JP2004062932A - Optical disk reproducing device and optical disk reproducing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an optical disk reproducing device in which electric power consumption is further reduced from the case of a conventional intermittent driving reproducing process and an extension is made for a continuous reproducing operation time. <P>SOLUTION: A system controlling means 111 stops a data reproducing from an optical disk 101 and releases a motor control means 110 when a memory remaining amount of a buffer memory 106 exceeds a first threshold. When the memory remaining amount becomes less than a second threshold that is less than the first threshold, a prescribed voltage is applied to the means 110 by the means 111 and a rotational operation of a motor 109 is restarted with a lower revolving speed than the speed during a data reproducing. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an optical disk reproducing apparatus and an optical disk reproducing method for a CD (compact disk), an MD (mini disk) or the like, and more particularly to an optical disk reproducing apparatus and an optical disk reproducing method useful for a portable apparatus for reducing power consumption.
[0002]
[Prior art]
In recent years, optical disks typified by CDs and MDs have been favored by random access, high sound quality by digital signal processing, and no deterioration in sound quality even after long-term use. Widespread. In these optical disk reproducing apparatuses, particularly, portable reproducing apparatuses, a battery is a main power source. Therefore, power saving is an important point when developing a portable optical disk reproducing apparatus.
[0003]
2. Description of the Related Art Conventionally, as a power saving technique in a portable optical disk reproducing apparatus, a reduction in circuit scale due to circuit integration, a reduction in a circuit operating voltage, and the like have been developed, and a long reproducing operation has been attempted.
[0004]
For example, in a CD, the rotation speed of the optical disk is controlled so that the amount of data to be processed and output is smaller than the amount of data reproduced from the optical disk, and the reproduced data is stored in a temporary memory. The audio signal is reproduced by reading the data at a constant speed. While sufficient data is stored in the memory, there is no need to newly reproduce data from the optical disk, and the circuit for reproducing data from the optical disk can be stopped. Further, when the amount of data stored in the memory decreases, the data is newly reproduced from the optical disk and the storage in the memory is restarted.
[0005]
According to such an intermittent drive reproduction process in which the data reproduction operation is repeatedly stopped and started, redundant operations of the reproduction circuit are reduced, and power saving of the optical disk reproduction device can be achieved. A conventional optical disk reproducing apparatus according to the following processing will be described with reference to the drawings.
[0006]
FIG. 4 is a block diagram showing a schematic configuration of a conventional optical disc reproducing apparatus that performs an intermittent drive reproduction process. The optical pickup 202 condenses laser light by an objective lens (not shown) and reads a signal from the optical disk 201. The RF unit 203 performs signal processing on the signal read by the optical pickup 202, and outputs a focus error signal and a tracking error signal, which are position error signals for controlling the position of the optical pickup 202, to the servo unit 208. Then, a signal for transmitting main information such as an audio signal of the optical disk 201 is output to the signal processing unit 204.
[0007]
The focus error signal is a signal indicating a position error between the focal point of the laser beam and the recording surface of the optical disk 201, and the tracking error signal is a position error between the focal point of the laser beam and the recording track on the recording surface of the optical disk 201. Is a signal indicating the above. The servo unit 208 controls the position of an objective lens (not shown) perpendicular to the recording surface of the optical disc 201 based on the focus error signal to focus the laser beam on the optical disc surface, and further, based on the tracking error signal. The position of an objective lens (not shown) is controlled horizontally with respect to the recording track of the optical disc 201 so that the focal point of the laser beam follows the recording track.
[0008]
The signal processing unit 204 performs digital signal processing on the input signal and outputs audio data. The audio data is temporarily stored in a RAM (random access memory) 206 via a memory processing unit 205. Thereafter, the stored audio data is read out again via the memory control unit 205 in response to a request from the system control unit 211, and is converted into the original analog audio signal via the audio processing unit 207. The spindle motor 209 rotates the optical disc 201 under the control of the spindle motor drive circuit 210. The spindle motor drive circuit 210 adjusts the rotation speed of the optical disk 201 according to a request from the system control unit 211, and performs control so that the reproduction speed of data from the optical disk 201 becomes constant.
[0009]
Here, detailed operations of the memory processing unit 205 and the system control unit 211, which are the core of the intermittent drive reproduction process, will be described. Generally, in the case of uncompressed recording data such as a CD, the transmission speed of data input from the signal processing unit 204 to the RAM 206 via the memory processing unit 205 is higher than that of the audio processing from the RAM 206 via the memory processing unit 205. Control is performed so as to be faster than the transmission speed of the data output to the unit 207. That is, the spindle motor drive circuit 210 is controlled by a request from the system control unit 211, and the reproduction speed from the optical disk 201 is maintained higher than the output reproduction speed of the audio processing unit 207.
[0010]
In the RAM 206, the input from the signal processing unit 204 is larger than the output to the audio processing unit 207, but since the capacity of the RAM 206 is limited, the RAM 206 accumulates the signal from the signal processing unit 204 over time. Cannot be performed (hereinafter, referred to as overflow). On the other hand, if a period during which no signal is input from the signal processing unit 204 continues, the number of signals stored in the RAM 206 decreases, and there is a shortage of signals that must be output to the audio processing unit 207 without interruption. Underflow).
[0011]
When the RAM 206 is in an overflow or underflow state, the signal is not correctly transmitted to the audio processing unit 207, and the audio signal is interrupted or stopped. For this reason, the system control unit 211 monitors the remaining amount of memory in the RAM 206 via the memory control unit 205, stops the reproduction when the overflow occurs, and starts the reproduction when the value falls below a predetermined threshold. The reproduction is stopped by stopping the RF unit 203, the servo unit 208, and the signal processing unit 204 at the request of the system control unit 211, and the memory processing unit 205 performs only data reading from the RAM 206, Output to the audio processing unit 207. While the reproduction is stopped, the spindle motor drive circuit 210 reduces the rotation speed of the optical disc 201 to approximately the same as the rotation speed at the start of the reproduction. As a result, an increase in the motor starting current when the regeneration is started after the regeneration is stopped is reduced. As described above, the system control unit 211 performs control such that the remaining amount of the memory of the RAM 206 is maintained between the overflow and the predetermined threshold.
[0012]
In the above processing, while the optical disc 201 is not reproduced, the RF unit 203, the signal processing unit 204, and the servo unit 208 are stopped, so that redundant power consumption is suppressed. Further, by maintaining the rotation of the spindle motor 209, an increase in the motor starting current at the time of starting reproduction is reduced, and power consumption is suppressed.
[0013]
[Problems to be solved by the invention]
However, although the spindle motor 209 at the time of stopping the reproduction of the optical disc is at a lower speed than at the time of the reproduction, it is still rotating at substantially the same number of revolutions as at the time of the start of the reproduction. .
[0014]
Therefore, the present invention has been made in view of the above problems, and provides an optical disk reproducing apparatus and an optical disk reproducing method capable of further reducing the power consumption and extending the continuous reproduction operation time as compared with the conventional intermittent drive reproduction processing. The purpose is to do.
[0015]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, an optical disk reproducing apparatus according to claim 1 comprises a data reproducing unit for reproducing data recorded on an optical disk, a buffer memory for temporarily storing reproduced data, and a temporarily stored data. Original signal reproducing means for reading the original signal and reproducing the original signal, memory remaining amount monitoring means for monitoring the remaining memory amount which is the data storage amount in the buffer memory, and motor control means for controlling a motor for rotating the optical disk. An optical disk reproducing apparatus comprising: a system control unit that controls operation of data reproduction in accordance with a monitoring state of the memory remaining amount monitoring unit. If the threshold value is exceeded, stop data reproduction from the optical disc and release the motor control means, When the remaining amount of the memory is lower than a second threshold lower than the first threshold, a predetermined voltage is applied to the motor control means to restart the rotation of the motor at a lower rotation speed than during data reproduction. Features.
[0016]
According to the above configuration, by opening the motor control means when data reproduction is stopped, redundant reproduction operation due to rotation of the motor is reduced, and power consumption can be reduced.
[0017]
Also, the optical disk reproducing apparatus according to claim 2, further comprising a reproducing speed switching means for controlling a writing speed to the buffer memory in the optical disk reproducing apparatus according to claim 1, After the first arbitrary time has elapsed, the system control means resumes data reproduction from the optical disc, and at the same time, the reproduction speed switching means starts writing to the buffer memory on a low speed side, and when the data reproduction is resumed, After a lapse of a second arbitrary time from, the reproduction speed switching means switches the writing speed to the buffer memory to a high speed side.
[0018]
According to the above configuration, by reducing the reproduction speed at the time of resuming the reproduction, an increase in the starting current immediately after the resumption of the reproduction is suppressed, and the power consumption can be reduced.
[0019]
Also, in the optical disk reproducing method according to the third aspect, a data reproducing means for reproducing data recorded on the optical disk, a buffer memory for temporarily storing the reproduced data, and a method for reading the temporarily stored data and reading the original signal. An original signal reproducing means for reproducing, a memory remaining amount monitoring means for monitoring a remaining memory amount as an amount of data stored in the buffer memory, a motor control means for controlling a motor for rotating the optical disk, and the memory remaining amount monitoring An optical disk reproducing method for an optical disk reproducing apparatus comprising: a system control unit that controls an operation of data reproduction according to a monitoring state of the unit, wherein the remaining amount of memory in the buffer memory exceeds an arbitrary first threshold. Stopping the data reproduction from the optical disc and releasing the motor control means; Restarting the rotation of the motor at a lower rotation speed than at the time of data reproduction when the remaining memory capacity is lower than an arbitrary second threshold value lower than the arbitrary first threshold value. .
[0020]
According to the above configuration, by opening the motor control means when data reproduction is stopped, redundant reproduction operation due to rotation of the motor is reduced, and power consumption can be reduced.
[0021]
An optical disk reproducing method according to a fourth aspect of the present invention is the optical disk reproducing method according to the third aspect, wherein the data reproduction from the optical disk is restarted after a first arbitrary time has elapsed since the rotation of the motor restarted. Simultaneously starting the writing to the buffer memory on the low speed side, and switching the writing speed to the buffer memory to the high speed side after a lapse of a second arbitrary time from the restart of the data reproduction. It is characterized by the following.
[0022]
According to the above configuration, by reducing the reproduction speed at the time of resuming the reproduction, an increase in the starting current immediately after the resumption of the reproduction is suppressed, and the power consumption can be reduced.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0024]
FIG. 1 is a block diagram showing a schematic configuration of an optical disk reproducing device according to an embodiment of the present invention. An optical disc reproducing apparatus according to an embodiment of the present invention collects laser light by an objective lens (not shown) and reads a signal from the optical disc 101, and performs signal processing on the signal read by the optical pickup 102. An RF unit 103 for outputting a focus error signal and a tracking error signal, which are position error signals for controlling the position of the optical pickup 102, and a signal processing unit 104 for digitally processing a signal from the RF unit 103 and outputting audio data. A memory processing unit 105 that receives an output from the signal processing unit 104 to read and write data in a RAM 106; a RAM 106 that is a buffer memory; and converts audio data output through the memory processing unit 105 into an original analog audio signal. Voice processing unit 10 for conversion A servo unit 108 for controlling the position of the optical pickup 102 in response to the output of the RF unit 103, a spindle motor 109 for rotating the optical disc 101, a spindle motor drive circuit 110 for controlling the rotation drive of the spindle motor 109, a memory processing unit 105, The system includes a system control unit 111 for controlling the entire optical disc reproducing apparatus, such as a spindle motor drive circuit 110, a reproducing speed switching unit 112, and a memory remaining amount monitoring unit 113.
[0025]
The optical disk 101, optical pickup 102, RF unit 103, signal processing unit 104, memory processing unit 105, RAM 106, audio processing unit 107, servo unit 108, spindle motor 109, and spindle motor drive circuit 110 The description of the function and operation is omitted because it is the same.
[0026]
In FIG. 1, a reproduction speed switching unit 112 controls switching of the reproduction speed of the optical disc 101, and controls a transmission speed of data input from the signal processing unit 104 to the RAM 106 via the memory processing unit 105. Further, the memory remaining amount monitoring unit 113 monitors the remaining memory amount, which is the amount of buffer memory stored in the RAM 106. Further, the system control unit 111 controls the memory processing unit 105 and the spindle motor drive circuit 110 in response to a request from the reproduction speed switching unit 112 and the memory remaining amount monitoring unit 113.
[0027]
Next, FIG. 2 is a timing chart showing a control operation of the optical disc reproducing apparatus according to the embodiment of the present invention.
[0028]
Section 1 is a section in which data reproduced from the optical disc 101 via the optical pickup 102 is accumulated in the RAM 106 and the remaining memory is increasing. The RF section 103, the signal processing section 104, and the servo section 108 All are in operation. In this section, the amount of data stored in the RAM 106 from the signal processing unit 104 via the memory processing unit 105 is larger than the amount of data output from the RAM 106 to the audio processing unit 107 via the memory processing unit 105. In response to the request from the reproduction speed switching unit 112 to the system control unit 111, the system control unit 111 controls the spindle motor drive circuit 110 according to the request, and sets the rotation speed of the spindle motor 109 to be high. I do.
[0029]
In this section, the memory remaining amount monitoring unit 113 monitors the overflow of the RAM 106, and transitions to the section 2 when the first threshold immediately before the overflow is reached.
[0030]
Section 2 is a section in which data reproduction from the optical disc 101 is stopped, and at the same time, the rotation control of the spindle motor 109 performed by the spindle motor drive circuit 110 is released. The RF section 103, the signal processing section 104, and the servo section 108 Is stopped. At that time, the rotation speed of the spindle motor 110 gradually decreases due to shaft loss or windage loss of the motor. Also in this section, data is output from the RAM 106 to the audio processing unit 107 via the memory processing unit 105, and the remaining memory capacity of the RAM 106 decreases with time.
[0031]
In this section, the remaining memory amount monitoring unit 113 compares the remaining memory amount of the RAM 106 with the second threshold value, and transitions to the third section when the remaining memory amount falls below the second threshold value.
[0032]
Section 3 is a section in which the system control unit 111 restarts the rotation of the spindle motor 109 through the spindle motor drive circuit 110. The rotation speed is increased and maintained to such an extent that an increase in the motor drive current when data reproduction is restarted can be suppressed. You.
[0033]
In this section, the system control unit 111 monitors the lapse of time after the rotation of the spindle motor 109 is restarted, and transitions to section 4 when the first arbitrary time has elapsed.
[0034]
Section 4 is a section in which a request for switching the playback speed is issued from the playback speed switching unit 112 to the system control unit 111, and the speed at which data is stored in the RAM 106 from the signal processing unit 104 via the memory processing unit 105, and The system control unit 111 controls the spindle motor drive circuit 110 so that the speed at which data is output to the audio processing unit 107 via the processing unit 105 is approximately the same. Since the reproduction is restarted at a low speed by this control, an increase in the starting current immediately after the start of the servo control is suppressed. The system control unit 111 starts the operation of the RF unit 103, the signal processing unit 104, and the servo unit 108, and the reproduction of data from the optical disc 101 is restarted.
[0035]
In this section, the system control unit 111 monitors the lapse of time after resuming data reproduction from the optical disc 101, and transitions to section 5 when a second arbitrary time has elapsed.
[0036]
The section 5 is a section in which the same control as the section 1 is performed, and the reproduction speed switching unit 112 determines that the speed at which data is stored in the RAM 106 from the signal processing unit 104 via the memory processing unit 105 is higher than the speed from the RAM 106 A control request is issued to the system control unit 111 so that the speed of data output to the audio processing unit 107 via the. Upon receiving the control request, the system control unit 111 controls the spindle motor drive circuit 110 to increase the rotation speed of the spindle motor 109 and maintain the speed at a constant speed.
[0037]
In this section, the memory remaining amount monitoring unit 113 monitors the overflow of the RAM 106, and transitions to the section 6 when the first threshold value immediately before the overflow is reached.
[0038]
Section 6 is a section in which control similar to that of Section 2 is performed, in which data reproduction from the optical disk 101 is stopped, and at the same time, rotation control of the spindle motor 109 performed by the spindle motor drive circuit 110 is released.
[0039]
In this section, the remaining memory monitoring unit 113 monitors the remaining memory, and transitions to the next section when the remaining memory falls below the second threshold. Thereafter, the same section transition is repeated.
[0040]
Next, FIG. 3 is a flowchart showing the flow of the motor rotation control of the optical disc reproducing apparatus according to the embodiment of the present invention.
[0041]
In step S101, the memory remaining amount monitoring unit 113 compares the memory remaining amount, which is the storage amount of the buffer memory of the RAM 106, with the first threshold value. If the memory remaining amount is larger, the process proceeds to step S102, where the RF unit 103 Then, the operations of the signal processing unit 104 and the servo unit 108 are stopped, and the control of the spindle motor drive circuit 110 is released.
[0042]
On the other hand, if the first threshold value is larger in step S101, the process proceeds to step S103. In step S103, the remaining memory amount monitoring unit 113 compares the remaining memory amount, which is the storage amount of the buffer memory in the RAM 106, with the second threshold value. If the remaining memory amount is smaller, the process proceeds to step S104, and the spindle motor driving circuit The rotation of the spindle motor 109 is restarted via 110.
[0043]
On the other hand, if the second threshold value is smaller in step S103, the process returns to step S101, and the above steps are repeated.
[0044]
After the rotation of the spindle motor 109 is restarted, in step S105, the system control unit 111 monitors the passage of time from the start of the rotation of the spindle motor. When the first arbitrary time has elapsed, the process proceeds to step S106, in which the system control unit 111 resumes the operations of the RF unit 103, the signal processing unit 104, and the servo unit 108, and the playback speed switching unit 112 causes the system control unit 111 And a control request is made so that the data reproduction speed from the optical disk 101 and the data output speed from the audio processing unit 107 are substantially the same.
[0045]
When the data reproduction is resumed in step S106, the process proceeds to step S107, in which the system control unit 111 monitors the lapse of time from the point in time when the reproduction is resumed. Sends a control request to the system control unit 111, and the data reproduction speed from the optical disk 101 is controlled to be faster than the data output speed from the audio processing unit 107.
[0046]
As described above, in the intermittent drive reproduction, the power consumption can be reduced as compared with the conventional intermittent drive reproduction by greatly reducing the rotation speed of the spindle motor in the first half of the reproduction stop period. Further, by performing the reproduction speed at the time of resuming the reproduction at a low speed, an increase in the starting current immediately after the start of the servo control is suppressed, and the power consumption is reduced as compared with the conventional intermittent drive reproduction.
[0047]
【The invention's effect】
As is apparent from the above description, according to the optical disk reproducing apparatus and the optical disk reproducing method of the present invention, since redundant operations in the first half of the reproduction stop period are eliminated, power consumption can be reduced as compared with the conventional intermittent driving reproduction. Further, by switching the reproduction speed at the time of resuming the reproduction to a low speed, an increase in the starting current at the time of resuming the servo control is suppressed, and the power consumption can be reduced as compared with the conventional intermittent driving reproduction.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of an optical disc reproducing device according to an embodiment of the present invention.
FIG. 2 is a timing chart showing a control operation of the optical disk reproducing device in the embodiment of the present invention.
FIG. 3 is a flowchart showing a flow of a motor rotation control of the optical disc reproducing apparatus according to the embodiment of the present invention.
FIG. 4 is a block diagram illustrating a schematic configuration of a conventional optical disc reproducing apparatus that performs an intermittent drive reproduction process.
[Explanation of symbols]
Reference Signs List 101 optical disk 102 optical pickup 103 RF unit 104 signal processing unit 105 memory processing unit 106 RAM
107 Audio processing unit 108 Servo unit 109 Spindle motor 110 Spindle motor drive circuit 111 System control unit 112 Playback speed switching unit 113 Memory remaining amount monitoring unit

Claims (4)

A data reproducing unit for reproducing data recorded on the optical disk, a buffer memory for temporarily storing the reproduced data, an original signal reproducing unit for reading out the temporarily stored data and reproducing the original signal, Memory remaining amount monitoring means for monitoring the remaining memory amount as the data storage amount; motor control means for controlling a motor for rotating the optical disc; and data reproduction operation control according to the monitoring state of the memory remaining amount monitoring means. An optical disc playback device comprising:
When the remaining memory capacity of the buffer memory exceeds an arbitrary first threshold, the system control means stops data reproduction from the optical disc and opens the motor control means, and the remaining memory capacity is the arbitrary one. When the value is lower than an arbitrary second threshold value lower than the first threshold value, a predetermined voltage is applied to the motor control means, and the rotation of the motor is restarted at a lower rotation speed than during data reproduction. Optical disk playback device. Further comprising a reproduction speed switching means for controlling the writing speed to the buffer memory, after a lapse of a first arbitrary time from the restart of rotation of the motor, the system control means resumes data reproduction from the optical disk, At the same time, the reproduction speed switching means starts writing to the buffer memory on the low speed side, and after a lapse of a second arbitrary time from the restart of the data reproduction, the reproduction speed switching means increases the writing speed to the buffer memory. 2. The optical disk reproducing apparatus according to claim 1, wherein the switching is performed to a side. A data reproducing unit for reproducing data recorded on the optical disk, a buffer memory for temporarily storing the reproduced data, an original signal reproducing unit for reading out the temporarily stored data and reproducing the original signal, Memory remaining amount monitoring means for monitoring the remaining memory amount as the data storage amount; motor control means for controlling a motor for rotating the optical disc; and data reproduction operation control according to the monitoring state of the memory remaining amount monitoring means. An optical disk reproducing method in an optical disk reproducing apparatus comprising:
Stopping the data reproduction from the optical disc and releasing the motor control means when the remaining memory capacity of the buffer memory exceeds an arbitrary first threshold; and Restarting the rotation of the motor at a lower rotation speed than during data reproduction when the value falls below an arbitrary second threshold value lower than the second threshold value. After a first arbitrary time has elapsed from the time when the rotation of the motor is restarted, a step of restarting data reproduction from the optical disk, a step of simultaneously starting writing to the buffer memory on a low speed side, and a step of restarting the data reproduction. 4. The optical disk reproducing method according to claim 3, further comprising a step of switching a writing speed to said buffer memory to a high speed side after a lapse of a second arbitrary time.

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