JP3574024B2 - Wobble signal reproduction method and apparatus for optical disk - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a wobble signal reproducing method used in an information recording / reproducing apparatus for an optical disc and an apparatus therefor.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, on a recordable optical disc 1 such as a write-once optical disc (CD-WO) generally called a CD-R, the recording area has a waviness with a small amplitude in advance as shown in FIG. Track 2) is formed in a spiral shape. The undulation of this track indicates absolute time information called ATIP (Absolute Time In Pregroove) data, which has a basic frequency of 22.05 KHz, and a frequency corresponding to one bit of the ATIP data (frequency of 44.1 KHz). Every seven cycles), FSK (Frequency Shift Keying) modulation is performed so as to change by ± 1 KHz according to the content of the bit, that is, whether this bit is “1” or “0”.
[0003]
In addition, the ATIP data is composed of a number of consecutive frames each including one constant (84 bits) of bits and having a fixed pattern of frame synchronizing signals at predetermined positions. Each frame has a frequency of 75 Hz. Is repeated in a cycle of
[0004]
On the other hand, when recording information such as audio and video on the recordable optical disc described above, the number of music channels, the presence or absence of pre-emphasis, the number of the music, the time from the beginning of the music, and the absolute time from the innermost circumference of the disk Are recorded at the same time. In this subcode data, one frame is composed of a fixed number (98 bits) of bits (however, the unit length corresponding to one bit is ATIP data).Of(Unlike the case) and a plurality of frames composed of a bit string provided with a frame synchronization signal of a fixed pattern at a predetermined position, and each frame is recorded at a frequency of 75 Hz.
[0005]
Here, when information is actually recorded on the optical disk, it is necessary to reproduce the ATIP data because the standard defines that the ATIP data and the subcode data must be recorded in frame synchronization. . Therefore, when the conventional ATIP data is reproduced, the above-described undulation is detected and reproduced as an analog signal (wobble signal) having the undulation cycle, and demodulation is performed by an FSK demodulation circuit using an analog PLL circuit or the like. Was.
[0006]
However, in reproducing the wobble signal, there are the following problems.
[0007]
That is, the tracking error signal is obtained by taking the difference between the left and right of the return light reflected from the optical disk on the photodetector of the optical pickup. Therefore, when the objective lens moves following the eccentricity of the optical disc, the spot of the return light naturally moves right and left even on the photodetector in the optical pickup. Here, considering that there is noise in the return light, if the incident light intensities to the photodetectors are all at the same level, no noise is superimposed on the tracking error signal, but the level of the left and right incident light intensities Are different, noise and EFM signal components are superimposed on the tracking error signal, and the C / N of the wobble signal WB is reduced.
[0008]
For example, a write-once optical disc as described above has an area in which information is recorded and an unrecorded area. If a wobble signal is reproduced in an area in which information is recorded, the optical disc may have eccentricity or the like. If there is, the signal component of the recording information, that is, the EFM signal component is superimposed on the wobble signal to lower the C / N, so that the ATIP data cannot be accurately reproduced, causing a great hindrance to the search and causing an operation failure.
[0009]
In order to reduce such operation failure, for example, in the one-beam push-pull method, a wobble signal is reproduced with a circuit configuration disclosed in Japanese Patent Application Laid-Open No. 9-326122.
[0010]
That is, as shown in FIG. 3, the wobble signal reproducing apparatus includes an optical pickup 10 using the one-beam push-pull method, addition amplifiers 21A and 21B, capacitors 22A to 22D, a variable amplifier 23, a subtractor 24, an electronic switch 25, It comprises a low-pass filter (LPF) 26 and a band-pass filter (BPF) 27. Here, the capacitor 22D is a hold capacitor.
[0011]
The optical pickup 10 includes a well-known four-divided photodetector 11, and performs tracking correction using the total light receiving amount of the light receiving regions 11a and 11d located on the left side of the track and the total light receiving amount of the light receiving regions 11b and 11c located on the right side of the track. Focus correction can be performed by an astigmatism method or the like using the total amount of light received by the light receiving regions 11a and 11c and the total amount of light received by the light receiving regions 11b and 11d located on diagonal lines.
[0012]
The summing amplifier 21A receives the voltages output from the light receiving areas 11a and 11d of the optical pickup 10 and outputs a voltage V1 obtained by adding the voltages. The summing amplifier 21B outputs the voltage output from the light receiving areas 11b and 11c of the optical pickup 10. And outputs a voltage V2 obtained by adding them.
[0013]
Further, the voltage V1 output from the addition amplifier 21A is input to the variable amplifier circuit 23 via the coupling capacitor 22A, and the variable V3 changes the voltage value to a predetermined value based on the control voltage Vcon by the variable amplifier circuit 23. Is input to the non-inverting input terminal of the subtractor 24. The voltage V2 is input to the inverting input terminal of the subtractor 24 via the coupling capacitor 22B, and the subtractor 24 outputs the difference between them as a difference signal V4. The difference signal V4 is input to the first contact of the electronic switch 25 and to the bandpass filter 27.
[0014]
The second contact of the electronic switch 25 is open, and the contact piece is connected to the input terminal of the low-pass filter 26 and is grounded via the hold capacitor 22C.
[0015]
The electronic switch 25 is switched by an EFM signal reproduced from the RF signal. When the EFM signal is at a high level, the contact is connected to the first contact. When the EFM signal is at a low level, the contact is connected to the second contact. Connected to.
[0016]
Here, a sample and hold circuit is configured by the electronic switch 25 and the hold capacitor 22C.
[0017]
When the difference signal V4 is input to the low-pass filter 26 via the electronic switch 25, only a predetermined frequency component, for example, a frequency component of 40 KHz or less is extracted from the difference signal V4 by the low-pass filter 26. Is output.
[0018]
On the other hand, the difference signal V4 input to the band-pass filter 27 has only a frequency component within a predetermined frequency band by the band-pass filter 27, that is, only a frequency component within a predetermined frequency band centered on the frequency 22.05 KHz of the wobble signal. It is extracted and output as a wobble signal WB.
[0019]
According to the above configuration, when a track on which information on an optical disc is recorded, that is, a track on which pits are formed is reproduced, the RF signal is modulated by the EFM signal. Therefore, the EFM signal can be reproduced from the RF signal.
[0020]
However, the voltages V1 and V2 required for reproducing the wobble signal are also mixed with the EFM signal, and the levels of the voltages V1 and V2 are different. Here, the EFM signal components mixed into these voltages V1 and V2 are generated.MinutesA variable amplifier circuit 23 generates a voltage V3 in which the level of the voltage V1 is corrected so as to be equal to each other, and further generates a difference signal V4 between the voltage V3 and the voltage V2 by a subtractor 24 so that the EFM component is not mixed. The voltage V4 is obtained, and the wobble signal is reproduced from the voltage V4.
[0021]
In correcting the voltage V1 in the variable amplifier 23, the difference signal V4 is input to the low-pass filter 26 only when the EFM signal is at the high level H, and the envelope component of the difference signal V4, that is, the EFM signal component is extracted by the low-pass filter 26. This is used as the control voltage Vcon to correct the voltage V1.
[0022]
Accordingly, the level of the voltage V3 is substantially the same as the level of the voltage V2, so that the noise component and the EFM signal component of the voltage V3 and the noise component and the EFM signal component of the voltage V2 cancel each other, and the noise component and the EFM signal component are eliminated. Is reduced or eliminated to generate a wobble signal WB.
[0023]
[Problems to be solved by the invention]
However, with the increase in information recording density in recent years, the width of tracks formed on an optical disk has become narrower and the interval between adjacent tracks has become narrower, and crosstalk has occurred from adjacent tracks, and the C / C ratio of the wobble signal WB has been reduced. N decreased and ATIP data could not be read in many cases.
[0024]
That is, in the case of the 640 MB write-once optical disk referred to as the CD-R described above, the track pitch becomes narrower as the recording time becomes longer as 63 minutes, 74 minutes, and 80 minutes, and this tendency will become remarkable in the future. it is conceivable that.
[0025]
Therefore, as shown in FIG. 4, the light spot 4 on the track 3 could be tracked without hitting the adjacent track, but the light spot 6 on the track 5 hit the adjacent track as shown in FIG. Sometimes it happens.
[0026]
For this reason, in wobble signal reproduction, crosstalk from an adjacent track may occur, and the C / N of the wobble signal WB may decrease, so that reading of ATIP data may become impossible.
[0027]
In view of the above problems, it is an object of the present invention to be able to always reproduce an accurate wobble signal with a simple configuration even on an optical disc having a high information recording density.LightAn object of the present invention is to provide a disk wobble signal reproducing method and apparatus.
[0028]
[Means for Solving the Problems]
The present invention has been made in order to achieve the above object.According to the first aspect, a track having a meandering track based on absolute time information is used to detect reflected light from an optical disc having pits formed along the track using a photodetector. In a wobble signal reproducing method for an optical disc for reproducing a wobble signal that changes in accordance with the meandering of a track,The reflected light corresponds to the radial direction of the optical disc.WasIt forms a rectangular shape having a first side and a second side corresponding to the tangential direction of the track in the reflected light, and the length of the first side and the length of the second side are equal to the length of the reflected light. An electric signal representing an incident light amount corresponding to each of the four light receiving regions, the light receiving region having four independent light receiving regions each having a length equal to or longer than the diameter and formed by dividing the at least first side into four parts; Using a photo detector to output,Removing light at both ends in the radial direction of the optical disc in the reflected light;The photodetector is arranged so that the reflected light straddles the four light receiving areas, and only the two light receiving areas in the central part are used, and the light receiving amount in one light receiving area in the central part is used to determine the other light receiving area in the central part. A wobble signal reproduction method for an optical disc that reproduces a wobble signal based on the light amount obtained by subtracting the light reception amount of the optical disk is proposed.
[0029]
According to the wobble signal reproducing method of the optical disc, when receiving the reflected light, the first side is arranged so as to coincide with the radial direction of the optical disc in the reflected light. Further, at this time, the reflected light is arranged so as to straddle the four light receiving regions. As a result, the reflected light component from the adjacent track irradiates the light receiving area on the outer side in the first side direction.
[0030]
Further, by using only the electric signals output from the two light receiving regions located at the center, the reflected light component from the adjacent track is removed, and the light receiving amount of one of the two light receiving regions is received. An electrical signal representing the difference between the received light amount and the received light amount in the other light receiving region is obtained, and a wobble signal excluding the reflected light component from the adjacent track is obtained.
[0031]
Also,According to claim 2, a first side corresponding to a radial direction of the optical disc in reflected light from an optical disc having a track meandering based on absolute time information and having pits formed along the track, The reflected light has a rectangular shape having a second side corresponding to a tangential direction of the track, and the length of the first side and the length of the second side are longer than the diameter of the reflected light. The first side is divided into four, and the second side is divided into two, and has eight independent light receiving regions, and the eight light receiving regions have a center of the reflected light. When the light is received at the center of the rectangular shape, the reflected light is formed at a position covering all of the eight light receiving regions, and outputs an electric signal representing the amount of incident light corresponding to each of the eight light receiving regions.Using a photodetector, the photodetector is arranged so that the reflected light straddles the eight light-receiving regions, and only the four light-receiving regions in the center of the first side direction of the photodetector are used. Divided into two in one side direction, the sum of the received light amounts of the two divided light receiving regions is determined as a first light amount, and the sum of the received light amounts of the other two divided light receiving regions is obtained. Is obtained as a second light amount, and a wobble signal reproducing method for an optical disc for reproducing a wobble signal based on the light amount obtained by subtracting the second light amount from the first light amount is proposed.
[0032]
According to the wobble signal reproducing method of the optical disc, when receiving the reflected light, the first side is arranged so as to coincide with the radial direction of the optical disc in the reflected light. Further, at this time, the reflected light is arranged so as to straddle the eight light receiving regions. As a result, the reflected light component from the adjacent track irradiates the light receiving area on the outer side in the first side direction.
[0033]
Further, using only the electric signals output from the four light receiving regions located at the center, the light receiving amounts of the two light receiving regions on one side of the boundary line parallel to the second side among the four light receiving regions. And the sum of the light receiving amounts of the two light receiving areas on the other side is obtained, an electric signal representing the light receiving amount of the difference is obtained, and a wobble signal excluding the reflected light component from the adjacent track is obtained.
[0034]
In addition, an electric signal representing a total incident light amount of the eight light receiving areas is obtained based on an electric signal output from a high frequency signal (RF signal) used for information reproduction corresponding to each of the eight light receiving areas. Is obtained by
[0035]
Further, the focus error signal (FE signal) is obtained by calculating the sum of the light receiving amounts of four light receiving regions located on one diagonal line on the light receiving surface of the photodetector and the sum of the light receiving amounts of four light receiving regions located on the other diagonal line. Is obtained by obtaining an electric signal representing the light amount obtained by subtracting
[0036]
Further, the tracking error signal (TE signal) is a sum of the light receiving amounts of the four light receiving regions on one side of the central boundary line parallel to the second side and the light receiving amount of the four light receiving regions on the other side. Is obtained, and an electric signal representing the amount of received light of the difference is obtained.
[0037]
Also,Claim 3Has a track meandering on the basis of absolute time information, and uses a photodetector divided at least in the left and right direction of the track to reflect light reflected from an optical disk having pits formed along the track. A wobble signal reproducing apparatus for an optical disc for detecting and reproducing a wobble signal that changes in accordance with the meandering of the track from the detection result;A first side corresponding to a radial direction of the optical disc in reflected light from an optical disc having a track meandering based on absolute time information and having pits formed along the track; A rectangular shape having a second side corresponding to a tangential direction of the track, wherein the length of the first side and the length of the second side are set to be equal to or longer than the diameter of the reflected light; The first side is divided into four and the second side is divided into two, and has eight independent light receiving regions. The eight light receiving regions are such that the center of the reflected light is the center of the rectangular shape. , The reflected light is formed at a position covering all of the eight light receiving areas, and outputs an electric signal representing the amount of incident light corresponding to each of the eight light receiving areas.These two photodetectors are divided into two in the direction of the first side by dividing the four light receiving areas in the center of the photodetector in the first side direction into two in the first direction. First calculating means for calculating the sum of the light receiving amounts of the light receiving regions, and calculating the sum of the light receiving amounts of the two light receiving regions based on the electric signals output from the two light receiving regions present on the other of the two divided areas A second calculating means, and an output means for outputting as a wobble signal an electric signal representing a light receiving amount obtained by subtracting the light receiving amount obtained by the second calculating means from the light receiving amount obtained by the first calculating means. An optical disk wobble signal reproducing device is proposed.
[0038]
According to the wobble signal reproducing apparatus for the optical disk, the first arithmetic means divides the four light receiving regions in the center of the photodetector in the first side direction into two in the first side direction. Based on the electric signal output from the light receiving area, the sum of the light receiving amounts of these two light receiving areas is obtained. In addition, the total of the light receiving amounts of the two light receiving areas is obtained by the second calculating means based on the electric signals output from the two light receiving areas existing in the other of the two divided light receiving areas. Further, the output means outputs, as a wobble signal, an electric signal representing the light reception amount obtained by subtracting the light reception amount obtained by the second calculation means from the light reception amount obtained by the first calculation means. Therefore, a wobble signal containing no reflected light component from the adjacent track can be obtained.
[0039]
According to a fourth aspect of the present invention, in the wobble signal reproducing apparatus for an optical disk according to the third aspect, the four light receiving areas at the center among the eight light receiving areas have the same area as each other. Suggest a device.
[0040]
According to the wobble signal reproducing apparatus for the optical disk, since the four light receiving regions at the center of the photodetector have the same area, the error detection is performed by locating the center of the reflected light at the intersection of the four light receiving regions. In the state where the light is not generated, the light receiving amounts of the respective light receiving areas become substantially equal.
[0041]
Also,Claim 5ThenClaim 3 or 4In the wobble signal reproducing apparatus for an optical disk described in the above, the photodetector outputs an electric signal having a voltage level or a current level corresponding to the amount of light received in each light receiving area, and the first summing means, the second summing means, and the output means A wobble signal reproducing device for an optical disc including an operational amplifier is proposed.
[0042]
According to the wobble signal reproducing apparatus for the optical disk, the photodetector outputs an electric signal having a voltage level or a current level corresponding to the amount of light received in each light receiving area, and the electric signal is arithmetically processed by the operational amplifier to generate a wobble signal. Is played.
[0043]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
[0044]
FIG. 1 is a configuration diagram showing an optical disk wobble signal reproducing apparatus according to an embodiment of the present invention. In the figure, the same components as those of the above-described conventional example are denoted by the same reference numerals, and description thereof will be omitted. The difference between the present embodiment and the conventional example is that an optical pickup 30 provided with a photodetector 31 having eight light receiving areas A to H is provided.
[0045]
The photodetector 31 has a rectangular light-receiving surface, and the length of the long side and the length of the short side are set to be equal to or longer than the diameter of the light reflected from the optical disk. It is divided into four in the direction and has light receiving areas A to H independent of each other. An electric signal having a voltage level corresponding to the amount of received light is output for each of the light receiving regions A to H.
[0046]
Further, the boundary between the four light receiving regions A, B, C, and D at the center and the four light receiving regions E, F, G, and H at the outer edge adjacent thereto is formed at a position where the reflected light can be divided. Four light receiving areas A, B, C, D at the centerIsThey have equal areas.
[0047]
That is, the light receiving regions E, A, B, and F are arranged in the order from the left on the upper side, and the light receiving regions G, C, D, and H are arranged in the lower left from the left.
[0048]
The photodetector 31 is arranged so that the long side of the photodetector 31 coincides with the radial direction (hereinafter referred to as a radial direction) R of the optical disk in the reflected light from the optical disk, and the tangential direction of the track (hereinafter referred to as the tangential direction). ) Is arranged so that the short side of the photodetector 31 coincides with T). Further, as shown in FIG. 6, in the normal state, the photodetector 31 irradiates the reflected light 7 from the optical disk across the eight light receiving areas A to H, and the center of the reflected light 7 The light receiving areas A, B, C, and D are arranged so as to coincide with intersections.
[0049]
On the other hand, in the device of the present embodiment, in order to obtain a high-frequency signal (RF signal), a focus error signal (FE signal), and a tracking error signal (TE signal) used for information reproduction, the addition amplifiers 41 to 41 including operational amplifiers are used. 49 and subtracters 51 and 52. The addition amplifiers 41 to 49 and the subtractors 51 and 52 are connected as follows..That is, the electric signal output of the light receiving region A is connected to one input terminal of the addition amplifier 21A and one input terminal of the adder 41, and the electric signal output of the light receiving region B is connected to one input terminal of the addition amplifier 21B. It is connected to one input terminal of the adder 42.
[0050]
The electric signal output of the light receiving area C is connected to one input terminal of the addition amplifier 21B and one input terminal of the adder 44, and the electric signal output of the light receiving area D is connected to the other input terminal of the addition amplifier 21B and the adder. 43 is connected to one input terminal.
[0051]
The electric signal output of the light receiving region E is connected to the other input terminal of the addition amplifier 41, and the electric signal output of the light receiving region F is connected to the other input terminal of the addition amplifier 42.
[0052]
The electric signal output of the light receiving region G is connected to the other input terminal of the summing amplifier 44, and the electric signal output of the light receiving region H is connected to the other input terminal of the summing amplifier 43.
[0053]
The output terminal of the addition amplifier 41 is connected to one input terminal of the addition amplifier 45 and one input terminal of the addition amplifier 46, and the output terminal of the addition amplifier 42 is connected to one input terminal of the addition amplifier 47 and the input terminal of the addition amplifier 48. Connected to one input terminal.
[0054]
The output terminal of the addition amplifier 43 is connected to the other input terminal of the addition amplifier 45 and the other input terminal of the addition amplifier 48, and the output terminal of the addition amplifier 44 is connected to the other input terminal of the addition amplifier 46 and the other input terminal of the addition amplifier 47. Connected to input terminal.
[0055]
Further, the output terminal of the addition amplifier 45 is connected to one input terminal of the addition amplifier 49 and the non-inverting input terminal of the subtractor 51,The output terminal isIt is connected to the non-inverting input terminal of the subtractor 52.
[0056]
The output terminal of the addition amplifier 47 is connected to the other input terminal of the addition amplifier 49 and the inverting input terminal of the subtractor 51.The output terminal isIt is connected to the inverting input terminal of the subtractor 52.
[0057]
As a result, the wobble signal WB is output from the subtracter 22A via the band pass filter 28.
[0058]
In the present embodiment, since only the four light receiving areas A to D at the center shown in FIG. 6 are used in the reproduction of the wobble signal, the reflected light 7 from the optical disc at both ends in the radial direction of the optical disc is used. That is, the reflected light component from the adjacent track can be removed. Thereby, the reflected light component from the adjacent track is removed, so that the wobble signal without crosstalk from the adjacent track is reproduced using only the light at the center. Therefore, it is possible to prevent a decrease in the C / N of the wobble signal, so that the ATIP data can be easily read.
[0059]
Further, an RF signal is output from the addition amplifier 49, a focus error signal (FE signal) is output from the subtractor 51, and a tracking error signal (TE signal) is output from the subtractor 52.
[0060]
That is, in the high frequency signal (RF signal) used for information reproduction, the voltage levels of the electric signals output corresponding to each of the eight light receiving regions A to H are all summed by the addition amplifiers 41 to 45, 47, and 49. Then, an electric signal having a voltage level that is equal to the total number of incident light in the eight light receiving regions is output from the addition amplifier 49.
[0061]
Further, the focus error signal (FE signal) is obtained by calculating the sum of the light receiving amounts of the four light receiving areas A, D, E, and H located on one diagonal line on the light receiving surface of the photodetector 31 from the four light receiving areas located on the other diagonal line. It can be obtained by obtaining an electric signal representing the light quantity obtained by subtracting the sum of the light receiving quantities of the light receiving areas B, C, F and G.
[0062]
In the present embodiment, an electric signal having a voltage level corresponding to the sum of the amounts of light received in four light receiving areas A, D, E, and H located on one diagonal line on the light receiving surface of the photodetector 31 is output from the addition amplifier 45. You. Further, an electric signal having a voltage level corresponding to the sum of the amounts of light received by the four light receiving areas B, C, F, and G located on the other diagonal line on the light receiving surface of the photodetector 31 is output from the addition amplifier 47. The subtracter 51 outputs an electric signal having a voltage level obtained by subtracting the voltage level of the output signal of the addition amplifier 47 from the voltage level of the output signal of the addition amplifier 45 as a focus error signal (FE signal).
[0063]
The tracking error signal (TE signal) is a sum of the light receiving amounts of the four light receiving regions on one side of the central boundary line parallel to the second side and a total of the light receiving amounts of the four light receiving regions on the other side. Is obtained, and an electric signal representing the amount of received light of the difference is obtained.
[0064]
In the present embodiment, an electric signal having a voltage level corresponding to the sum of the light receiving amounts of the four light receiving areas A, C, E, and G on one side of the central boundary line that divides the photodetector 31 into two parts in the radial direction is added. It is output from 46. Further, an electric signal having a voltage level corresponding to the sum of the amounts of light received in the four light receiving areas B, D, F, and H on the other side of the center boundary is output from the summing amplifier 48. The subtracter 52 outputs an electric signal having a voltage level obtained by subtracting the voltage level of the output signal of the addition amplifier 48 from the voltage level of the output signal of the addition amplifier 46 as a tracking error signal (TE signal).
[0065]
The configuration of the present embodiment is an example, and the present invention is not limited to the above configuration.
[0066]
Further, a photodetector having only four light receiving areas A to D may be used, and a part of a reflected light component from an adjacent track in the reflected light applied to the photodetector may be blocked by a light-shielding plate or the like to be incident on the photodetector. Similar effects can be obtained.
[0067]
【The invention's effect】
As described above, claims 1 and 2 of the present invention.Optical disk describedAccording to the wobble signal reproducing method described above, by removing the light reflected from the optical disc at both ends in the radial direction of the optical disc, the reflected light component from the adjacent track is removed, so that only the light at the center is used. As a result, a wobble signal without crosstalk from an adjacent track is reproduced, and a decrease in the C / N of the wobble signal can be prevented, so that the ATIP data can be easily read.
[0068]
Also in the centerSince the wobble signal is reproduced by using only the electric signals output from the two light receiving areas located at the position (1), the reflected light component from the adjacent track can be removed very easily. As a result, it is possible to prevent a decrease in the C / N of the wobble signal, so that the ATIP data can be easily read.
[0069]
Also, information playbackA high-frequency signal (RF signal), a focus error signal (FE signal), and a tracking error signal (TE signal) can be obtained.
[0070]
Also,Claims 3 to 5According to the wobble signal reproducing apparatus for an optical disk described above, a wobble signal containing no reflected light component from an adjacent track can be obtained, so that a decrease in the C / N of the wobble signal can be prevented, and the ATIP data Can be read.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a wobble signal reproduction device according to an embodiment of the present invention.
FIG. 2 is a diagram for explaining the undulation of a track on a write-once optical disc;
FIG. 3 is a configuration diagram showing a conventional wobble signal reproducing device.
FIG. 4 is a view for explaining the relationship between tracks and light spots on a CD-R.
FIG. 5 is a view for explaining the relationship between tracks and light spots on a DVD-R.
FIG. 6 is a diagram illustrating the relationship between a photodetector and reflected light according to an embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Optical disk, 2 ... Track, 3, 5 ... Track, 4, 6 ... Light spot, 7 ... Reflected light, 10 ... Optical pickup, 11 ... Photodetector, 11a-11d ... Light receiving area, 21A, 21B ... Addition amplifier, 22A -22C: capacitor, 23: variable amplifier circuit, 24: subtractor, 25: electronic switch, 26: low-pass filter (LPF), 27: band-pass filter (BPF), 30: optical pickup, 31: photodetector, A-H ... Light receiving areas, 41 to 49... Addition amplifiers, 51, 52.

Claims (5)

It has a track meandering based on the absolute time information, detects reflected light from an optical disk having pits formed along the track using a photodetector, and uses the detection result to correspond to the track meandering. A wobble signal reproducing method for an optical disc for reproducing a wobble signal that changes by
A rectangular side having a first side corresponding to a radial direction of the optical disc in the reflected light and a second side corresponding to a tangential direction of the track in the reflected light;
The length of the first side and the length of the second side are set to be equal to or longer than the diameter of the reflected light, and at least four independent light receiving areas formed by dividing the first side into four parts. Using a photodetector that outputs an electric signal representing the amount of incident light corresponding to each of the four light receiving regions,
The photodetector is arranged so that the reflected light is removed at both ends in the radial direction of the optical disc and the reflected light straddles the four light receiving regions,
Using only the two light receiving areas in the center,
A wobble signal reproducing method for an optical disc, characterized in that a wobble signal is reproduced based on a light quantity obtained by subtracting a light receiving quantity of the other light receiving area of the central part from a light receiving quantity of one light receiving area of the central part. A first side corresponding to a radial direction of the optical disc in reflected light from an optical disc having a track meandering based on absolute time information and having pits formed along the track; A rectangular shape having a second side corresponding to the tangential direction of the track,
The length of the first side and the length of the second side are set to be equal to or longer than the diameter of the reflected light,
The first side has eight independent light receiving regions formed by dividing the second side into four parts and the second side into two parts,
The eight light receiving regions are formed at positions where the reflected light covers all of the eight light receiving regions when the center of the reflected light is received at the center of the rectangular shape,
Using a photodetector that outputs an electric signal representing the amount of incident light corresponding to each of the eight light receiving regions ,
Arranging the photo detector so that the reflected light straddles the eight light receiving areas,
Using only the four light receiving regions at the center of the photodetector in the first side direction, dividing the four light receiving regions into two in the first side direction,
The sum of the light receiving amounts of the two light receiving areas divided into the two is obtained as a first light amount,
The sum of the light receiving amounts of the other two light receiving regions divided into the two is obtained as a second light amount,
A wobble signal reproducing method for an optical disk, comprising: reproducing a wobble signal based on a light amount obtained by subtracting the second light amount from the first light amount. A track having a meandering track formed on the basis of absolute time information, and reflected light from an optical disc having pits formed along the track is detected using at least a photodetector divided into two parts in the left-right direction of the track. A wobble signal reproducing apparatus for an optical disc for reproducing a wobble signal that changes in accordance with the meandering of the track from the detection result;
A first side corresponding to a radial direction of the optical disc in reflected light from an optical disc having a track meandering based on absolute time information and having pits formed along the track; A rectangular shape having a second side corresponding to the tangential direction of the track,
The length of the first side and the length of the second side are set to be equal to or longer than the diameter of the reflected light,
The first side has eight independent light receiving regions formed by dividing the second side into four parts and the second side into two parts,
The eight light receiving regions are formed at positions where the reflected light covers all of the eight light receiving regions when the center of the reflected light is received at the center of the rectangular shape,
A photodetector that outputs an electric signal representing the amount of incident light corresponding to each of the eight light receiving regions ;
The four light receiving regions at the center in the first side direction of the photodetector are divided into two in the first side direction. The two light receiving regions are divided based on the electric signals output from the two light receiving regions. First calculating means for calculating the total amount of received light;
A second calculating means for calculating a sum of light receiving amounts of the two light receiving regions based on an electric signal output from two light receiving regions present in the other of the two divided portions;
An optical disk comprising: an output unit that outputs, as a wobble signal, an electric signal representing a light reception amount obtained by subtracting the light reception amount obtained by the second calculation unit from the light reception amount obtained by the first calculation unit. Wobble signal reproducing device. 4. The wobble signal reproducing apparatus for an optical disk according to claim 3, wherein four light receiving areas at the center of the eight light receiving areas have the same area. The photodetector outputs an electric signal having a voltage level or a current level corresponding to the amount of light received in each light receiving region,
5. The optical disk wobble signal reproducing apparatus according to claim 3 , wherein the first summing unit, the second summing unit, and the output unit include an operational amplifier.

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