JP3830306B2 - Tilt detection method, detection apparatus and recording / reproducing apparatus for optical disk recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention, tilt detection method and detection apparatus of the optical disc recording medium in the optical disc apparatus using an optical disk recording medium, and a recording and reproducing apparatus including the tilt detecting device.
[0002]
[Prior art]
In recent years, with the progress of the information society, optical disc recording media are required to have a larger capacity and higher density. The optical disk recording medium here includes a read-only medium, an additional recordable medium, a rewritable phase change type, and a rewritable magneto-optical disk recording medium.
[0003]
In order to increase the capacity and density of optical disk recording media, measures such as shortening the wavelength of the laser light source of the optical head and increasing the numerical aperture (NA) of the lens are taken. Along with this, the allowable level of tilt (inclination) of the optical disk recording medium has become very small.
[0004]
As a method for detecting the tilt of such an optical disk recording medium, for example, there is a method described in Japanese Patent Laid-Open No. 10-302319. In this detection method, the tilt of the optical disk recording medium is detected using a push-pull signal obtained as a tracking error signal.
[0005]
FIG. 1 shows an outline of a tracking detection circuit that obtains a push-pull signal as a tracking error signal. The tracking detection circuit 10 includes a two-divided photodetector 11 that is divided into two in the direction crossing the track, and a comparator 12. The two detection signals Sd1 and Sd2 of the two-divided photodetector 11 are input to the comparator 12, and the difference Se between the two detection signals is output as a tracking error signal (push-pull signal).
[0006]
As shown in FIG. 1, when the optical head including the two-divided photodetector 11 is located at the center of the groove portion G or land portion L of the disk recording medium, the zero-order diffracted light Ld0 and the first-order diffracted light Ld1 are two. Since each divided detector of the divided photodetector 11 is evenly irradiated, the two detection signals Sd1 and Sd2 are substantially equal, and the tracking error signal Se that is the output of the comparator 12 is substantially zero. However, when the optical head deviates from the center of the groove portion G or land portion L of the disk recording medium, that is, when tracking is shifted, the balance between the two detection signals Sd1 and Sd2 by the first-order diffracted light Ld1 is lost, and the output of the comparator 12 The tracking error signal Se is a positive or negative value depending on the tracking shift direction and shift amount.
[0007]
In the tilt detection method described above, the groove portion G or the land portion L is provided with a wobble region in which the spatial frequency is changed, that is, an uneven region in a direction crossing the track, and the tracking error signal Se generated from the wobble region is a period. So that the signal changes continuously. When there is a tilt, the periodic change of the tracking error signal Se is different from the change when there is no tilt, so the tilt of the optical disk recording medium is detected.
[0008]
[Problems to be solved by the invention]
However, the above-described conventional method has a problem in that it is difficult to manufacture the optical disk recording medium because the shape of the wobble area in which the spatial frequency is changed is complicated in the groove portion or the land portion of the optical disk recording medium.
[0009]
SUMMARY OF THE INVENTION An object of the present invention is to provide a tilt detection method and detection apparatus that can easily manufacture an optical disk recording medium, and a recording / reproducing apparatus including the tilt detection apparatus .
[0011]
[Means for Solving the Problems]
According to the tilt detection method of a magneto-optical recording medium according to the present invention , a plurality of wobble regions are formed along an information recording track constituted by a land portion or a groove portion, and formed on one of the left side and the right side of the track. An optical disk recording / reproduction using an optical disk recording medium in which the first wobble area and the second wobble area formed on the other side are arranged so as to be displaced forward and backward, and a set of these wobble areas is formed along the track. The tilt of the optical disk recording medium is detected by comparing the tracking error signal obtained from the first wobble area with the tracking error signal obtained from the second wobble area. For example, when the amplitude of the tracking error signal obtained from the first wobble area is equal to the amplitude of the tracking error signal obtained from the second wobble area, it is determined that the tilt of the optical disk recording medium is zero.
[0012]
According to the tilt detection method of the magneto-optical recording medium, such as described above, to be shifted back and forth along the track (groove portion or the land portion), a simple first and second wobble area provided on the left and right shape It can be. This simplifies the manufacture of the optical disk recording medium.
[0013]
The second tilt detection method according to the present invention is obtained from the amplitude of the tracking error signal obtained from the first wobble area of the first track constituted by the land portion of the optical disk recording medium and the second wobble area. The ratio of the tracking error signal to the amplitude of the tracking error signal is detected as the first amplitude ratio, and the tracking error signal amplitude and the second wobble obtained from the first wobble area of the second track formed by the groove portion adjacent to the land portion are detected. The ratio of the tracking error signal obtained from the area is detected as a second amplitude ratio, and the tilt of the optical disk recording medium is detected by comparing the first amplitude ratio with the second amplitude ratio. And For example, it is determined that the tilt of the optical disk recording medium is zero when the first amplitude ratio is equal to the second amplitude ratio.
[0014]
When the wobble width (unevenness) of the first wobble area is the same as the wobble width of the second wobble area, the tracking error signal amplitude obtained from the first wobble area and the second wobble area are obtained. When the amplitude of the tracking error signal is equal, it can be determined that the tilt of the optical disk recording medium is zero. However, due to manufacturing variations, the wobble width of the first wobble area and the wobble width of the second wobble area may not be the same.
[0015]
Even in such a case, the tilt can be correctly detected by the second tilt detection method. One of the first wobble region and the second wobble region is common (the direction is opposite) in the land portion and the groove portion adjacent to the land portion, and the other is also in the same circumferential direction and close in the radial direction. It is easy to make the wobble widths equal. Therefore, the amplitude ratio between the first wobble area and the second wobble area in the land portion and the amplitude ratio between the first wobble area and the second wobble area in the groove portion are in an inverse relationship, and when the tilt is zero, This is because they are equal.
[0016]
In addition, the optical disk recording medium tilt detection apparatus according to the present invention performs optical disk recording based on the amplitude ratio between the amplitude of the tracking error signal obtained from the first wobble area and the amplitude of the tracking error signal obtained from the second wobble area. A tilt detector for detecting a tilt of the medium; and a memory for storing the amplitude ratio. For example, in the second detection method, the memory stores the amplitude ratio between the first wobble area and the second wobble area in the land portion, and the first wobble area and the second wobble area in the groove portion. Is used for comparison with the amplitude ratio (determining whether or not there is an inverse relationship).
[0017]
Furthermore, an optical disc recording / reproducing apparatus according to the present invention includes a tracking control unit that performs tracking control based on a tracking error signal obtained from the first wobble area or a tracking error signal obtained from the second wobble area, and the tilt detection described above. And a tilt correction mechanism that performs tilt correction based on a signal from the tilt detection device.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 2 is a schematic configuration diagram of an optical disc recording / reproducing apparatus according to an embodiment of the present invention. The optical disk recording / reproducing apparatus 20 irradiates an optical disk recording medium 21 with laser light and reads a recorded information from reflected light, in addition to an optical head 22, a tracking control circuit 23, a tilt detector 24, a memory 25, and a tilt correction mechanism 26. It has. The tracking control circuit 23 controls the tracking mechanism of the optical head 22 so that the tracking error signal Se fed back from the optical head 22 becomes zero. It also performs control such as track jumping.
[0019]
The tilt detector 24 detects the presence or absence of tilt (tilt) of the optical disk recording medium 21 using a plurality of tracking error signals Se provided from the optical head 22. If there is a tilt, its direction and size are also detected. At this time, highly accurate detection is performed using the memory 25 as described later. In addition, the tilt correction mechanism 26 controls the tilt of the optical head 22 so as to compensate for the tilt of the optical disk recording medium 21 in accordance with a signal from the tilt detector 24. Specifically, by adjusting the carriage, spindle, or actuator of the optical head 22, the angle between the optical axis and the optical disc recording medium 21 is adjusted to a predetermined angle.
[0020]
FIG. 3 is a partially enlarged perspective view of the optical disk recording medium according to the embodiment of the present invention. FIG. 4 is a partially enlarged plan view of the optical disk recording medium. As shown in FIGS. 3 and 4, in this optical disk recording medium, a plurality of wobble areas WA and WB are formed along an information recording track constituted by a land portion L or a groove portion G. In FIG. 4, focusing on the groove portion G, the first wobble area WA formed on the left side and the second wobble area WB formed on the right side along the tracking direction Dt are arranged so as to be displaced forward and backward. Wobble areas WA and WB are configured. Focusing on the land portion L, the first wobble area WA formed on the right side and the second wobble area WB formed on the left side along the tracking direction Dt are arranged so as to be displaced forward and backward. Areas WA and WB are configured.
[0021]
In FIG. 4, when the optical head is tracking along the center line of the land portion L or the groove portion G indicated by a broken line, in the regions other than the wobble regions WA and WB, the tracking shown in FIG. The tracking error signal Se in the detection device 10 is zero. However, in the wobble areas WA and WB, the optical head is substantially deviated (detracked) from the center of the land portion L or the groove portion G, and a positive or negative level appears in the tracking error signal Se. This is shown in FIG.
[0022]
FIG. 5 is a waveform diagram showing the relationship between the wobble areas WA and WB and the tracking error signal Se when the optical disk recording medium is not tilted (zero). The left side (a) shows the case where the optical head is tracking along the center line (broken line) of the land portion L, and the right side (b) shows the optical head along the center line (broken line) of the groove portion G. This is the case of tracking.
[0023]
As shown in FIG. 5 (a), in the wobble area WA of the land portion L, the position of the optical head (broken line) changes from the substantial center of the land portion L (track) to the right, and then changes to the left. Return to the center. As a result, the tracking error signal Se changes from zero to a plus level, changes to a minus level, and then returns to zero. The amplitude at this time (the difference between the peak value of the plus level and the peak value of the minus level) is L1. In the wobble area WB immediately after that, the position of the optical head (broken line) changes from the substantial center of the land portion L to the left, then changes to the right, and returns to the center. As a result, the tracking error signal Se changes from zero to a negative level, changes to a positive level, and then returns to zero. The amplitude L2 at this time is substantially equal to the amplitude L1.
[0024]
Similarly, as shown in FIG. 5B, in the wobble area WA of the groove portion G, the position of the optical head (broken line) changes from the substantial center of the groove portion G to the right, and then changes to the left. Return to the center. As a result, the tracking error signal Se changes from zero to a negative level, changes to a positive level, and then returns to zero. The amplitude at this time is G1. In the wobble area WB immediately after that, the position of the optical head (broken line) changes from the substantial center of the groove portion G to the left, then changes to the right, and returns to the center. As a result, the tracking error signal Se changes from zero to a plus level, changes to a minus level, and then returns to zero. The amplitude G2 at this time is substantially equal to the amplitude G1.
[0025]
As described above, when the optical disc recording medium of the embodiment is used, the amplitude L1 (or G1) of the tracking error signal obtained from the first wobble area WA in the land portion L (or groove portion G), and the second If the tracking error signal amplitude L2 (or G2) obtained from the wobble area WB is equal, it can be determined that the tilt of the optical disk recording medium is zero. However, in this case, it is a condition that the first wobble area WA and the second wobble area WB have the same shape, particularly the wobble width.
[0026]
Next, the relationship between the wobble areas WA and WB and the tracking error signal Se when the tilt of the optical disk recording medium is not zero is shown in FIGS. FIG. 6 shows a case where a negative tilt exists, and FIG. 7 shows a case where a positive tilt exists. 5A and 5B, the left side (a) shows the case where the optical head is tracking along the center line (broken line) of the land portion L, and the right side (b) shows the case where the optical head is the groove portion G. This is a case where tracking is performed along the center line (broken line).
[0027]
As can be seen from FIG. 6A, when the optical disk recording medium has a negative tilt, the land portion L obtains the amplitude L1 of the tracking error signal obtained from the first wobble area WA from the second wobble area WB. It is larger than the amplitude L2 of the tracking error signal. Conversely, in the groove part G, the amplitude G1 of the tracking error signal obtained from the first wobble area WA is smaller than the amplitude G2 of the tracking error signal obtained from the second wobble area WB (see FIG. 6B). Therefore, when one or both of the above two conditions are satisfied, it is determined that a negative tilt exists in the optical disk recording medium. The magnitude of the tilt can also be determined from the difference or ratio between the amplitude L1 (or G1) and the amplitude L2 (or G2).
[0028]
Similarly, according to FIGS. 7A and 7B, the amplitude L1 of the tracking error signal obtained from the first wobble area WA in the land portion L is the amplitude L2 of the tracking error signal obtained from the second wobble area WB. If the amplitude G1 of the tracking error signal obtained from the first wobble area WA in the groove portion G is larger than the amplitude G2 of the tracking error signal obtained from the second wobble area WB, the optical disc recording medium is correct. Is determined to exist.
[0029]
When the presence of positive or negative tilt is detected as described above, the tilt correction mechanism 26 determines that the amplitude L1 (or G1) and the amplitude L2 (or G2) are equal based on the detection signal. Thus, the tilt of the optical head 22 is controlled.
[0030]
As described above, the tilt detection method in the above embodiment is based on the premise that the first wobble area WA and the second wobble area WB of the optical disk recording medium, in particular, the wobble width (unevenness) is formed to be equal. It is. However, considering manufacturing variations, it is not always easy to make the first wobble region and the second wobble region have the same shape. If the wobble width of the first wobble area is different from that of the second wobble area, the amplitude L1 (or G1) of the tracking error signal obtained from the first wobble area WA and the second wobble area even if the tilt is zero The tracking error signal amplitude L2 (or G2) obtained from WB is not equal.
[0031]
In this case, the tilt can be detected using two amplitude ratios. That is, the amplitude ratio L1 / L2 between the amplitude L1 of the tracking error signal obtained from the first wobble area WA in the land portion and the amplitude L2 of the tracking error signal obtained from the second wobble area WB, and the land portion The amplitude ratio G1 / G2 between the amplitude G1 of the tracking error signal obtained from the first wobble area WA and the amplitude G2 of the tracking error signal obtained from the second wobble area WB in the adjacent groove part G is used.
[0032]
For example, as shown in FIG. 6, when a negative tilt exists, the amplitude ratio L1 / L2 in the land portion is larger than 1, the amplitude ratio G1 / G2 in the groove portion is smaller than 1, and these amplitude ratios are mutually different. Reciprocal relationship. Similarly, as shown in FIG. 7, when a positive tilt exists, the amplitude ratio L1 / L2 in the land portion is smaller than 1, the amplitude ratio G1 / G2 in the groove portion is larger than 1, and these amplitude ratios are also mutually different. Reciprocal relationship. These reciprocal relationships of the amplitude ratios are established even when the wobble widths of the first wobble area and the second wobble area are slightly different.
[0033]
As can be seen from FIG. 4, for example, the first wobble area WA in the land portion is also the first wobble area WA in the adjacent groove portion. Further, although the second wobble areas WB are separate, since they are the same circumferential position and close in the radial direction, it is easy to make the wobble widths equal. For this reason, as described above, the amplitude ratio L1 / L2 in the land portion and the amplitude ratio G1 / G2 in the adjacent groove portion are in a reciprocal relationship. An example of the actual measurement of this relationship is shown in the graph of FIG.
[0034]
In the example of FIG. 8, if the tilt is in the range of about +/− 10 mrad, the direction and value of the tilt are based on the amplitude ratio L1 / L2 in the land portion and the amplitude ratio G1 / G2 in the adjacent groove portion. Can be uniquely detected. Further, it is possible to detect a state where the tilt is zero from the condition that L1 / L2 = G1 / G2. For example, tilt detection is performed in the following procedure.
[0035]
In the block diagram of the recording / reproducing apparatus shown in FIG. 2, the tilt detector 24 firstly tracks the amplitude L1 of the tracking error signal Se of the first wobble area WA and the tracking of the second wobble area WB in a certain track (for example, land). The amplitude L2 of the error signal Se is detected, and the amplitude ratio L1 / L2 is calculated. The amplitude ratio L1 / L2 is temporarily stored in the memory 25. Next, by the action of the tracking control circuit 23, a track jump is performed to an adjacent track (for example, a cleave portion). The tilt detector 24 detects the amplitude G1 of the tracking error signal Se in the first wobble area WA and the amplitude G2 of the tracking error signal Se in the second wobble area WB, similarly to the land portion, and the amplitude ratio G1 / G2 Is calculated.
[0036]
Subsequently, the tilt detector 24 compares the previous amplitude ratio L1 / L2 read from the memory 25 with the current amplitude ratio G1 / G2. If L1 / L2> G1 / G2, a negative tilt has occurred. If L1 / L2 <G1 / G2, it is determined that a positive tilt has occurred, and the tilt detector 24 A signal for correcting the tilt is supplied to the tilt correction mechanism 26. The tilt correction mechanism 26 controls the tilt of the optical head 22 according to the signal. By such a feedback control loop, the inclination of the optical head 22 is controlled so that L1 / L2 = G1 / G2.
[0037]
The first and second wobble areas provided on the optical disc recording medium of the present invention may be at least one set for one or both of the land portion and the groove portion, but a plurality of sets are provided at a predetermined pitch along the track. Is preferred. In this case, tilt detection and correction can be performed continuously. Further, it is preferable to provide the first and second wobble areas over a plurality of tracks. In this case, not only the tilt of the entire optical disk recording medium is uniformly tilted but also a portion caused by warpage or distortion of the optical disk recording medium. It is also possible to detect a tilt and control the tilt of the optical head.
[0038]
【The invention's effect】
As described above, the tilt detection method and detection apparatus of the optical disc recording medium of the present invention, and according to the recording and reproducing apparatus, it is easy to manufacture the optical disc recording medium used in the detection of the tilt.
[Brief description of the drawings]
FIG. 1 is a diagram showing an outline of a conventional tracking detection circuit.
FIG. 2 is a schematic configuration diagram of an optical disc recording / reproducing apparatus according to an embodiment of the present invention.
FIG. 3 is a partially enlarged perspective view of an optical disk recording medium according to an embodiment of the present invention.
FIG. 4 is a partially enlarged plan view of an optical disc recording medium according to an embodiment of the present invention. .
FIG. 5 is a waveform diagram showing the relationship between the first and second wobble areas and the tracking error signal Se when there is no tilt of the optical disk recording medium.
FIG. 6 is a waveform diagram showing the relationship between the first and second wobble areas and the tracking error signal Se when a negative tilt exists in the optical disk recording medium.
FIG. 7 is a waveform diagram showing the relationship between the first and second wobble areas and the tracking error signal Se when a positive tilt exists in the optical disk recording medium.
FIG. 8 is a graph showing an example of an actual measurement of the reciprocal relationship between an amplitude ratio in a land portion and an amplitude ratio in an adjacent groove portion.
[Explanation of symbols]
21 Optical disk recording medium 22 Optical head 23 Tracking control circuit 24 Tilt detector 25 Memory 26 Tilt correction mechanism G Groove part (track)
L Land (Track)
Se Tracking error signal L1, L2, G1, G2 Tracking signal amplitudes WA, WB in the wobble area

Claims (4)

A plurality of wobble areas are formed along the information recording track formed by the land section or the groove section. The first wobble area is formed on the left side or the right side of the track, and the second wobble area is formed on the other side. An optical disc recording medium tilt detection method in optical disc recording / playback using an optical disc recording medium which is arranged so as to be shifted back and forth with respect to the wobble area, and these wobble areas are formed along one set of the tracks ,
The tilt of the optical disk recording medium is detected by comparing the tracking error signal obtained from the first wobble area with the tracking error signal obtained from the second wobble area. Detection method. A Tilt detection method of an optical disc recording medium of claim 1, wherein,
Detecting the ratio of the amplitudes of the tracking error signal obtained from the second wobble region of the first tracking error signal obtained from the wobble region of the first track, which is constituted by the front Kira command unit as a first amplitude ratio And
The ratio of the amplitude of the tracking error signal obtained from the first wobble area of the second track constituted by the groove part adjacent to the land part and the amplitude of the tracking error signal obtained from the second wobble area is the second amplitude. Detect as a ratio,
A tilt detection method for an optical disk recording medium, wherein the tilt of the optical disk recording medium is detected by comparing the first amplitude ratio and the second amplitude ratio. A plurality of wobble regions are formed along the information recording track formed by the land portion or the groove portion. The first wobble region is formed on one of the left side and the right side of the track, and the second is formed on the other side. A tilt detection device for an optical disc recording medium in optical disc recording / reproduction using an optical disc recording medium that is arranged so as to be shifted back and forth with respect to the wobble area, and these wobble areas are formed along one track ,
A tilt detector for detecting tilt of an optical disk recording medium based on an amplitude ratio between an amplitude of a tracking error signal obtained from the first wobble area and an amplitude of a tracking error signal obtained from the second wobble area; A tilt detection apparatus for an optical disk recording medium, comprising: a memory for storing an amplitude ratio. A plurality of wobble areas are formed along the information recording track formed by the land section or the groove section. The first wobble area is formed on the left side or the right side of the track, and the second wobble area is formed on the other side. An optical disc recording / reproducing apparatus using an optical disc recording medium that is arranged so that the wobble area is shifted back and forth, and these wobble areas are formed as a set along the track ,
A tracking control unit that performs tracking control based on a tracking error signal obtained from the first wobble region or a tracking error signal obtained from the second wobble region;
A tilt detector that performs tilt detection of an optical disc recording medium based on an amplitude ratio between the amplitude of the tracking error signal obtained from the first wobble area and the amplitude of the tracking error signal obtained from the second wobble area; and A tilt detection device having a memory for storing the amplitude ratio ;
An optical disc recording / reproducing apparatus comprising: a tilt correction mechanism that performs tilt correction based on a signal from the tilt detection apparatus.

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