speed of the optical disk calculated by the calculation means reaches a substantially predetermined rotation speed, 3. The disk reproducing apparatus according to claim 2, further comprising drive voltage changing means for reducing the drive voltage to a predetermined voltage. After the drive voltage of the spindle motor is lowered to a predetermined voltage by the drive voltage changing means, if the rotation speed of the optical disk does not reach the predetermined rotation speed, the spindle motor is driven according to the rotation speed of the optical disk calculated by the calculation means. 4. The disc reproducing apparatus according to claim 3, further comprising adjusting means for adjusting the voltage.

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