JP3830873B2 - Optical disk playback device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical disc reproducing apparatus capable of storing audio data reproduced from an optical disc in a memory and changing a reading speed and a reading order of the audio data stored in the memory.
[0002]
[Prior art]
A disc jockey (DJ: Disc Jockey) that plays audio data by operating an audio playback device is playing back audio data recorded on an optical disc such as an analog record or a compact disc (CD). In some cases, special reproduction called scratch reproduction for generating sound effects such as rubbing sound is performed. When DJ performs scratch reproduction using an analog record, the DJ generates a rubbing sound by quickly turning the analog record in the forward direction or the reverse direction. Japanese Patent Laid-Open No. 2001-312857 discloses a DJ CD player capable of performing special reproduction similar to scratch reproduction by an analog record.
[0003]
The CD player disclosed in Japanese Patent Laid-Open No. 2001-31857 includes a jog dial and a memory, stores audio data reproduced from the CD in the memory, and rotates the jog dial in the forward direction or the reverse direction to store in the memory. Controls the reading speed and reading order of the stored audio data, and generates sound effects equivalent to the rubbing sound caused by analog records. In this way, when playing audio data recorded on a CD, the DJ can perform special playback such as scratch playback similar to analog records by rotating the jog dial in the same way as analog records. it can.
[0004]
In the DJ CD player as described above, when the jog dial is not operated, the audio data recorded on the CD is played back at the standard reading speed and reading order (hereinafter referred to as normal playback). When the jog dial is rotated, the CD player detects the rotation speed and rotation direction of the jog dial, and in accordance with the detected rotation speed and rotation direction, the audio data read speed and read order read from the CD and stored in the memory Special playback is performed.
[0005]
[Problems to be solved by the invention]
In the CD player disclosed in Japanese Patent Laid-Open No. 2001-31857, when the DJ rotates the jog dial and releases the hand, the rotation of the jog dial may not stop immediately due to inertia. Especially when performing scratch playback, the DJ quickly rotates the jog dial in the forward or reverse direction.After releasing the jog dial, the jog dial does not stop immediately, and it takes time until the rotation stops. Cannot return to normal playback at the intended timing. Therefore, a CD player having a jog dial has a problem that even if the jog dial is rotated like the analog record, it is not possible to generate a sound effect equivalent to the sound effect caused by scratch reproduction of the analog record.
[0006]
In addition, some CD players including a jog dial and a memory have a function capable of invalidating the operation of the jog dial by pressing a playback button, for example. When this CD player is used, the DJ immediately presses the playback button immediately after the jog dial's rotation operation is completed, so the jog dial's rotation operation previously performed becomes invalid. To return from normal playback to normal playback. However, when this function is used, since the operation is different from the operation for performing special playback using an analog record, there is a problem that the operation remains unnatural for the DJ.
[0007]
The present invention has been made in order to solve the above-described problem. When performing special reproduction of an optical disc such as a CD, the optical disc can be specially reproduced by the same operation as that for special reproduction of an analog record. An object is to provide a playback device.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, The invention includes a reading unit that reads audio data recorded on an optical disc, a storage unit that stores audio data read by the reading unit, a reproduction unit that reproduces audio data stored in the storage unit, and a storage unit An operation disk unit for instructing a reading speed and a reading order of stored audio data, a disk unit for rotatably mounting the operation disk unit, a driving unit for rotationally driving the disk unit, and an operation disk unit A first detection unit that detects a rotation speed and generates a first pulse signal, a second detection unit that detects a rotation speed of the disk unit and generates a second pulse signal, and reproduction of audio data stored in the storage unit A reproduction start instruction unit for instructing start, and a rise time from when the reproduction start instruction is given by the reproduction start instruction unit until the drive unit rotates at a reference rotation speed. And a control unit configured to control a rotation speed of the drive unit so that the operation disk unit and the disk unit rotate at a reference rotation speed based on a second pulse signal generated by the setting unit and the second detection unit, and the operation disk unit A control unit that performs control to read out audio data stored in the storage unit at a reference readout speed based on a first pulse signal generated by the first detection unit when rotating at a reference rotation speed, When the reproduction start instruction unit is instructed to start reproduction, the operation unit rotates the drive unit so that the rotation speed of the operation disk unit and the disk unit reaches a reference rotation speed at a time set by the setting unit. The speed of controlling the speed and the reading speed of the audio data stored in the storage section based on the first pulse signal until the rotation speed of the operation disk section and the disk section reaches a reference rotation speed. To control the It is characterized by that.
[0009]
In addition, this application The invention includes a reading unit that reads audio data recorded on an optical disc, a storage unit that stores audio data read by the reading unit, a reproduction unit that reproduces audio data stored in the storage unit, and a storage unit An operation disk unit for instructing a reading speed and a reading order of stored audio data, a disk unit for rotatably mounting the operation disk unit, a driving unit for rotationally driving the disk unit, and an operation disk unit A first detection unit that detects a rotation speed and generates a first pulse signal, a second detection unit that detects a rotation speed of the disk unit and generates a second pulse signal, and reproduction of audio data stored in the storage unit A playback stop instructing unit for instructing a stop, and a setting unit for setting a stop time until the driving unit stops rotating after an instruction to stop playback is given by the playback stop instructing unit; Based on the second pulse signal generated by the second detection unit, the operation disk unit and the disk unit are controlled at a reference rotation speed so that the operation disk unit and the disk unit rotate at the reference rotation speed, and the operation disk unit rotates at the reference rotation speed. A control unit that controls to read out audio data stored in the storage unit at a reference readout speed based on a first pulse signal generated by the first detection unit when the first detection unit is configured to perform the reproduction. When the stop instruction unit instructs to stop the reproduction, the operation disk unit and the operation disk unit are controlled so as to stop the rotation of the operation disk unit and the disk unit at a time set by the setting unit. The reading speed of the audio data stored in the storage unit is controlled based on the first pulse signal until the rotation of the disk unit stops. It is characterized by that.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing the configuration of the optical disk reproducing apparatus of the present embodiment. In FIG. 1, 1 is a turntable, 2 is a spindle motor, 3 is a servo control unit, 4 is an optical pickup, 5 is a reproduction amplifier, 6 is a signal processing unit, 7 is a memory control unit, and 8 is a RAM (Random Access Memory). , 9 is a DAC (Digital to Analog Converter), 10 is an amplifier, 11 is an output terminal, 12 is a control unit, 13 is a display unit, and 14 is an operation unit. An optical disk reproducing apparatus according to an embodiment of the present invention includes a jog dial unit as a reading instruction unit in the operation unit 14, and is reproduced from a CD and stored in the RAM 8 according to the rotational speed and direction of the jog dial unit. This is a DJ CD player capable of changing the data reading speed and reading order.
[0015]
The turntable 1 fixed to the spindle motor 2 fixes the CD. When an instruction to start reproduction is input from the operation unit 14, the servo control unit 3 performs control to drive the spindle motor 2 to rotate at a predetermined linear velocity. In addition, the servo control unit 3 controls a focus servo circuit and a tracking servo circuit (not shown) in order to correctly trace the laser beam from the optical pickup 4 in the CD pit row.
[0016]
Digital audio data reproduced by the optical pickup 4 is shaped and amplified by a reproduction amplifier 5 and input to a signal processing unit 6. The signal processing unit 6 demodulates the digital audio data, extracts an error signal such as a focus error signal and a tracking error signal, and extracts a synchronization signal, and inputs the digital audio data to the memory control unit 7.
[0017]
The memory control unit 7 controls the input digital audio data to be input to the RAM 8. The RAM 8 stores the input digital audio data. The digital audio data stored in the RAM 8 is read out and input to the DAC 9 under the control of the memory control unit 7.
[0018]
The DAC 9 converts the digital audio data into an analog audio signal and inputs the analog audio signal to the amplifier 10. The analog audio signal input from the DAC 9 is amplified by the amplifier 10 and output from a speaker or the like connected to the output terminal 11.
[0019]
The display unit 13 displays the playback time (minutes, seconds, frames) of the currently played track, and the track number. The operation unit 14 includes a jog dial section, a playback start button, a playback stop button, a setting button for setting a rise time and a stop time, which will be described later, a designation button for specifying the playback start time, an eject button, and the like.
[0020]
FIG. 2 is a diagram showing a cross-section of the jog dial unit provided in the operation unit 14 of the CD player of this embodiment. In FIG. 2, 21 is a motor, 22 is a rotating shaft, 23 is a fixed holding part, 24 is a holding part, 25 is a disk part, 26 is a slit part, 27 is a sheet part, 28 is an operation disk part, 29 is a stopper part, Reference numeral 30 denotes a panel, 31 denotes a first optical sensor unit, 32 denotes a second optical sensor unit, and 33 denotes a slit unit.
[0021]
The configuration of the jog dial unit shown in FIG. 2 will be described.
The jog dial portion is provided on the upper surface of the panel 30 of the CD player according to this embodiment. A motor 21 is fixed to the lower surface of the panel 30. The rotating shaft of the motor 21 is connected to the rotating shaft 22. A fixed holding portion 23 is fixed to the rotating shaft 22. The holding unit 24 is placed on the upper surface of the fixed holding unit 23. The holding portion 24 is a member having a large friction coefficient, and is an elastic body such as rubber, for example. The disk part 25 is placed on the upper surface of the holding part 24. A slit portion 26 is provided on the back surface of the disk portion 25. The slit part 26 is, for example, a ring-shaped plate made of the same material as the disk part 25 and provided with rectangular openings at equal intervals. The sheet part 27 is placed on the upper surface of the disk part 25. The sheet portion 27 is made of a resin material or the like that has a small friction coefficient and hardly generates static electricity. The operation disk part 28 is placed on the upper surface of the sheet part 27. On the outer peripheral portion of the operation disk portion 28, slit portions 33 having rectangular openings at equal intervals are provided. The stopper portion 29 is fixed to the rotation shaft 22 so that the holding portion 24, the disk portion 25, the sheet portion 27, and the operation disk portion 28 do not come off the rotation shaft 22.
[0022]
Further, as a jog dial portion having a structure different from the configuration of the jog dial portion as shown in FIG. 2, the rotation shaft of the motor 21 and the rotation shaft 22 are separated, and the rotation shaft of the motor 21 is connected to the rotation shaft 22 via a belt. A connection structure may be used. The rotational driving force of the motor 21 is transmitted to the rotary shaft 22 via the belt. Thus, by separating the rotating shaft and the rotating shaft 22 of the motor 21, the arrangement of the jog dial portion and the motor 21 can be freely determined.
[0023]
The first optical sensor unit 31 includes two optical sensors for detecting the rotation direction of the operation disk unit 28 and is fixed to the panel 30 so that the opening of the slit unit 33 can be detected. Similarly, the second photosensor unit 32 includes two photosensors, and is fixed to the panel 30 so that the opening of the slit unit 26 can be detected.
[0024]
The first optical sensor unit 31 detects the opening of the slit portion 33 of the operation disk unit 28, generates a first pulse signal corresponding to the rotation state (rotation speed and direction) of the operation disk unit 28, and controls the control unit 12. To enter. The second optical sensor unit 32 detects the opening of the slit unit 26 of the disk unit 25, generates a second pulse signal corresponding to the rotation state of the disk unit 25, and inputs the second pulse signal to the control unit 12.
[0025]
The control unit 12 determines the reading speed and reading order for reading the digital audio data stored in the RAM 8 according to the first pulse signal input from the first optical sensor unit 31, and controls the memory control unit 7. When an instruction to start playback is input from the operation unit 14, the control unit 12 reads the reference rotation speed (for example, the angular speed of the turntable during playback of the analog record player) and the reference rotation direction (rotation of the turntable of the analog record player). When the motor 21 is controlled to start rotation in the direction (the same direction as the clockwise direction) and a reproduction stop instruction is input from the operation unit 14, the control unit 12 controls the motor 21 to stop the rotation. . Further, the control unit 12 controls the motor 21 from the second pulse signal input from the second optical sensor unit 32 so as to keep the rotation speed of the disk unit 25 at the reference rotation speed.
[0026]
In the CD player of this embodiment, when reproducing audio data recorded on a CD, the motor 21 rotates at the reference rotation speed and the reference rotation direction. When the motor 21 rotates at the reference rotation speed and the reference rotation direction, the holding unit 24, the disk unit 25, the sheet unit 27, and the operation disk unit 28 rotate at the same speed and direction. In the present embodiment, when the operation disk portion 28 is rotating at the reference rotation speed, the reading speed of the digital audio data stored in the RAM 8 is set as the reference reading speed (reading speed during normal reproduction). In addition, when the operation disk unit 28 rotates in the reference rotation direction, the reading order of the digital audio data stored in the RAM 8 is set as a reference reading order (reading order during normal reproduction). For this reason, in the CD player of the present embodiment, an operation similar to the operation of performing special reproduction using an analog record can be performed.
[0027]
First, the reproduction operation of the CD player of this embodiment when the operation disk portion 28 rotating at the reference reproduction speed and the reference rotation direction is stopped will be described.
[0028]
First, the DJ puts his hand on the operation disk portion 28 rotating in the reference rotation speed and the reference rotation direction, and gradually decreases the rotation speed. At this time, the disk portion 25 rotates at the reference rotation speed without being affected by the rotation speed of the operation disk portion 28 because the friction coefficient of the seat portion 27 is small. When the rotation speed of the operation disk unit 28 changes, the number of pulses of the first pulse signal generated from the first optical sensor unit 31 in a certain time changes according to the rotation speed of the operation disk unit 28. The control unit 12 determines the rotational speed of the operation disk unit 28 from the number of pulses of the first pulse signal input from the first optical sensor unit 31 for a fixed time. The control unit 12 controls the memory control unit 7 according to the determined rotation speed. The memory control unit 7 controls to reduce the speed of the digital audio data read from the RAM 8.
[0029]
When the rotation of the operation disk unit 28 stops, the first optical sensor unit 31 does not input the first pulse signal to the control unit 12. The control unit 12 controls the memory control unit 7 to stop reading the digital audio data from the RAM 8 when the first pulse signal is not input from the first optical sensor unit 31.
[0030]
When the DJ releases the operation disk part 28 and the operation is completed, the operation disk part 28 immediately rotates in the reference rotation speed and the reference rotation direction because the disk part 25 rotates in the reference rotation speed and the reference rotation direction. To resume. This is because the friction coefficient of the seat portion 27 is small. As described above, in this embodiment, even if a motor with a small torque is used as the motor 21, the operation disk portion 28 is immediately moved at the reference rotation speed and the reference rotation direction as in the case where a motor with a large torque is used. The rotation can be resumed. When the operation disk unit 28 resumes rotation at the reference rotation speed and the reference rotation direction, the control unit 12 controls the memory control unit 7 to read the digital audio data from the RAM 8 at the reference read speed and reference read order during normal playback. To do.
[0031]
Further, when the DJ rotates the operation disk portion 28 rotating at the reference rotation speed and the reference rotation direction by hand faster than the reference rotation speed to gradually increase the rotation speed, the control unit 12 controls the first optical sensor. The memory control unit 7 is controlled to increase the speed of the digital audio data read from the RAM 8 according to the number of pulses of the first pulse signal input from the unit 31 for a predetermined time.
[0032]
Next, the reproducing operation of the CD player of this embodiment when the operation disk portion 28 rotating at the reference rotation speed and the reference rotation direction is rotated in the reverse direction will be described.
[0033]
The DJ manually rotates the operation disk portion 28 rotating at the reference rotation speed and the reference rotation direction in the reverse direction (counterclockwise). At this time, since the friction coefficient of the seat portion 27 is small, the disk portion 25 can rotate at the reference rotation speed and the reference rotation direction without being affected by the rotation speed and the rotation direction of the operation disk portion 28. The first optical sensor unit 31 includes two optical sensors. When the rotation direction of the operation disk unit 28 changes, the phase difference of the pulse signal generated from the two optical sensors is changed in the rotation direction of the operation disk unit 28. Will change accordingly. The controller 12 determines the rotation direction of the operation disk 28 from the phase difference between the first pulse signals input from the two optical sensors. Further, as described above, the control unit 12 determines the rotational speed of the operation disk 28 from the number of pulses of the first pulse signal input from the first optical sensor unit 31 for a fixed time. The control unit 12 controls the memory control unit 7 according to the determined rotation speed and rotation direction. The memory control unit 7 controls the speed and order of digital audio data read from the RAM 8.
[0034]
When the DJ releases the operation disk part 28 and the operation is completed, the operation disk part 28 immediately rotates in the reference rotation speed and the reference rotation direction because the disk part 25 rotates in the reference rotation speed and the reference rotation direction. To resume. When the operation disk unit 28 resumes rotation at the reference rotation speed and the reference rotation direction, the control unit 12 controls the memory control unit 7 to read digital audio data from the RAM 8 at the reference read speed and the reference read order.
[0035]
In the above-described embodiment, when the operation disk portion 28 is operated, if the rotation speed of the disk portion 25 rotating at the reference rotation speed is changed, the control unit 12 starts from the second optical sensor unit 32 at a certain time. In accordance with the number of pulses of the input second pulse signal, the motor 21 is controlled so that the rotational speed of the disk portion 25 maintains the reference rotational speed.
[0036]
When scratch reproduction is performed using the CD player of this embodiment, the DJ repeats an operation of quickly rotating the operation disk portion 28 in the forward direction or the reverse direction by hand. The control unit 12 discriminates the rotation speed and the rotation direction of the operation disk unit 28 from the first pulse signal input from the first optical sensor unit 31. The control unit 12 controls the memory control unit 7 according to the determined rotation speed and rotation direction. The memory control unit 7 controls the reading speed and reading order of the digital audio data stored in the RAM 8 (reading audio data in ascending address or reading in descending order). Digital audio data read from the RAM 8 is converted into an analog audio signal by the DAC 9, amplified by the amplifier 10, and output as a sound effect such as a rubbing sound from a speaker connected to the output terminal 11.
[0037]
The disk part 25 and the operation disk part 28 of the jog dial part of the operation part 14 of the CD player according to the present embodiment are rotated at the reference rotation speed and the reference rotation direction by rotating the operation disk part 28. In this structure, special reproduction such as scratch reproduction can be performed. After the operation of the operation disk unit 28 is completed, the operation disk unit 28 can immediately resume the rotation at the reference rotation speed and the reference rotation direction, so that the special reproduction can be instantaneously switched to the normal reproduction. As described above, even if the CD player of this embodiment uses a motor with a small torque as the motor 21, the operation disk portion 28 is immediately moved to the reference rotation speed and the reference rotation as in the case of using a motor with a large torque. Rotation can be resumed in the direction.
[0038]
Further, since the control unit 12 controls the motor 21 so as to keep the rotation speed of the disk unit 25 at the reference rotation speed based on the number of pulses of the second pulse signal input from the second optical sensor unit 32, the operation disk unit 28. It is possible to prevent a change in the rotation speed of the disk portion 25 due to the rotation operation. For this reason, after completion of the rotation operation of the operation disk portion 28, the operation disk portion 28 can immediately resume rotation at the reference rotation speed.
[0039]
The CD player according to the present embodiment immediately reads the reference even if it takes a rise time from the start of rotation of the motor 21 to the rotation at the reference rotation speed after the reproduction start instruction is input from the operation unit 14. Audio data playback can be started in the speed and reference readout order. FIG. 3 is a diagram for explaining the control operation of the control unit 12 after the start of reproduction. A point (a) shown in FIG. 3 indicates a time when the motor 21 starts rotating at the reference rotation speed after an instruction to start reproduction is input from the operation unit 14. Point (b) shown in FIG. 3 indicates the time for reading the digital audio data from the RAM 8 at the reference reading speed. The point (c) shown in FIG. 3 indicates the time when the motor 21 starts rotating at the reference rotation speed after the rising time set from the operation unit 14.
[0040]
As shown in FIG. 3, the control unit 12 receives and reproduces the digital audio data stored in the RAM 8 at the reference reading speed and the reference reading order immediately after the reproduction start instruction is input from the operation unit 14. The memory control unit 7 is controlled. The control unit 12 receives the first pulse signal and the second pulse input to the control unit 12 for a predetermined period (for example, 0.2 seconds) after the reproduction start instruction is input from the operation unit 14. The signals are compared to determine whether or not the rotational speeds of the disk part 25 and the operation disk part 28 are the same. When it is detected that the rotation speeds of the disk unit 25 and the operation disk unit 28 are the same, the control unit 12 (b in FIG. ) From the point time, the memory control unit 7 is controlled so as to read the digital audio data from the RAM 8 at the reference reading speed and the reference reading order. In the CD player of this embodiment, even if it takes a rise time from the start of rotation of the motor 21 to the rotation at the reference rotation speed, the operation disk unit 28 is operated after the instruction to start reproduction is input. If not, normal playback can be started immediately.
[0041]
In addition, by setting an arbitrary rise time of the motor 21 from the operation unit 14, the control unit 12 causes the motor to rotate at the reference rotation speed at the point (c) shown in FIG. 3 which is the set rise time. 21 can also be controlled. Therefore, the control unit 12 causes the memory control unit 7 to read the digital audio data from the RAM 8 at the reference reading speed and the reference reading order at the time indicated by (c) in FIG. 3 which is later than the normal motor 21 rising time. Control. As described above, the CD player of this embodiment can start playback of audio data from an arbitrary time after an instruction to start playback is input from the operation unit 14, and can start playback using an analog record. A sound effect equivalent to the sound effect generated when the rise time is adjusted can be generated.
[0042]
Also, the CD player of this embodiment can stop playback immediately even if it takes time for the motor 21 to stop rotating after an instruction to stop playback is input from the operation unit 14. FIG. 4 is a diagram for explaining the control operation of the control unit 12 after the reproduction is stopped. A point (a) shown in FIG. 4 indicates a time during which the motor 21 stops rotating after an instruction to stop reproduction is input from the operation unit 14. A point (b) shown in FIG. 4 indicates a time during which reading of the digital audio data from the RAM 8 is stopped. Point (c) shown in FIG. 4 indicates the time during which the motor 21 stops rotating after the stop time set from the operation unit 14.
[0043]
As shown in FIG. 4, the control unit 12 controls the memory control unit 7 in order to stop reading the digital audio data stored in the RAM 8 immediately after an instruction to stop reproduction is input from the operation unit 14. . The control unit 12 receives the first pulse signal and the second pulse input to the control unit 12 for a predetermined period (for example, 0.2 seconds) after the reproduction stop instruction is input from the operation unit 14. The signals are compared to determine whether or not the rotational speeds of the disk part 25 and the operation disk part 28 are the same. When it is detected that the rotation speeds of the disk unit 25 and the operation disk unit 28 are the same, the control unit 12 (b) in FIG. ) The memory control unit 7 is controlled so as to stop reading the digital audio data from the RAM 8 from the time point. As described above, even if it takes time for the motor 21 to stop rotating, the CD player according to the present embodiment immediately receives the instruction to stop the reproduction and if the operation disk portion 28 is not operated, immediately. Playback of audio data can be stopped.
[0044]
Further, the control unit 12 sets the stop time of the arbitrary motor 21 from the operation unit 14, thereby stopping the rotation of the motor 21 at the point (c) shown in FIG. 4 which is the set stop time. 21 can also be controlled. The control unit 12 controls the memory control unit 7 so as to stop the reading of the digital audio data from the RAM 8 at a time point (c) shown in FIG. 4 which is later than the normal rotation stop time of the motor 21. As described above, the CD player according to the present embodiment can stop playback of audio data at an arbitrary time after an instruction to stop playback is input from the operation unit 14, and stop playback stop using an analog record. Sound effects equivalent to sound effects generated when the time is adjusted can be generated.
[0045]
In the above-described embodiment, the jog dial unit is used for special playback. However, the playback start position can be searched using the jog dial unit. When an instruction to select a function for searching for a reproduction start position is input from the operation unit 14, the control unit 12 controls the memory control unit 7 to stop reading digital audio data from the RAM 8. Regardless of whether or not the motor 21 is rotating, the control unit 12 rotates the operation disk unit 28 clockwise to increase the value of the frame and rotates the operation disk unit 28 counterclockwise. Control the frame values in descending order. When the rotation of the operation disk unit 28 stops, the control unit 12 designates the reproduction position (minute, second, frame) displayed on the display unit 13 as the reproduction start position. When a playback start instruction is input from the operation unit 14, the control unit 12 controls the memory control unit 7 to start playback of audio data from the playback start position displayed on the display unit 13. The CD player according to the present embodiment can search the playback start position in units of frames according to the rotation direction of the operation disk unit 28 when an instruction to search the playback start position is input from the operation unit 14.
[0046]
【The invention's effect】
According to the optical disc playback apparatus of the present invention, normal playback can be resumed immediately after performing special playback using the jog dial, so that special playback can be performed by the same operation as that for special playback of analog records. It is possible to provide an optical disc reproducing apparatus capable of performing the above.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a CD player according to an embodiment.
FIG. 2 is a diagram illustrating a configuration of a jog dial unit included in the CD player according to the present embodiment.
FIG. 3 is a diagram for explaining a control operation of a control unit after starting reproduction.
FIG. 4 is a diagram for explaining a control operation of a control unit after playback is stopped.
[Explanation of symbols]
1 Turntable
2 Spindle motor
3 Servo controller
4 Optical pickup
5 Playback amplifier
6 Signal processor
7 Memory control unit
8 RAM
9 DAC
10 amplifiers
11 Output terminal
12 Control unit
13 Display section
14 Operation unit
21 Motor
22 Rotating shaft
23 Fixed holding part
24 Holding part
25 Disc part
26 Slit
27 Seat part
28 Operation disk
29 Stopper
30 panels
31 1st optical sensor part
32 Second optical sensor unit
33 Slit

Claims (2)

A reading unit that reads audio data recorded on an optical disc, a storage unit that stores audio data read by the reading unit, a reproduction unit that reproduces audio data stored in the storage unit, and an audio stored in the storage unit An operation disk unit for instructing a data reading speed and a reading order, a disk unit for rotatably mounting the operation disk unit, a driving unit for rotationally driving the disk unit, and a rotation speed of the operation disk unit. A first detection unit for detecting and generating a first pulse signal; a second detection unit for detecting a rotation speed of the disk unit and generating a second pulse signal; and instructing to start reproduction of audio data stored in the storage unit A playback start instructing unit that sets the rise time from when the playback start instructing unit is instructed to start playback until the drive unit rotates at a reference rotational speed. And a rotation speed of the driving unit so that the operation disk unit and the disk unit rotate at a reference rotation speed based on a second pulse signal generated by the second detection unit, and the operation disk unit rotates the reference rotation A control unit that controls to read out audio data stored in the storage unit at a reference readout speed based on a first pulse signal generated by the first detection unit when rotating at a speed, and the control unit includes: When the reproduction start instruction is instructed by the reproduction start instruction unit, the rotation speed of the drive unit is set so that the rotation speed of the operation disk unit and the disk unit reaches a reference rotation speed at a time set by the setting unit. And controlling the reading speed of the audio data stored in the storage unit based on the first pulse signal until the rotation speed of the operation disk part and the disk part reaches a reference rotation speed. Optical disk reproducing apparatus, characterized in that that. A reading unit that reads audio data recorded on an optical disc, a storage unit that stores audio data read by the reading unit, a reproduction unit that reproduces audio data stored in the storage unit, and an audio stored in the storage unit An operation disk unit for instructing a data reading speed and a reading order, a disk unit for rotatably mounting the operation disk unit, a driving unit for rotationally driving the disk unit, and a rotation speed of the operation disk unit. A first detection unit for detecting and generating a first pulse signal; a second detection unit for detecting a rotation speed of the disk unit and generating a second pulse signal; and instructing to stop reproduction of audio data stored in the storage unit A playback stop instruction unit, a setting unit for setting a stop time from when the playback stop instruction is given by the playback stop instruction unit until the drive unit stops rotating, Based on the second pulse signal generated by the detection unit, the operation disk unit and the disk unit are controlled at a reference rotation speed so that the operation disk unit and the disk unit rotate at a reference rotation speed, and the operation disk unit rotates at the reference rotation speed. A control unit that controls to read out audio data stored in the storage unit at a reference readout speed based on a first pulse signal generated by the first detection unit, and the control unit includes the reproduction stop instruction unit The rotation speed of the drive unit is controlled so that the rotation of the operation disk unit and the disk unit is stopped at the time set by the setting unit when an instruction to stop reproduction is given by the operation disk unit and the disk unit. optical disk re rotation is characterized in that the control means controls the reading speed of the audio data stored in the storage unit based on the first pulse signal to stop Apparatus.

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