JP3731660B2 - Optical disk playback device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical disc reproducing apparatus corresponding to an SACD hybrid disc in which data is recorded on a plurality of layers.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is an optical disk reproducing apparatus that includes a pickup for a CD (Compact Disk) and a pickup for a DVD (Digital Versatile Disk) and is configured to reproduce both optical disks. In this type of optical disc playback apparatus, it is necessary to determine the type of optical disc to be played back in order to select an optical pickup capable of reading optical disc data. Therefore, an optical disk reproducing apparatus configured to determine whether the optical disk to be reproduced is a CD or a single-layer or double-layer DVD (SD) from the amplitude and the number of peaks of the focus error signal detected by the optical pickup is known. (For example, see Patent Document 1 and Patent Document 2).
[0003]
By the way, there is an SACD (Super Audio Compact Disk) configured to be able to record high-density audio data in order to improve the reproduction sound quality further than the current CD. SACD has two-layer discs with two data recording layers. Among them, the first layer (standard density layer) has the same standard density data as the current CD, and the second layer (high density layer) has a high density. Discs called so-called SACD hybrid discs (hereinafter referred to as SACDs) on which density data are recorded are becoming widespread. The distance between each layer of the SACD is about 0.6 mm, which is characterized by being about 10 times wider than the distance of 55 μm between the layers of the dual-layer DVD. Since the standard density data recorded on the first layer of the SACD is the same data as the current CD, it can be read by a CD pickup and can also be reproduced by a conventional CD player. . On the other hand, high-density data recorded on the second layer cannot be read with a CD pickup, and is read with a DVD pickup.
[0004]
[Patent Document 1]
JP 2000-228049 A
[Patent Document 2]
Japanese Patent No. 2975884
[0005]
[Problems to be solved by the invention]
However, since the playback device dedicated to SACD does not include a CD pickup, it is inconvenient for the user because it cannot read the data of the current CD. Even if the SACD dedicated playback device further includes a CD pickup, the data recorded on the CD cannot be played back unless the type of the loaded optical disk is correctly determined.
[0006]
Further, even if an attempt is made to reproduce the data of the high-density layer of the SACD by a DVD reproducing apparatus equipped with a pickup for CD and a pickup for DVD, the data of the high-density layer has a recording format different from the data recorded on the DVD. Since they are different, they cannot be reproduced even if they are read out by a DVD pickup. Therefore, when the SACD is loaded in the optical disc reproducing apparatus shown in Patent Document 1 and Patent Document 2, the data of the high-density layer of SACD cannot be reproduced. In addition, since the SACD has a two-layer recording surface like the two-layer DVD, in the above configuration that simply detects the amplitude of the focus error signal and the number of peaks, the loaded optical disk is the SACD. Whether it is a dual-layer DVD cannot be determined. Accordingly, even if the apparatus is configured to be able to reproduce data recorded in the SACD high-density layer recording format, the type of the loaded optical disk cannot be determined. Whether the data is recorded in the format cannot be recognized, and eventually the data in the high density layer of the SACD cannot be reproduced.
[0007]
In addition, since the above optical disk playback apparatus is also equipped with a CD pickup, it is possible to read out and play back data in the standard density layer, but the sound quality of the data played in this way is equivalent to that of the current CD. Yes, the benefits of SACD in which high-quality sound data is recorded cannot be enjoyed.
[0008]
The present invention has been made to solve the above-described problems, and correctly discriminates the type of the loaded optical disc, reads out the data recorded in the high-density layer when the SACD is loaded, and achieves high sound quality. An object of the present invention is to provide an optical disk reproducing apparatus configured to be able to reproduce music and to reproduce music with standard sound quality even when a current CD is loaded.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a first aspect of the present invention provides a CD laser light source for emitting a laser beam for reading data recorded on a CD (Compact Disk), and a laser beam emitted from the CD laser light source. In order to read out data recorded on a DVD (Digital Versatile Disk), a CD pickup having an objective lens for condensing on the CD recording surface, and a photodetector for receiving the laser beam reflected by the CD recording surface. DVD laser light source that emits the laser beam, an objective lens that focuses the laser beam emitted from the DVD laser light source on the DVD recording surface, and a photodetector that receives the laser beam reflected by the DVD recording surface And a DVD pickup having a CD pickup and an objective lens of the DVD pickup for each laser beam. By moving in the axial direction, the focus drive means for focusing each objective lens on the recording surface of the optical disk to be reproduced, and the output from the photodetector of the CD pickup, the movement of the objective lens of the CD pickup Based on an output from a CD focus signal detection means for detecting a focus signal generated when the focal point of the objective lens passes through the recording surface of the optical disk and an optical detector of the DVD pickup, the objective lens of the DVD pickup moves by moving the objective lens. In an optical disk reproducing apparatus provided with a DVD focus signal detection means for detecting a focus signal generated when the focal point of the objective lens passes through the recording surface of the optical disk, the DVD focus signal detection means causes the DVD laser light source to emit a laser beam. At the same time, the focus drive means DVD The focus signal is detected by moving the objective lens of the backup, and the CD focus signal detecting means emits the laser beam to the CD laser light source and moves the objective lens of the CD pickup by the focus driving means. And disc discriminating means for discriminating the type of the optical disc to be reproduced based on the focus signal detected and detected by the CD focus signal detecting means and the DVD focus signal detecting means, and the optical disc based on the result discriminated by the disc discriminating means. Reproduction processing means for reproducing the data recorded on the disk, and the disc determination means includes a plurality of optical discs to be reproduced when both the DVD focus signal detection means and the CD focus signal detection means detect a focus signal at a normal level. When the disc is determined to be an SA (Super Audio) CD hybrid disc in which standard density and high density data are recorded in each layer, and only the DVD focus signal detection means detects a normal level focus signal, it tries to reproduce it. When it is determined that the optical disk is a DVD and only the CD focus signal detection means detects a focus signal at a normal level, it is determined that the optical disk to be reproduced is a CD, and the reproduction processing means determines the optical disk to be reproduced. When it is determined that the disc is an SACD hybrid disc, the data of the high-density layer read by the DVD pickup is reproduced, and when the optical disc to be played is determined to be a CD, the data read by the CD pickup is reproduced. Is to play.
[0010]
In this configuration, the focus search is performed twice using the DVD pickup and the CD pickup, and the disc determination unit determines the type of the optical disc based on the focus signal detected by the DVD focus detection unit and the CD focus detection unit. . The type of the optical disc is determined by determining whether or not the DVD focus detection means and the CD focus detection means have detected a normal level focus signal. As a result, when it is determined that the loaded optical disk is a SACD, high-density data is read by the DVD pickup, and high-quality sound data is reproduced. When it is determined that the optical disc is a CD, the data is read by the CD pickup, and the standard sound quality data is reproduced.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1)
An optical disk reproducing apparatus according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a schematic configuration of an optical disk reproducing apparatus corresponding to SACD. An optical disk reproducing apparatus 100 includes a spindle motor 1 for rotationally driving a loaded optical disk D, a CD pickup 2 for reading data of a standard density layer of SACD, and a DVD pickup 3 for reading data of a high density layer. An RF amplifier 4 that generates a focus signal from the electrical signals output from the CD pickup 2 and the DVD pickup 3, and a servo signal that controls the CD pickup 2 and the DVD pickup 3 based on the focus signal output from the RF amplifier 4. A servo DSP circuit 5 for generating a signal, a drive circuit 6 for driving the spindle motor 1, a decoder (reproduction processing means) 7 for decoding (reproduction processing) an audio signal output from the RF amplifier 4, and each part of the apparatus Control unit 8 that controls the operation and operation program of the control unit 8 And a memory 9 for storing. The control unit 8 constitutes a CD focus signal detection unit, a DVD focus signal detection unit, and a disc determination unit. The optical disk playback apparatus 1 automatically determines the type of the optical disk D loaded, and when it is determined that the SACD is loaded, reads the data recorded in the high-density layer by the DVD pickup 3 to increase the level. When the sound quality data is reproduced and it is determined that the CD is loaded, the CD pickup 2 has a function of reading and reproducing the standard sound quality data.
[0018]
As shown in FIG. 2, the CD pickup 2 is an apparatus that irradiates a recording surface of a standard density layer of SACD with a laser beam (CD laser) having a wavelength of 780 nm, reads data, and converts it into an electrical signal. A laser light source for reproduction, an objective lens with an aperture ratio of 0.45, an actuator (focus drive means) for driving the objective lens or CD pickup to move the focal point of the objective lens, and reflected by the recording surface A photodetector for receiving the laser beam. On the other hand, the DVD pickup (HD pickup) 3 is a device that irradiates a recording surface of a high-density layer with a laser beam (DVD laser) having a wavelength of 650 nm, reads data, and converts it into an electrical signal. Receives a light source, an objective lens with an aperture ratio of 0.6, an actuator (focus drive means) that drives the objective lens or DVD pickup to move the focus of the objective lens, and a laser beam reflected by the recording surface And a photodetector.
[0019]
The control unit 8 detects the focus signal from the outputs of the CD pickup 2 and the DVD pickup 3, determines the type of the optical disk D based on the focus signal, and selects an optical pickup that can read data from the loaded optical disk D. Then, the selected optical pickup reads out the data recorded on the optical disc D, and the decoder 8 decodes the electrical signal of the data read out by the optical pickup. The focus signal is detected by performing a focus search by moving the objective lens while emitting a laser beam from the laser light sources of the CD pickup 2 and the DVD pickup 3. As an example of the focus signal, there is a so-called focus error signal that is calculated by the diagonal difference of the received light amounts of the four light receiving units provided in the photodetector. The focus error signal is detected as an S-shaped signal when the focal point of the objective lens passes through the recording surface of the optical disc D. The focus signal is not limited to the focus error signal. For example, the type of the optical disc D is discriminated using a so-called AS signal (EFM signal) calculated based on the total amount of light received by the light receiving unit. You may comprise as follows.
[0020]
3 to 5 show the actuator drive voltage (focus drive voltage) and focus error signal at the time of focus search when the optical disc playback apparatus 100 is loaded with SACD, DVD and CD, with the time axis as the horizontal axis. ing. The objective lens of each optical pickup moves in proportion to the drive voltage applied to the actuator. The focus search is performed as follows. First, after the objective lens of the DVD pickup 3 is lowered to the lower limit position, the objective lens is raised to the upper limit position at a constant speed while emitting the DVD laser, and a focus error signal is detected by the DVD laser. Thereafter, the objective lens of the CD pickup 2 is lowered to the lower limit position, and then the objective lens is raised to the upper limit position at a constant speed while emitting the CD laser, and a focus error signal is detected by the CD laser.
[0021]
Here, when the SACD is loaded in the optical disc reproducing apparatus 100, as shown in FIG. 3, when the focus of the objective lens of the DVD pickup 3 passes through the recording surface of the high-density layer of the SACD (T = T1). When a focus error signal E1 of a normal level (a level larger than a predetermined level) is detected and the focus passes through the recording surface of the standard density layer of the SACD (T = T2), an abnormal level (a level smaller than the predetermined level) The focus error signal E2 is detected. When the focus of the objective lens of the CD pickup 2 passes through the recording surface of the SACD high-density layer (T = T3), an abnormal level focus error signal E3 is detected, and the focus is recorded on the standard density layer of the SACD. When passing through the surface (T = T4), a normal level focus error signal E4 is detected. Here, the normal level focus error signals E1 and E4 are focus error signals detected when the specifications of the irradiated laser beam and the optical system of the pickup match the ratings of the recording surfaces of the optical disc D, The abnormal level focus error signals E2 and E3 are focus error signals detected when the same specification does not match the rating of each recording surface of the optical disc D (the same applies hereinafter).
[0022]
On the other hand, as shown in FIG. 4, when a DVD is loaded in the optical disc playback apparatus 100, when the focus of the objective lens of the DVD pickup 3 passes the DVD recording surface (T = T5), a normal level focus error When the signal E5 is detected and the focus of the objective lens of the CD pickup 2 passes through the recording surface of the DVD (T = T6), an abnormal level focus error signal E6 is detected. Further, as shown in FIG. 5, when a CD is loaded in the optical disc reproducing apparatus 100, when the focus of the objective lens of the DVD pickup 3 passes through the recording surface of the CD (T = T7), a focus error signal of an abnormal level. When E7 is detected and the focus of the objective lens of the CD pickup 2 passes the CD recording surface (T = T8), a normal level focus error signal E8 is detected.
[0023]
FIG. 6 shows the detection result of the focus error signal by the DVD pickup 3 and the CD pickup 2 when the above-described three types of optical disks D are loaded in the optical disk reproducing apparatus 100. In the figure, “◯” indicates that a focus error signal at a normal level has been detected, and “X” indicates that a focus error signal at an abnormal level has been detected. As described above, the detection result of the focus error signal differs depending on the type of the optical disk D loaded in the optical disk reproducing apparatus 100. Therefore, if the focus search is sequentially performed by the DVD pickup 3 and the CD pickup 2, the type of the optical disk D loaded can be determined based on the search result. Specifically, when a normal level focus signal is detected by irradiation with a DVD laser beam and a CD laser beam, it can be determined that the optical disc D is SACD. Further, when a normal level focus signal is detected by irradiation with a DVD laser beam, it can be determined that the optical disk D is a DVD, and when a normal level focus signal is detected by irradiation with a CD laser beam, the optical disk D is a CD. Can be determined. When a DVD having a two-layer recording surface is loaded in the optical disc reproducing apparatus 100, two normal level focus error signals are detected when the DVD laser is irradiated, so that it can be distinguished from SACD. .
[0024]
As a result of the determination, when the control unit 8 determines that the optical disc D loaded in the optical disc playback apparatus 100 is a SACD, the DVD pickup 3 reads high-quality recording data of the high-density layer of the SACD and plays back the data by the decoder 7. Process. When the control unit 8 determines that the loaded optical disk D is a CD, the CD pick-up 2 reads out the recording data with the standard sound quality of the CD, and the decoder 7 reproduces it.
[0025]
Next, the procedure of the discriminating process of the optical disc D by the control unit 8 will be described with reference to FIG. When the optical disk D is loaded, the DVD laser is emitted (DVD laser on) (# 1), the focus search is started (# 2), and the level of the focus error signal and the level of the AS signal are measured (# 3). The value measured in # 3 is taken as the DVD laser measurement value. When the focus search by the DVD laser is completed (# 4), the emission of the DVD laser is stopped (DVD laser off) (# 5). Thereafter, the CD laser is emitted (CD laser on) (# 6), focus search is started (7), and the level of the focus error signal and the level of the AS signal are measured (# 8). The value measured in # 8 is taken as the CD laser measurement value. When the focus search by the CD laser is completed (# 9), the emission of the CD laser is stopped (CD laser off) (# 10). Then, normality / abnormality of the level of each focus error signal is determined from the DVD laser measurement value and CD laser measurement value obtained in # 3 and # 8, and the type of the optical disk D is determined with reference to FIG. # 11). In this embodiment, in order to more accurately discriminate the optical disc D, the AS signal is measured in addition to the focus error signal, the normality / abnormality of the level of the AS signal is also judged, and the optical disc D is discriminated. ing.
[0026]
As described above, according to the optical pickup reproducing apparatus 100, since the type of the optical disk D to be reproduced is determined based on the focus search result by the DVD laser and the focus search result by the CD laser, the SACD is included in the optical pickup reproducing apparatus 100. Even when it is loaded, the type of the optical disk D is accurately determined. When it is determined that the loaded optical disk D is an SACD, the high-density layer data is read by the DVD pickup 3 and reproduced by the decoder 7, so that the user can listen to high-quality music. When it is determined that the loaded optical disk is a CD, the recorded data of the CD is read and reproduced by the CD pickup 2, so that the user can listen to the current CD software.
[0027]
(Embodiment 2)
Another embodiment of the present invention will be described with reference to FIGS. The block configuration of the optical disk reproducing apparatus according to the second embodiment is the same as that of the optical disk reproducing apparatus 100 according to the first embodiment shown in FIG. 1, and the discriminating method of the optical disk D by the control unit 8 is different. In other words, in the second embodiment, the optical disk D is discriminated by paying attention to the fact that the distance between the SACD layers is about 10 times or more wider than that of DVD or the like. More specifically, the control unit 8 (voltage difference calculation means) irradiates the DVD drive with the focus drive voltage A when the highest level focus error signal is detected by irradiating the DVD laser beam. A voltage difference ΔV = B−A from the focus drive voltage B when a large level focus error signal is detected is calculated. Here, when the distance between the respective layers of the optical disc D is large, the value of the voltage difference ΔV is also large, and when the distance between the respective layers is small, the value of the voltage difference ΔV is also small. In the optical disc D having only one recording layer, the voltage difference ΔV≈0. Accordingly, when the voltage difference ΔV is larger than the predetermined threshold value ΔV0, it is determined that the loaded optical disk D is SACD. When the voltage difference ΔV is smaller than the threshold value ΔV0, the loaded optical disk D is a DVD. Or it is discriminated as a CD. Here, the threshold value ΔV0 is a value set in advance according to the interlayer distance between the standard layer and the high-density layer of the SACD.
[0028]
8 to 10 show the driving voltage of the objective lens and the focus error signal at the time of focus search when the SACD, DVD and CD are loaded in the optical disc reproducing apparatus 100, with the time axis as the horizontal axis. The focus search is performed as follows. First, after the objective lens of the DVD pickup 3 is lowered to the lower limit position, the objective lens is raised to the upper limit position at a constant speed while emitting the DVD laser, and a focus error signal is detected by the DVD laser. Thereafter, the objective lens of the CD pickup 2 is lowered to the lower limit position while emitting the CD laser at the upper limit position, and a focus error signal is detected by the CD laser.
[0029]
When the focus search is performed as described above, as shown in FIG. 8, when the focus of the objective lens of the DVD pickup 3 passes through the recording surface of the high-density layer of the SACD (T = T9), a normal level focus error When the signal E9 is detected and the focus passes through the recording surface of the standard density layer of SACD (T = T10), an abnormal level focus error signal E10 is detected. When the focus of the objective lens of the CD pickup 2 passes through the recording surface of the standard density layer of SACD (T = T11), a normal level focus error signal E11 is detected, and the focus is recorded on the high density layer of SACD. When passing through the surface (T = T12), an abnormal level focus error signal E12 is detected. Therefore, when the DVD laser is irradiated, the highest level focus signal is E9, the focus drive voltage at that time is indicated by voltage A, and when the CD laser is irradiated, the highest level focus signal is E11. Yes, the focus drive voltage at that time is indicated by voltage B. As a result, the voltage difference ΔV (= B−A)> threshold value ΔV0, and the loaded optical disc D is determined to be SACD.
[0030]
On the other hand, as shown in FIG. 9, when a DVD is loaded in the optical disc playback apparatus 100, when the focus of the objective lens of the DVD pickup 3 passes through the recording surface of the DVD (T = T13), a normal level focus error When the signal E13 is detected and the focus of the objective lens of the CD pickup 2 passes through the recording surface of the DVD (T = T14), an abnormal level focus error signal E14 is detected. Therefore, when the DVD laser is irradiated, the highest level focus signal is E13, the focus drive voltage at that time is indicated by voltage A, and when the CD laser is irradiated, the highest level focus signal is E14. Yes, the focus drive voltage at that time is indicated by voltage B. At this time, as is apparent from the figure, A≈B and voltage difference ΔV (= B−A≈0) <threshold value ΔV, and it is determined that the loaded optical disk D is a DVD or a CD.
[0031]
Also, as shown in FIG. 10, when a CD is loaded in the optical disc playback apparatus 100, when the focus of the objective lens of the DVD pickup 3 passes the recording surface of the CD (T = T15), an abnormal level focus error When the signal E15 is detected and the focus of the objective lens of the CD pickup 2 passes the CD recording surface (T = T16), a normal level focus error signal E16 is detected. Therefore, when the DVD laser is irradiated, the highest level focus signal is E15, the focus drive voltage at that time is indicated by voltage A, and when the CD laser is irradiated, the highest level focus signal is E16. Yes, the focus drive voltage at that time is indicated by voltage B. At this time, as is apparent from the figure, A≈B and voltage difference ΔV (= B−A≈0) <threshold value ΔV, and it is determined that the loaded optical disk D is a DVD or a CD.
[0032]
As described above, if the focus search is sequentially performed by the DVD pickup 3 and the CD pickup 2 and the focus drive voltage when the highest level focus signal is detected from each pickup is measured, the type of the loaded optical disk D is determined. Can be determined.
[0033]
As a result of the discrimination, when the control unit 8 discriminates that the optical disc D loaded in the optical disc playback apparatus 100 is an SACD, the DVD pickup 3 reads out the recording data of the high-density layer of the SACD and performs the playback processing by the decoder 7. .
[0034]
Next, the procedure of the discriminating process of the optical disc D by the control unit 8 will be described with reference to FIG. When the optical disk D is loaded, the DVD laser is emitted (DVD laser on) (# 21), the focus search is started (# 22), and the focus drive voltage value when the largest focus error signal is detected is measured (# 22). # 23). The value measured in # 23 is set as a DVD laser drive value A. When the focus search by the DVD laser is completed (# 24), the emission of the DVD laser is stopped (DVD laser off) (# 25). Thereafter, the CD laser is emitted (CD laser on) (# 26), focus search is started (# 27), and the focus drive voltage value when the largest focus error signal is detected is measured (# 28). The value measured in # 28 is set as a CD laser drive value B. When the focus search by the CD laser is completed (# 29), the emission of the CD laser is stopped (CD laser off) (# 30). Then, the voltage difference ΔV is calculated from the DVD laser drive value A and the CD laser drive value B obtained by # 23 and # 28, and the type of the optical disc D is compared by comparing the magnitude of the voltage difference ΔV and the threshold value ΔV0. Is discriminated (# 31).
[0035]
Thus, according to the optical disc reproducing apparatus 100 of the present embodiment, the focus drive voltage A when the focus signal is detected by irradiating the DVD laser and the focus drive when the focus signal is detected by irradiating the CD laser. Since the voltage difference ΔV = B−A from the voltage B is calculated and the type of the optical disk D is determined based on the magnitude of the voltage difference ΔV, the loaded optical disk D can be accurately determined. When the loaded optical disk D is an SACD, the high-density layer data is read by the DVD pickup 3 and reproduced by the decoder 7, so that the user can listen to high-quality music. When it is determined that the loaded optical disk is a CD, the recorded data of the CD is read and reproduced by the CD pickup 2, so that the user can listen to the current CD software.
[0036]
(Embodiment 3)
Still another embodiment of the present invention will be described with reference to FIGS. The block configuration of the optical disk reproducing apparatus according to the third embodiment is the same as that of the optical disk reproducing apparatus 100 according to the first embodiment shown in FIG. 1, and the discriminating method of the optical disk D by the control unit 8 is different. That is, the control unit 8 (signal counting means) counts the number of focus signals detected by irradiating the DVD laser or the CD laser, and determines the type of the optical disc D based on the number of focus signals.
[0037]
FIG. 12 is an enlarged view of the objective lens drive voltage and focus error signal during focus search in the time axis (horizontal axis) direction when the SACD is loaded in the optical disc playback apparatus 100. The focus search is performed in the same manner as the optical disk reproducing apparatus of the first embodiment, but in this embodiment, irradiation with only a DVD laser or a CD laser is sufficient. Show. When the focus of the objective lens of the DVD pickup 3 passes through the recording surface of the high-density layer of SACD by the focus search (T = T17), a normal level focus error signal E17 is detected, and the focus is the standard density layer of the SACD. When passing through the recording surface (T = T18), an abnormal level focus error signal E18 is detected.
[0038]
After detecting the first focus signal E17, the control unit 8 stops counting the focus signal until a predetermined count stop time ΔT0 elapses while continuing to drive the objective lens, and then counts the focus signal. To resume. Here, the time ΔT0 is set according to the speed of focus search (moving speed of the objective lens). In this embodiment, since the time ΔT = T18−T17> ΔT0 from when the first focus signal E17 is detected until the second focus signal E17 is detected, E18 is also counted following E17. The number of focus error signals counted by the control unit 8 is two.
[0039]
On the other hand, when a DVD (single layer) or CD is loaded in the optical disk playback device, the number of recording surfaces is one, so the number of focus error signals detected and counted by the control unit 8 is also one. Become.
[0040]
FIG. 13 shows the objective lens drive voltage and focus error signal at the time of focus search in an enlarged manner in the time: T-axis direction when a two-layer DVD is loaded in the optical disc playback apparatus. When the focus of the objective lens of the DVD pickup 3 passes through the recording surfaces of the first and second layers of the DVD (T = T19, T20), normal level focus error signals E19, E20 are detected, respectively. Here, the interlayer distance (55 ± 15 μm) of the two-layer DVD is about 1/10 times the interlayer distance (0.6 mm) of the SACD. Accordingly, the time ΔT ′ = T20−T19 from the detection of the first focus signal E19 to the detection of the second focus signal E20 in this case is about 1/10 times the time ΔT. Therefore, by setting the time ΔT0 to approximately the middle of the time ΔT and the time ΔT ′, the time ΔT ′ <time ΔT0 is satisfied, the signal E20 is not counted, and the number of focus error signals counted by the control unit 8 is one. Become.
[0041]
As described above, when the SACD is loaded into the optical disc reproducing apparatus 100, two focus error signals are counted, and when a DVD (one layer or two layers) and a CD are loaded, one focus error signal is counted. Is done. Therefore, the type of the optical disk D loaded can be determined based on the number of focus error signals counted by the control unit 8.
[0042]
Next, the procedure of the discriminating process of the optical disc D by the control unit 8 will be described with reference to FIG. When the optical disk D is loaded, the DVD laser (or CD laser) is emitted (DVD laser on (or CD laser on)) (# 41), focus search is started (# 42), and the number of focus error signals is counted. To start. When the number of signals of the first focus error signal is counted (# 43), the counting of the number of signals is interrupted until the predetermined time ΔT0 has elapsed (NO in # 44) (# 49). During this time, the focus search continues. If predetermined time ΔT0 has elapsed (YES in # 44), the counting of the number of signals is resumed (# 45). When the focus search ends (# 46), the emission of the DVD laser (or CD laser) is stopped (DVD laser off (or CD laser off)) (# 47). Then, the type of the optical disk D is determined from the number of focus error signals counted in # 43 to # 46 (# 48).
[0043]
As described above, according to the optical disc reproducing apparatus 100, the control unit 8 stops counting the focus signal until a predetermined time elapses after detecting the first focus signal, and then restarts counting. By appropriately setting the value of time ΔT0, it is possible to distinguish and discriminate between a two-layer DVD having a small interlayer distance and a two-layer SACD having a large distance, and accurately discriminate the loaded optical disk D. be able to. When the loaded optical disk D is an SACD, the high-density layer data is read by the DVD pickup 3 and reproduced by the decoder 7, so that the user can listen to high-quality music. When it is determined that the loaded optical disk is a CD, the recorded data of the CD is read and reproduced by the CD pickup 2, so that the user can listen to the current CD software.
[0044]
The present invention is not limited to the configuration of the above-described embodiment, and various modifications are possible. For example, a focus signal detected by the control unit 8 to determine the type of the optical disc D is limited to a focus error signal. Instead, it may be a so-called AS signal obtained by calculating the total amount of light received by each light receiving unit. Further, the type of the optical disc D to be discriminated is not limited to the current SACD, DVD, or CD, and can be applied to other optical discs D on which two or more recording surfaces are formed. Further, the present invention is not limited to the configuration having the DVD pickup 3 and the CD pickup 2, but a DVD laser light source, a CD laser light source, a DVD laser light detector, and a CD light detector are provided in one optical pickup device. A structured DVD / CD integrated optical pickup may be used.
[0045]
【The invention's effect】
As described above, according to the first aspect of the present invention, the focus signal is detected using the DVD pickup and the CD pickup, and the disc discrimination means determines whether the detected focus signal is at a normal level or an abnormal level. Since the type of the optical disc is discriminated, the type of the loaded optical disc can be discriminated accurately. When it is determined that the loaded optical disc is an SACD, the reproduction processing means reproduces the high-density layer data read by the DVD pickup, so that the user can listen to high-quality music. When it is determined that the loaded optical disk is a CD, the reproduction processing means reproduces the data read by the CD pickup, so that the user can listen to the current CD software.
[Brief description of the drawings]
FIG. 1 is a block diagram of an optical disc playback apparatus according to an embodiment of the present invention.
FIG. 2 is a view showing a CD pickup and a DVD pickup used in the apparatus.
FIG. 3 is a diagram showing a driving voltage and a focus signal of an objective lens at the time of focus search when the SACD is loaded in the same apparatus.
FIG. 4 is a diagram showing a driving voltage and a focus signal of an objective lens during a focus search when a DVD is loaded in the apparatus.
FIG. 5 is a diagram showing a driving voltage and a focus signal of an objective lens during a focus search when a CD is loaded in the apparatus.
FIG. 6 is a view showing a focus search result when a DVD, a CD, and an SACD are loaded in the apparatus.
FIG. 7 is a flowchart showing a procedure of optical disc discrimination processing by the apparatus.
FIG. 8 is a diagram showing a driving voltage and a focus signal of an objective lens during a focus search when an SACD is loaded in an optical disc playback apparatus according to another embodiment of the present invention.
FIG. 9 is a diagram showing a driving voltage of an objective lens and a focus signal at the time of focus search when a DVD is loaded in the apparatus.
FIG. 10 is a diagram showing a driving voltage of an objective lens and a focus signal at the time of focus search when a CD is loaded in the apparatus.
FIG. 11 is a flowchart showing a procedure of optical disc discrimination processing by the apparatus.
FIG. 12 is a diagram showing a driving voltage of an objective lens and a focus signal at the time of focus search when an SACD is loaded in an optical disc reproducing apparatus according to another embodiment of the present invention.
FIG. 13 is a diagram showing an objective lens driving voltage and a focus signal at the time of focus search when a two-layer DVD is loaded in the apparatus.
FIG. 14 is a flowchart showing a procedure of optical disc discrimination processing by the apparatus.
[Explanation of symbols]
100 Optical disk playback device
2 CD pickup
3 DVD pickup
7 Decoder (reproduction processing means)
8 Control section (CD focus signal detection means, DVD focus signal detection means, disc discrimination means, voltage difference calculation means, signal count means)

Claims (1)

A CD laser light source for emitting a laser beam for reading data recorded on a CD (Compact Disk), an objective lens for condensing the laser beam emitted from the CD laser light source on a CD recording surface, and a CD A CD pickup having a photodetector for receiving the laser beam reflected by the recording surface;
DVD laser light source for emitting a laser beam for reading data recorded on a DVD (Digital Versatile Disk), an objective lens for condensing the laser beam emitted from the DVD laser light source on a DVD recording surface, and DVD A DVD pickup having a photodetector for receiving the laser beam reflected by the recording surface of
Focus drive means for focusing each objective lens on the recording surface of the optical disk to be reproduced by moving the objective lens of the CD pickup and DVD pickup in the optical axis direction of each laser beam;
CD focus signal detection means for detecting a focus signal generated when the focal point of the objective lens passes through the recording surface of the optical disk due to the movement of the objective lens of the CD pickup based on the output from the optical detector of the CD pickup. ,
DVD focus signal detection means for detecting a focus signal generated when the focus of the objective lens passes through the recording surface of the optical disk by the movement of the objective lens of the DVD pickup based on the output from the optical detector of the DVD pickup; In an optical disk playback device comprising:
The DVD focus signal detection means detects a focus signal by causing the DVD laser light source to emit a laser beam and moving the objective lens of the DVD pickup by the focus driving means,
The CD focus signal detection means detects the focus signal by causing the CD laser light source to emit a laser beam and moving the objective lens of the CD pickup by the focus driving means,
Disc discriminating means for discriminating the type of optical disc to be reproduced based on the focus signal detected by the CD focus signal detecting means and the DVD focus signal detecting means, and recording on the optical disc based on the discrimination result of the disc discriminating means. A reproduction processing means for reproducing the recorded data,
The disc discriminating means is
When both the DVD focus signal detection means and the CD focus signal detection means detect a normal level focus signal, the optical disk to be reproduced is recorded in a plurality of layers with standard density and high density data respectively recorded on the SA (Super Audio) It is determined that it is a CD hybrid disc,
When only the DVD focus signal detection means detects a focus signal at a normal level, it is determined that the optical disk to be reproduced is a DVD,
When only the CD focus signal detection means detects a focus signal at a normal level, it is determined that the optical disk to be reproduced is a CD,
The reproduction processing means includes
When it is determined that the optical disc to be reproduced is a SACD hybrid disc, the high-density layer data read by the DVD pickup is reproduced,
An optical disc reproducing apparatus for reproducing data read by the CD pickup when it is determined that the optical disc to be reproduced is a CD.

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