JP2915855B2 - Optical disk drive - Google Patents

Description

Description: BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] The present invention relates to an optical disc apparatus for recording and reproducing an optical disc. 2. Description of the Related Art A wobbling method is known as one of methods for detecting a tracking error when reproducing an optical disk. One specific form of the wobbling method is that a wobbling groove (groove) is formed (pre-formatted) on an optical disc in advance, and a tracking error,
In this method, information such as a clock is extracted by a push-pull signal. When a recording film whose reflectance increases when recording is used, conventionally, the groove width w is 1 / the track pitch q.
Because it is smaller than 2, (land level> groove level)
Was in a relationship. When recording is performed on an optical disk having the above-mentioned relationship (land level> groove level), the groove level rises and the RMI (Radial
Modulation Index) decreases. This RMI means the degree of modulation of the traverse signal. When the RMI decreases, a sufficient signal amplitude cannot be obtained corresponding to the point at which the reproduction beam crosses the track when scanning in the radial direction of the optical disk,
The problem of incorrect track count occurs. Therefore, it is conceivable to record data in an area between wobbled grooves, that is, a land. If recording is performed on the land, the RMI increases, and a traverse signal having a sufficient amplitude change corresponding to the track can be obtained. However, since the wobbling phases of adjacent grooves in the radial direction of the optical disc do not coincide with each other, in other words, the width of the land constantly changes, the fluctuation of the sum signal (referred to as HF signal) of the two-divided detector is extremely large. Had a big problem. Therefore, an object of the present invention is to reduce the fluctuation of the HF signal in land recording, and to reduce the R
An object of the present invention is to provide an optical disk device with an increased MI. SUMMARY OF THE INVENTION The present invention is directed to a beam spot having a width smaller than the diameter of a beam spot to be irradiated.
Serial to wobbled groove at a predetermined frequency is previously formed
An optical disc apparatus for detecting, on a recordable optical disc, clock information and address information contained in a wobble of a groove based on a difference signal of a detector divided in a width direction of the groove. A wide groove having a width equal to or more than 1/2 of the track pitch is formed, and (land level <groove level). Since recording is made in this groove, R
MI rises. Also, to record in the groove,
The reproduction spot is applied to both edges of the groove having the same phase, the fluctuation of the HF signal is reduced, and a stable push-pull signal (difference signal of the two-divided detector) is obtained.
Further, since recording is performed in the wide groove, the film in the recording spot has good planarity and the S / N of the reproduction signal is improved. An embodiment of the present invention will be described below. FIG. 1 shows a reproducing apparatus to which the present invention is applied, and 1 is an optical disk. This optical disc 1
As shown in an enlarged manner in FIG. 2, the groove 2 to be wobbled is preformatted. The wobbling frequency of the groove 2 is set to 22.05 [kHz]. The groove 2 has clock information and information of an absolute time code similar to that of a CD (compact disk).
If the track pitch is q, the width w of the groove 2 is
(W ≧ 1 / 2q), which is smaller than the diameter of the reproduction spot. As an example, the width w and the depth d of the groove 2 are selected to the following values. Here, λ is the wavelength of the reproduction light. (9/16) q <w <(12/16) q λ / 9 <d <λ / 6 [0010] The recording film 3 deposited on the surface of the optical disc 1
Is a reflectance modulation film such as bismuth tellurium antimony selenium in which the reflectance after recording is increased. Pits are recorded on the bottom surface in the groove 2. The above-described recorded optical disk is reproduced by an optical system including a semiconductor laser 4, an objective lens 5, a λ / 4 plate 6, a beam splitter 7, and a collimator lens 8.
Reproduced by the split detector 9. 2-split detector 9
Is a light receiving element 10A divided in the radial direction of the optical disc 1.
And 10B. The output signal of the light receiving element 10A is supplied to the addition circuit 12 and the subtraction circuit 13 via the amplifier 11A.
Are supplied to the addition circuit 12 and the subtraction circuit 13 via the.
Assuming that the output signal of the amplifier 11A is Sa and the output of the amplifier 11B is Sb, (Sa + S
b) The HF signal is formed, and the subtraction circuit 13
A push-pull signal (Sa-Sb) is formed. The HF signal taken out from the output terminal 14 is
It contains pit information and is supplied to a demodulation circuit (not shown) of EFM (8 → 14 modulation). The push-pull signal taken out to the output terminal 15 contains a tracking error and is supplied to a tracking servo circuit (not shown). In the tracking servo circuit, a tracking error signal is formed by, for example, synchronous detection of the push-pull signal. Further, the push-pull signal is supplied to the band pass filter 16. The output signal of the band pass filter 16 is supplied to the waveform shaping circuit 17. The clock signal generated in the waveform shaping circuit 17 is supplied to the spindle servo circuit 18. The spindle servo circuit 18 controls a spindle motor 19 to drive the optical disc 1 at CLV. The output signal of the waveform shaping circuit 17 is supplied to the FM decoder 20, and the output terminal 21 obtains absolute time information. According to the present invention, since the pits are formed in the groove 2, both edges of the groove 2 having the same phase are applied to the outer portion of the reproduction spot. It becomes very small and a stable push-pull signal is obtained. For example, when the wobbling amplitude (peak-to-peak value) is ± 100 nm, the fluctuation of the HF signal can be 1% or less. Further, according to the present invention, the difference between the groove level and the land level becomes larger after recording, and a traverse signal can be obtained stably. Further, according to the present invention, since recording is performed on the bottom surface in the wide groove, the flatness of the film in the recording spot is improved, and a reproduced signal with a good S / N is obtained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a reproducing apparatus according to an embodiment of the present invention. FIG. 2 is a partially enlarged view of an optical disk to which the present invention is applied. [Description of Signs] 1 ... optical disk, 2 ... groove, 3 ... recording film, 4 ... semiconductor laser, 9 ... two-segment detector, 1
2 ... Addition circuit, 13 ... Subtraction circuit

   ────────────────────────────────────────────────── ─── Continuation of front page       (56) References JP-A-61-236046 (JP, A)                 JP-A-62-47841 (JP, A)                 JP-A-62-52735 (JP, A)                 JP-A-58-91544 (JP, A)

Claims (1)

(57) [Claims] With a width smaller than the diameter of the irradiated beam spot,
Pre groove which is wobbled at a predetermined frequency with respect to the width direction
On the formed recordable optical disk, the clock information and the address information included in the wobble of the groove are detected based on the difference signal of the detector divided in the width direction of the groove. Optical disk device.