JP4130194B2 - Disc player - Google Patents

Description

  The present invention relates to a disc reproducing apparatus capable of reproducing a signal from an optical disc such as a CD or a DVD.

  Conventionally, a DVD player capable of reproducing a CD such as a CD-DA or VCD and a DVD such as a DVD-Video with compatibility is known. Since a laser cannot reproduce a DVD, it is necessary to first determine which optical disk it is.

As a method for discriminating an optical disc, a method for discriminating based on a difference in frequency of an RF signal obtained from an optical pickup is known, but there is a problem that it takes a long time to discriminate.
Therefore, the applicant has applied for a method for discriminating the type of the optical disk based on the amplitude value of the S-shaped waveform of the focus error signal by executing a focus search for searching for the focal point of the optical pickup (patent). References 1 and 2).
FIG. 6 shows an S-shaped waveform of a focus error signal when a focus search is performed on a CD, and FIG. 7 shows an S-shaped waveform of a focus error signal when a focus search is performed on a DVD. As shown in FIGS. 6 and 7, each focus error signal has one amplitude value. When the DVD laser light is irradiated to the CD, the amplitude value pk0 of the focus error signal shown in FIG. 6 is smaller than that when the CD laser light is irradiated, and the CD laser light is applied to the DVD. 7, the amplitude value pk1 of the focus error signal shown in FIG. 7 is smaller than that when the DVD laser light is irradiated. Therefore, the amplitude value when the optical disk for CD is irradiated with the laser beam for CD is compared with the amplitude value when the laser beam for DVD is irradiated, and the amplitude value when the laser beam for CD is irradiated is the laser beam for DVD. When the amplitude value is larger than the amplitude value when the laser beam is irradiated, the CD is judged to be CD, whereas the amplitude value when the DVD laser beam is irradiated is larger than the amplitude value when the CD laser beam is irradiated. Is determined to be a DVD.

There are various DVDs such as DVD-ROM, DVD-R, DVD-RW, DVD + R, DVD + RW, and DVD-RAM. Of these various DVDs, DVD-ROM, DVD + R, and DVD-R. Has two recording layers.
Therefore, a disc reproducing apparatus capable of discriminating the type of disc between a DVD having one recording layer (hereinafter referred to as a single layer DVD) and a DVD having two recording layers (hereinafter referred to as a dual layer DVD). It has been known.
FIG. 8 shows an S-shaped waveform of a focus error signal when a focus search is performed on a dual-layer DVD. As shown, the focus error signal has two amplitudes corresponding to two recording layers. Has a value. Therefore, the amplitude value of the S-shaped waveform of the focus error signal is detected, and when the detected amplitude value is one, it is determined that the DVD is a single layer DVD, whereas the detected amplitude value is two. In some cases, it is determined to be a dual-layer DVD.
Note that the applicant has applied for a disc reproducing apparatus capable of discriminating the disc type between a single-layer DVD and a double-layer DVD (see Patent Document 3).

By the way, as a next generation disk, development of a disk that performs recording and reproduction using blue laser light has been underway. As this type of disc, a disc called HD-DVD (High Density-DVD) is known, and the HD-DVD has a recording layer at a position of 0.6 mm from the surface in the same manner as a conventional DVD. Have.
Therefore, in recent years, a hybrid DVD having a recording layer compliant with the conventional DVD standard (hereinafter referred to as a DVD layer) and a recording layer compliant with the HD-DVD standard (hereinafter referred to as an HD-DVD layer) has been developed. It was.
In the above-described conventional disc reproducing apparatus capable of discriminating between the single-layer DVD and the double-layer DVD, when the hybrid DVD is loaded in the main body, two amplitude values of the focus error signal are detected. Thus, it is determined that the DVD is a double-layer DVD, and then reproduction is started using a DVD laser that emits red laser light.

JP-A-11-66712 Description of Japanese Patent Application 2002-002444 Specification of Japanese Patent Application No. 2003-024517

However, in the above conventional disk reproducing apparatus, since a normal reproduction signal cannot be obtained from the HD-DVD layer, the reproducing operation is stopped as an illegal disk, and the originally reproducible DVD layer cannot be reproduced. There was a problem.
An object of the present invention is to provide a disc reproducing apparatus capable of discriminating the disc type between an optical disc having a plurality of recording layers of the same type and an optical disc having a plurality of recording layers of different types.

A first disk reproducing apparatus according to the present invention is as follows.
An optical pickup for irradiating an optical disc with laser light;
Focus error signal generating means for generating a focus error signal based on the output signal of the optical pickup;
Detecting means for detecting the amplitude value of the S-shaped waveform of the focus error signal by changing the focusing position of the optical pickup in one direction;
Disc discriminating means for discriminating the type of the optical disc based on the relationship between the detected plurality of amplitude values ,
The disc discriminating means is an optical disc having two recording layers of the same type when the ratio of the larger amplitude value to the smaller amplitude value of the two detected amplitude values falls below a predetermined value. On the other hand, when the ratio exceeds the predetermined value, it is determined that the optical disc has two different recording layers .

Whether the optical disc is a dual-layer DVD having two DVD layers of the same type or a hybrid DVD having a DVD layer and an HD-DVD layer, the focus error signal of the two recording layers Two amplitude values are detected.
In the double-layer DVD standard, the reflectance of the two recording layers is determined to be 18 to 30%, and the difference in reflectance between the two recording layers is small. Therefore, the amplitude value corresponding to one recording layer and the other The difference from the amplitude value corresponding to the recording layer becomes smaller, and the ratio of the larger amplitude value to the smaller amplitude value becomes as small as about twice. On the other hand, in the hybrid DVD, since the difference in reflectance between both recording layers is large, the difference between the amplitude value corresponding to one recording layer and the amplitude value corresponding to the other recording layer is large, and the smaller one is smaller. The ratio of the larger amplitude value to the amplitude value is as large as about 10 times.
Accordingly, the predetermined value is set to 3, for example, and the ratio of the larger amplitude value to the smaller amplitude value of the two detected amplitude values is taken. If it exceeds a predetermined value, it can be determined that the DVD is a hybrid DVD.

A second disk reproducing apparatus according to the present invention is
An optical pickup for irradiating an optical disc with laser light;
Focus error signal generating means for generating a focus error signal based on the output signal of the optical pickup;
Amplifying means for amplifying the focus error signal;
Gain adjusting means for adjusting the amplitude value of the S-shaped waveform of the focus error signal to a specified value by adjusting the gain of the amplifying means ;
Detecting means for detecting the amplitude value of the S-shaped waveform of the focus error signal by changing the focusing position of the optical pickup in one direction;
Disc discriminating means for discriminating the type of the optical disc based on the relationship between the detected plurality of amplitude values ,
The detection means detects an amplitude value corresponding to the other recording layer in the first state in which the amplitude value corresponding to one recording layer is set to the specified value, and the amplitude value corresponding to the other recording layer Detects an amplitude value corresponding to the one recording layer in the second state set to the specified value,
The disc discriminating unit discriminates the type of the optical disc based on the ratio of the specified value to the amplitude value detected in the first state and the ratio of the specified value to the amplitude value detected in the second state ; When the ratio of the larger amplitude value to the smaller amplitude value of the two detected amplitude values is lower than a predetermined value, the optical disc having two recording layers of the same type is determined. There is determined that when exceeding the predetermined value, an optical disc having two recording layers of different types.

In particular,
The disc discriminating means is
Means for determining whether a ratio of the specified value to the amplitude value detected in the first state exceeds the predetermined value;
Means for determining that the optical disk has two recording layers of different types when the ratio is determined to exceed the predetermined value;
Means for determining whether a ratio of the specified value to an amplitude value detected in the second state exceeds the predetermined value when the ratio is determined to be lower than the predetermined value;
Means for determining that the optical disk has two recording layers of different types when the ratio is determined to exceed the predetermined value;
Means for determining that the optical disk has two recording layers of the same type when the ratio is determined to be lower than the predetermined value.

In the above disk reproducing apparatus , the gain of the amplifying means is adjusted so that the focus error signal is not distorted and the amplitude value is within a detectable range, thereby setting the amplitude value of the focus error signal to a specified value. The
In the case of a hybrid DVD in which the amplitude value corresponding to one recording layer is larger than the amplitude value corresponding to the other recording layer, when the amplitude value corresponding to the one recording layer is set to the prescribed value, The ratio of the amplitude value corresponding to the one recording layer to the amplitude value corresponding to the other recording layer exceeds the predetermined value.
On the other hand, in the case of a hybrid DVD or a dual-layer DVD whose amplitude value corresponding to the one recording layer is smaller than the amplitude value corresponding to the other recording layer, the amplitude corresponding to the other recording layer The ratio of the amplitude value corresponding to the one recording layer to the value is lower than the predetermined value.
When the amplitude value corresponding to the one recording layer is a hybrid DVD smaller than the amplitude value corresponding to the other recording layer, the amplitude value corresponding to the other recording layer is set to the specified value. Then, the ratio of the amplitude value corresponding to the other recording layer to the amplitude value corresponding to the one recording layer exceeds the predetermined value. On the other hand, in the case of a dual-layer DVD, the ratio of the amplitude value corresponding to the other recording layer to the amplitude value corresponding to the one recording layer is lower than the predetermined value.

A third disc reproducing apparatus according to the present invention is
An optical pickup for irradiating an optical disc with laser light;
Focus error signal generating means for generating a focus error signal based on the output signal of the optical pickup;
Amplifying means for amplifying the focus error signal;
Gain adjusting means for adjusting the amplitude value of the S-shaped waveform of the focus error signal to a specified value by adjusting the gain of the amplifying means;
Disc discriminating means for discriminating the type of optical disc based on the relationship of gain values when a plurality of amplitude values corresponding to a plurality of recording layers of the optical disc are respectively set to the prescribed values ;
The disc discriminating means includes a gain value when the amplitude value corresponding to one recording layer is set to the specified value and a gain value when the amplitude value corresponding to the other recording layer is set to the specified value. When the ratio of the larger gain value to the smaller gain value is lower than the predetermined value, it is determined that the optical disc has two recording layers of the same type, whereas when the ratio exceeds the predetermined value. It is determined that the optical disc has two recording layers of different types .

In the above disk reproducing apparatus, the gain of the amplifying means is adjusted so that the focus error signal is not distorted and the amplitude value is within a detectable range, thereby setting the amplitude value of the focus error signal to a specified value. The Therefore, of the two amplitude values of the focus error signal, the ratio of the larger amplitude value to the smaller amplitude value and the smaller amplitude with respect to the gain value when the larger amplitude value is set to the specified value. When the value is set to the specified value, the ratio of the gain values becomes equal.
As described above, in the focus error signal for the dual-layer DVD, the ratio of the larger amplitude value to the smaller amplitude value is as small as about twice, whereas in the focus error signal for the hybrid DVD, The ratio of the larger amplitude value to the smaller amplitude value is as large as about 10 times.
Accordingly, the predetermined value is set to 3, for example, and the ratio of the larger gain value to the smaller gain value is taken, and if the ratio is lower than the predetermined value, it is a dual-layer DVD, and if it exceeds the predetermined value, it is a hybrid DVD. Can be determined.

  According to the disc reproducing apparatus of the present invention, the disc type can be discriminated between an optical disc having a plurality of recording layers of the same type and an optical disc having a plurality of recording layers of different types.

Hereinafter, embodiments of the present invention implemented on a DVD player capable of reproducing CDs and DVDs will be described in detail with reference to the drawings.
As shown in FIG. 1, the DVD player according to the present invention includes an optical pickup (2) arranged to face the signal surface of the optical disc (1), a spindle motor (5) for rotating the optical disc (1), A drive circuit (6) for driving a focusing mechanism of the optical pickup (2) and a spindle motor (5), and an RF amplifier (3) for generating an RF signal and a focus error signal from an output signal of the optical pickup (2) And a DSP (4) that executes spindle servo based on the RF signal from the RF amplifier (3) and executes focus servo based on the focus error signal obtained from the RF amplifier (3). A microcomputer (7) is connected to the RF amplifier (3) and the DSP (4).
The optical pickup (2) includes a CD laser that emits red laser light to be irradiated onto a CD, and a DVD laser that emits red laser light to be irradiated onto a DVD layer of a single-layer DVD, a dual-layer DVD, and a hybrid DVD. .

When discriminating the disk, the microcomputer (7) issues a focus search command to the DSP (4), and the DSP (4) receives the command and supplies a focus drive signal to the drive circuit (6). In response to this, the drive circuit (6) drives the optical pickup (2). The DSP (4) detects the amplitude value of the S-shaped waveform of the focus error signal obtained from the RF amplifier (3), and supplies the result to the microcomputer (7). The microcomputer (7) Disc determination is performed based on the result.
Further, the microcomputer (7) sets the output value of the D / A converter (not shown) of the DSP (4), whereby an SGC (Signal Gain Control) voltage having a magnitude corresponding to the output value is set. Applied to the RF amplifier (3). The SGC gain of the RF amplifier (3) changes according to the magnitude of the SGC voltage.

2 and 3 show a disc discrimination procedure executed in the DVD player. First, after the CD laser is turned on in step S1 of FIG. 2, the RF amplifier (3) is turned on in step S2. The SGC gain is set to a predetermined value CDGj for disc discrimination by the CD laser. The predetermined value CDGj is also applied to a low-reflectance disk such as a CD-RW, DVD-RW, DVD + RW, or dual-layer DVD, regardless of variations in output of the optical pickup (2) and other circuit characteristics. The value is set so that the amplitude value of the S-shaped waveform of the focus error signal can be detected.
In step S3, a focus search is executed to detect the amplitude value pk0 of the S-shaped waveform of the focus error signal, and then the CD laser is turned off in step S4.

Subsequently, in step S5, after the DVD laser is set to ON, in step S6, the SGC gain of the RF amplifier (3) is set to a predetermined value DVDGj for disc discrimination by the DVD laser. The predetermined value DVDGj can detect the amplitude value of the S-shaped waveform of the focus error signal even for a low-reflectance disk, regardless of variations in the output of the optical pickup (2) and variations in other circuit characteristics. Set to a value.
In step S7, a focus search is executed to detect two amplitude values pk1 and pk2 of the S-shaped waveform of the focus error signal.

  Thereafter, in step S8 of FIG. 3, it is determined whether or not the amplitude value pk0 detected when the CD laser is turned on is larger than the two amplitude values pk1 and pk2 detected when the DVD laser is turned on as described above. Here, since the amplitude value when the CD laser is irradiated to the CD is larger than that when the CD laser is irradiated, if it is determined YES, it is determined in step S9 that the optical disk is a CD. . Subsequently, in step S12, the SGC gain of the RF amplifier (3) is adjusted so that the amplitude value of the focus error signal becomes a specified value, and the procedure ends. As described above, the reason for adjusting the SGC gain is that the predetermined values CDGj and DVDGj for disc discrimination can detect the amplitude value of the S-shaped waveform of the focus error signal even for a disc having a low reflectivity as described above. Since it is set to a large value, the focus error signal is distorted or the amplitude value of the focus error signal exceeds the maximum output value of the A / D converter (not shown) of the DSP (4) and the actual amplitude value is This is because it may not be obtained. The specified value is set to 1.8 V, for example.

  On the other hand, if NO is determined in step S8, the process proceeds to step S10 to determine whether or not the two amplitude values pk1 and pk2 detected when the DVD laser is turned on are both greater than zero. . Here, in the case of a single-layer DVD, one of the two amplitude values pk1 and pk2 has an amplitude value pk2, which is 0. If it is determined NO, the optical disc is a single-layer DVD in step S11. Is determined. Thereafter, the process proceeds to step S12, the SGC gain of the RF amplifier (3) is adjusted so that the amplitude value of the focus error signal becomes the specified value, and the procedure is terminated.

  If it is determined as YES in step S10, the process proceeds to step S13, a focus search is executed, and one of the two amplitude values pk1 and pk2 of the focus error signal is recorded on one recording layer (layer 0). After adjusting the SGC gain of the RF amplifier (3) so that the corresponding amplitude value pk1 becomes the specified value, the amplitude value pk2 corresponding to the other recording layer (layer 1) is detected.

Next, in step S14, it is determined whether or not the amplitude value pk1 corresponding to layer 0, that is, the prescribed value is more than three times the amplitude value pk2 corresponding to layer 1.
4 shows an S-shaped waveform of a focus error signal when a focus search is performed on a dual-layer DVD, and FIG. 5 shows an S-shaped waveform of the focus error signal when a focus search is performed on a hybrid DVD. ing. In the double-layer DVD standard, the reflectance of the two recording layers is determined to be 18 to 30%, and the difference in reflectance between the two recording layers is small, so that it corresponds to one recording layer as shown in FIG. The difference between the amplitude value pk1 to be performed and the amplitude value pk2 corresponding to the other recording layer is reduced, and the ratio of the larger amplitude value pk1 to the smaller amplitude value pk2 is about twice and smaller than 3. On the other hand, in the hybrid DVD, since the difference in reflectance between both recording layers is large, the difference between the amplitude value pk1 corresponding to one recording layer and the amplitude value pk2 corresponding to the other recording layer as shown in FIG. And the ratio of the larger amplitude value pk2 to the smaller amplitude value pk2 is about 10 times larger than 3.
Therefore, in the case of a hybrid DVD in which the amplitude value pk1 corresponding to layer 0 is larger than the amplitude value pk2 corresponding to layer 1, the amplitude value pk1 corresponding to layer 0 is three times the amplitude value pk2 corresponding to layer 1 In step S14, it is determined as YES. In step S18, it is determined that the optical disc is a hybrid DVD, and the procedure ends.

  On the other hand, if the amplitude value pk1 corresponding to layer 0 is a hybrid DVD or a dual-layer DVD smaller than the amplitude value pk2 corresponding to layer 1, it is determined no in step S14 and the process proceeds to step S15. Then, after executing the focus search and adjusting the SGC gain of the RF amplifier (3) so that the amplitude value pk2 corresponding to layer 1 among the two amplitude values pk1 and pk2 of the focus error signal becomes the specified value. The amplitude value pk1 corresponding to layer 0 is detected.

Next, in step S16, it is determined whether or not the amplitude value pk2 corresponding to layer 1, that is, the specified value is greater than three times the amplitude value pk1 corresponding to layer 0.
Here, when the amplitude value pk1 corresponding to the layer 0 is a hybrid DVD smaller than the amplitude value pk2 corresponding to the layer 1, the amplitude value pk2 corresponding to the layer 1 is 3 of the amplitude value pk1 corresponding to the layer 0. If it exceeds yes, it is determined as YES, and it is determined in step S18 that the optical disc is a hybrid DVD, and the procedure ends.
On the other hand, in the case of a dual-layer DVD, the amplitude value pk2 corresponding to layer 1 falls below three times the amplitude value pk1 corresponding to layer 0, and the determination is made in step S16. It is determined that the DVD is a double-layer DVD, and the procedure is terminated.

According to the above procedure, the type of optical disk can be discriminated among CD, single layer DVD, double layer DVD and hybrid DVD.
After the type of the optical disk is determined as described above, a predetermined operation such as a focus-in operation is performed as in the conventional case, and then the disk is reproduced.

In addition, each part structure of this invention is not restricted to the said embodiment, A various deformation | transformation is possible within the technical scope as described in a claim.
For example, the SGC gain of the RF amplifier (3) is adjusted so that the amplitude value corresponding to one recording layer becomes a specified value, and the RF amplifier (3) is set so that the amplitude value corresponding to the other recording layer becomes the specified value. The disc type between the dual-layer DVD and the hybrid DVD is adjusted based on the relationship between the SGC gain values when the SGC gain of the SGC gain is adjusted and the amplitude values corresponding to the two recording layers are respectively set to the prescribed values. Can also be determined. For example, the SGC gain value when the amplitude value corresponding to one recording layer is set to the specified value and the SGC gain value when the amplitude value corresponding to the other recording layer is set to the specified value. Among them, when the ratio of the larger gain value to the smaller gain value is lower than the predetermined value, it is determined to be a dual-layer DVD, and when the ratio exceeds the predetermined value, it is determined to be a hybrid DVD. The
The present invention can also be implemented in a disc reproducing apparatus that includes a laser that emits blue laser light to be irradiated onto the HD-DVD layer of a hybrid DVD and can reproduce the HD-DVD layer.

It is a block diagram showing the structure of the DVD player which implemented this invention. It is a flowchart showing the first half of the disc discrimination | determination procedure performed in the said DVD player. It is a flowchart showing the second half of the procedure. FIG. 6 is a waveform diagram showing an S-shaped waveform of a focus error signal when a focus search is performed on a dual-layer DVD. FIG. 6 is a waveform diagram showing an S-shaped waveform of a focus error signal when a focus search is performed for a hybrid DVD. It is a wave form diagram showing S character waveform of a focus error signal when a focus search is performed for CD. It is a wave form diagram showing S character waveform of a focus error signal when performing a focus search for single layer DVD. FIG. 6 is a waveform diagram showing an S-shaped waveform of a focus error signal when a focus search is performed on a dual-layer DVD.

Explanation of symbols

(1) Optical disc
(2) Optical pickup
(3) RF amplifier
(4) DSP
(5) Spindle motor
(6) Drive circuit
(7) Microcomputer

Claims (4)

An optical pickup for irradiating an optical disc with laser light;
Focus error signal generating means for generating a focus error signal based on the output signal of the optical pickup;
Detecting means for detecting the amplitude value of the S-shaped waveform of the focus error signal by changing the focusing position of the optical pickup in one direction;
Disc discriminating means for discriminating the type of the optical disc based on the relationship between the detected plurality of amplitude values ,
The disc discriminating means is an optical disc having two recording layers of the same type when the ratio of the larger amplitude value to the smaller amplitude value of the two detected amplitude values falls below a predetermined value. On the other hand, when the ratio exceeds the predetermined value, it is determined that the optical disk has two different types of recording layers . An optical pickup for irradiating an optical disc with laser light;
Focus error signal generating means for generating a focus error signal based on the output signal of the optical pickup;
Amplifying means for amplifying the focus error signal;
Gain adjusting means for adjusting the amplitude value of the S-shaped waveform of the focus error signal to a specified value by adjusting the gain of the amplifying means;
Detecting means for detecting the amplitude value of the S-shaped waveform of the focus error signal by changing the focusing position of the optical pickup in one direction;
Disc discriminating means for discriminating the type of the optical disc based on the relationship between the detected plurality of amplitude values,
The detection means detects an amplitude value corresponding to the other recording layer in the first state in which the amplitude value corresponding to one recording layer is set to the specified value, and the amplitude value corresponding to the other recording layer Detects an amplitude value corresponding to the one recording layer in the second state set to the specified value,
The disc discriminating unit discriminates the type of the optical disc based on the ratio of the specified value to the amplitude value detected in the first state and the ratio of the specified value to the amplitude value detected in the second state; When the ratio of the larger amplitude value to the smaller amplitude value of the two detected amplitude values is lower than a predetermined value, the optical disc having two recording layers of the same type is determined. Disc is determined to be an optical disc having two different types of recording layers when the value exceeds the predetermined value. The disc discriminating means is
Means for determining whether a ratio of the specified value to the amplitude value detected in the first state exceeds the predetermined value;
Means for determining that the optical disk has two recording layers of different types when the ratio is determined to exceed the predetermined value;
Means for determining whether a ratio of the specified value to an amplitude value detected in the second state exceeds the predetermined value when the ratio is determined to be lower than the predetermined value;
Means for determining that the optical disk has two recording layers of different types when the ratio is determined to exceed the predetermined value;
Means for determining that the optical disk has two recording layers of the same type when the ratio is determined to be lower than the predetermined value.
The disc reproducing apparatus according to claim 2, comprising: An optical pickup for irradiating an optical disc with laser light;
Focus error signal generating means for generating a focus error signal based on the output signal of the optical pickup;
Amplifying means for amplifying the focus error signal;
Gain adjusting means for adjusting the amplitude value of the S-shaped waveform of the focus error signal to a specified value by adjusting the gain of the amplifying means;
Disc discriminating means for discriminating the type of optical disc based on the relationship of gain values when a plurality of amplitude values corresponding to a plurality of recording layers of the optical disc are respectively set to the prescribed values;
The disc discriminating means includes a gain value when the amplitude value corresponding to one recording layer is set to the specified value and a gain value when the amplitude value corresponding to the other recording layer is set to the specified value. When the ratio of the larger gain value to the smaller gain value is lower than the predetermined value, it is determined that the optical disc has two recording layers of the same type, whereas when the ratio exceeds the predetermined value. A disc reproducing apparatus characterized in that the disc is determined to be an optical disc having two recording layers of different types .

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