JPH0991701A - Information recording method and device, information reproducing method and device, and information recording medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an information recording method and a device, an information reproducing method and a device, and an information recording medium for accurately reproducing pre-information with simple constitution of a reproducing device, at the time of reproducing by a tangential push-pull method. SOLUTION: At the time of recording pre-information, recorded pre- information corresponding to inputted pre-information is outputted by calculating exclusive OR of pre-information and the recorded pre-information of one bit before the pre-information, the outputted recorded pre-information is delayed by one bit and exclusive OR is calculated with pre-information inputted at a next step(new). A series of recorded pre-information is outputted by repeating the above mentioned operation for each bit (each clock), and it is recorded as pre-bit 4. Also, recorded pre-information is formed making delay in the above mentioned operation as 2 bits and recorded, while a decoder corresponding to (1-D) conversion is connected to a reproduced signal at the time of reproducing.

Description

Detailed Description of the Invention

[0001]

The present invention relates to a DVD (Digital
A conventional CD (Compact Disc) such as a video disk
In an information recording medium having a higher recording density than that of k), address data, maker data, or synchronization necessary for reproducing the WO (Write Once) type information recording medium Control information such as signals (hereinafter,
The present invention relates to a recording method and apparatus for recording pre-information) in advance and a reproducing method and apparatus for reproducing pre-information from the information recording medium.

[0002]

2. Description of the Related Art Conventionally, in an information recording medium such as a write-once optical disc, pre-information for position search when writing the recording information is previously recorded on the information recording medium at a pre-formatting stage at the time of manufacturing the information recording medium. It was recorded. As a method for pre-formatting this pre-information, the information-recording track (groove or land) for recording information is wobbled in a wavy manner to record the pre-information, or the information on the information-recording track is recorded. A pre-pit was formed in a part different from the part to be recorded.

[0003]

However, in the case of pre-formatting by wobbling, the information recording track itself is swayed to the left or right with respect to the rotation direction of the recording medium based on the wobbling signal, so that the adjacent information recording track is Because of this, there is a restriction on the modulation factor (amplitude of wobbling) of the wobbling signal, and the C / N ratio (Carrior to Noi)
There was a problem that the se ratio) was bad. In addition, since wobbling approaches the adjacent information recording track, considering the interference with the adjacent information recording track, the track pitch cannot be made too narrow, and there is a problem that there is a limit in improving the recording capacity. .

On the other hand, in the case of pre-formatting with pre-pits, since the pre-pits are formed on the information recording track, it is impossible to record the original information as much as the pre-pits are formed, resulting in poor utilization efficiency of the disc recording surface. There was a problem. In order to solve these problems and improve the recording capacity (increasing the recording density), there is a method of recording the information to be recorded on the groove and recording the pre-information on the land portion. , Forming a light spot of the reproduction light so that a part of it is on the land centering on the groove, and reading the information on the groove as an RF signal using total reflection from the disk corresponding to the light spot, and on the land. If the pre-information formed in the same manner is to be detected as an RF signal as well, the RF signal due to the pre-pit becomes extremely small and substantially unreadable.

As a method for solving this, the reflected light from the light spot is divided into two partial detectors by a dividing line which is optically perpendicular to the moving direction of the pre-information (rotating direction of the disk). A method using a so-called tangential push-pull method (push-pull method in the rotation direction of the disk) of reproducing the pre-information based on the difference signal of the partial detector in the photodetector that has been read is included.

However, in the tangential push-pull method, information is obtained based on the difference signal of the partial detector in the photodetector divided into two partial detectors optically perpendicular to the rotation direction of the disk. In the stage of the detection signal of the photo detector,
The detection signal is equivalent to the exclusive OR of the signal corresponding to the pre-information and the signal obtained by delaying the signal corresponding to the pre-information by 1 bit ((1-D in the PR (Partial Response) equivalent system). ) Is converted (equivalent to D is a delay operator) and is output. Therefore, in order to accurately reproduce the pre-information, the detection signal of the photodetector is corrected to obtain the original pre-information. However, there is a problem that various correction circuits are required.

Therefore, the present invention has been made in view of the problems in the reproduction by the above tangential push-pull method, and the problem is to reproduce the pre-information accurately with a simple structure during reproduction. To provide an information recording method and device, an information reproducing method and device, and an information recording medium.

[0008]

In order to solve the above-mentioned problems, the present invention according to claim 1 provides control information such as pre-information for controlling reproduction of recorded information on an information recording medium such as a DVD. An information recording method for recording, the calculating step of calculating recording control information which is an exclusive OR of the control information input from the outside and delay information input at the same timing as the control information, and the calculation. A delay step of generating the delay information by delaying the recorded recording information for a predetermined time,
A recording step of recording the recording control information on the information recording medium.

According to the operation of the invention described in claim 1, in the calculation step, the recording control information which is the exclusive OR of the control information and the delay information input at the same timing as the control information is calculated.

At this time, in the delay step, the calculated recording control information is delayed for a predetermined time to generate delay information. Then, in the recording step, the recording control information is recorded on the information recording medium.

Therefore, when the control information is reproduced from the information recording medium on which the record control information is recorded, two lines are formed by the dividing line which is optically perpendicular to the moving direction of the record control information on the information recording medium. When reproducing the control information based on the difference signal between the partial detectors in the photodetector divided into the partial detectors, the detection based on the difference signal is the reverse of the operation of generating the recording control information. Is equivalent to performing the action of. Therefore, since the control information can be reproduced without the need for a complicated demodulator or the like, accurate control information can be reproduced with a simple reproducing device configuration.

In order to solve the above-mentioned problems, the invention described in claim 2 is the information recording method according to claim 1, wherein the control information is digital information, and the recording control information is used in the delay step. Are delayed by one bit period.

According to the operation of the invention described in claim 2, in addition to the operation of the invention described in claim 1, the control information is digital information, and the recording control information is set to 1 in the delay step.
Delay information is generated by delaying by a bit period.

Therefore, since the recording control information can be generated only by the delay operation for one bit period, the delay process can be simplified. In order to solve the above problems, the invention according to claim 3 provides the information recording method according to claim 1, wherein the control information is digital information, and the recording control information is 2 bits in the delay step. It is configured to delay for a period.

According to the operation of the invention described in claim 3, in addition to the operation of the invention described in claim 1, the control information is digital information, and the recording control information is set to 2 in the delay step.
Delay information is generated by delaying by a bit period.

Therefore, since the recording control information is generated by using the information separated by 2 bits, it is possible to generate the recording control information with less noise. In order to solve the above-mentioned problems, the invention according to claim 4 is an information reproducing method for reproducing the control information from an information recording medium on which the recording control information according to claim 2 is recorded. A reproduction light irradiation step of irradiating reproduction light to a reproduction position of the recording medium, and division into two partial detectors by a division line optically perpendicular to the moving direction of the recording control information on the information recording medium A light receiving step of receiving reflected light of the reproduction light by a photodetector, a calculating step of calculating a difference signal which is a difference between outputs of the two partial detectors, and reproducing the control information based on the difference signal. And a control information generating step.

According to the operation of the invention described in claim 4, in the reproducing light irradiation step, reproducing light is irradiated to the reproducing position of the information recording medium in which the recording control information described in claim 2 is recorded. Thereby, in the light receiving step, the reflected light of the reproduction light is received by the photodetector divided into two partial detectors by the dividing line which is optically perpendicular to the moving direction of the recording control information on the information recording medium. .

Then, in the calculation step, the difference signal of the output of the partial detector is calculated. Then, in the control information generating step, the control information is reproduced based on the difference signal.

Therefore, when reproducing the control information from the information recording medium on which the recording control information corresponding to the control information is recorded, the detection based on the difference signal is the operation of generating the recording control information. Since it is equivalent to performing the reverse operation, the control information can be reproduced without the need for a complicated demodulator and the like, and the accurate control information can be reproduced with a simple reproducing device configuration.

In order to solve the above problems, an invention according to claim 5 is an information reproducing method for reproducing the control information from an information recording medium on which the recording control information according to claim 3 is recorded. A reproducing light irradiation step of irradiating reproducing light to a reproducing position of the information recording medium, and two divisional detectors by a dividing line which is optically perpendicular to a moving direction of the recording control information on the information recording medium. A light receiving step of receiving reflected light of the reproduction light by a divided photodetector, a calculating step of calculating a difference signal which is a difference between outputs of the two partial detectors, and a demodulation signal based on the difference signal. And a decoding step of calculating an exclusive OR of the demodulated signal and a delayed demodulated signal obtained by delaying the demodulated signal by 1 bit and outputting the control information. To be done.

According to the invention of claim 5, in the reproducing light irradiation step, reproducing light is irradiated to the reproducing position of the information recording medium on which the recording control information of claim 3 is recorded. Thereby, in the light receiving step, the reflected light of the reproduction light is received by the photodetector divided into two partial detectors by the dividing line which is optically perpendicular to the moving direction of the recording control information on the information recording medium. .

Then, in the calculation step, the difference signal of the output of the partial detector is calculated. Then, in a demodulation signal generation step, a demodulation signal is generated based on the difference signal.

Finally, in the decoding step, the exclusive OR of the demodulated signal and the delayed demodulated signal is calculated to reproduce the control information. Therefore, when the control information is reproduced from the information recording medium on which the recording control information corresponding to the control information is recorded, the detection based on the demodulated signal is an operation opposite to the operation of generating the recording control information. Since the control information can be reproduced without the need for a complicated demodulator or the like, the control information can be reproduced accurately and with less noise with a simple reproducing device configuration.

In order to solve the above problems, the invention according to claim 6 is an information recording apparatus for recording control information such as pre-information for controlling reproduction of recorded information on an information recording medium such as a DVD. And a calculating means such as an exclusive OR circuit for calculating recording control information which is an exclusive OR of the control information input from the outside and the delay information input at the same timing as the control information, The recording control information is delayed by a predetermined time to generate the delay information, such as a delay circuit, and a recording means such as a laser diode for recording the recording control information on the information recording medium. It

According to the operation of the invention described in claim 6, the calculating means calculates the recording control information which is the exclusive OR of the control information and the delay information inputted at the same timing as the control information.

At this time, the delay means delays the calculated recording control information for a predetermined time to generate delay information. And
The recording means records the recording control information on the information recording medium.

Therefore, when the control information is reproduced from the information recording medium on which the recording control information is recorded, two lines are formed by the dividing line which is optically perpendicular to the moving direction of the record control information on the information recording medium. When reproducing the control information based on the difference signal between the partial detectors in the photodetector divided into the partial detectors, the detection based on the difference signal is the reverse of the operation of generating the recording control information. Is equivalent to performing the action of. Therefore, since the control information can be reproduced without the need for a complicated demodulator or the like, accurate control information can be reproduced with a simple reproducing device configuration.

In order to solve the above-mentioned problems, the invention according to claim 7 is the information recording apparatus according to claim 6, wherein the control information is digital information, and the delay means is the recording control information. Are delayed by one bit period.

According to the operation of the invention described in claim 7, in addition to the operation of the invention described in claim 6, the control information is digital information, and the delay means delays the recording control information by one bit period. To generate delay information.

Therefore, since the recording control information can be generated only by the delay means for one bit period, the delay means can be simplified. In order to solve the above-mentioned problems, the invention described in claim 8 is the information recording apparatus according to claim 6, wherein the control information is digital information, and the delay means sets the recording control information to 2 bits. It is configured to delay for a period.

According to the operation of the invention described in claim 8, in addition to the operation of the invention described in claim 6, the control information is digital information, and the delay means delays the recording control information by 2 bit periods. To generate delay information.

Therefore, since the recording control information is generated by using the information separated by 2 bits, the recording control information with less noise can be generated. In order to solve the above problems, an invention according to claim 9 is an information recording medium on which the recording control information according to any one of claims 6 to 8 is recorded, wherein the recording information is recorded. An information recording track and a guide track for guiding reproduction light for reproducing the record information onto the information recording track, and the recording control information is recorded on the guide track. Is configured as follows.

According to the information recording medium of the invention described in claim 9, since the information recording track and the guide track are provided and the recording control information is recorded on the guide track, the recording density of the record information is improved. Can be made.

Further, when the control information is reproduced from the information recording medium, the light detection divided into two partial detectors by a dividing line which is optically perpendicular to the moving direction of the recording control information on the information recording medium. By reproducing the control information based on the difference signal of the partial detector in the container, the detection based on the difference signal is equivalent to performing an operation opposite to the operation of generating the recording control information. Therefore, the control information can be reproduced without the need for a complicated demodulator or the like, and the accurate control information can be reproduced with a simple structure of the reproducing device.

In order to solve the above problems, a tenth aspect of the present invention is provided.
The invention described in (3) is an information reproducing apparatus for reproducing the control information from the information recording medium on which the recording control information according to claim 7 is recorded, and a laser for irradiating a reproduction light to a reproduction position of the information recording medium. Divided into two partial detectors by a reproducing light irradiation means such as a diode and a dividing line that is optically perpendicular to the moving direction of the recording control information on the information recording medium, and receives the reflected light of the reproducing light. Control means such as a subtracter or the like for calculating a difference signal which is a difference between outputs of the two partial detectors, and a mod2 adder or the like for reproducing the control information based on the difference signal. And an information generating unit.

According to the operation of the invention described in claim 10,
The reproducing light irradiating means irradiates the reproducing light to the reproducing position of the information recording medium on which the recording control information described in claim 7 is recorded.
As a result, the photodetector divided into the two partial detectors receives the reflected light of the reproduction light.

Then, the calculating means calculates the difference signal between the outputs of the two partial detectors. After that, the control information generation means reproduces the control information based on the difference signal. Therefore,
When the control information is reproduced from the information recording medium on which the recording control information corresponding to the control information is recorded, the detection based on the difference signal has an action opposite to the operation of generating the recording control information. Since this is equivalent to that, it is possible to reproduce the control information without the need for a complicated demodulator and the like, and it is possible to reproduce the correct control information with a simple reproducing device configuration.

In order to solve the above-mentioned problems, the invention according to claim 11
The invention according to claim 8 is an information reproducing method for reproducing the control information from the information recording medium on which the recording control information according to claim 8 is recorded, wherein the laser is for irradiating the reproducing position of the information recording medium with reproducing light. Divided into two partial detectors by a reproducing light irradiation means such as a diode and a dividing line that is optically perpendicular to the moving direction of the recording control information on the information recording medium, and receives the reflected light of the reproducing light. Optical detector, a calculating means such as a subtracter for calculating a difference signal which is a difference between the outputs of the two partial detectors, and a demodulation signal such as a mod2 adder for generating a demodulation signal based on the difference signal. And a decoding unit such as a decoder that calculates an exclusive OR of the demodulated signal and a delayed demodulated signal obtained by delaying the demodulated signal by 1 bit and outputs the control information. .

According to the operation of the invention described in claim 11,
The reproducing light irradiating means irradiates the reproducing light to the reproducing position of the information recording medium on which the recording control information described in claim 8 is recorded.
As a result, the photodetector divided into the two partial detectors receives the reflected light of the reproduction light, and the calculating means calculates the difference signal between the outputs of the two partial detectors.

After that, the demodulated signal generating means generates a demodulated signal based on the difference signal. Finally, the decoding means reproduces the control information by calculating the exclusive OR of the demodulated signal and the delayed demodulated signal.

Therefore, when reproducing the control information from the information recording medium on which the recording control information corresponding to the control information is recorded, the detection based on the demodulated signal is the operation of generating the recording control information. Since it is equivalent to performing the reverse operation, the control information can be reproduced without the need for a complicated demodulator and the like, and the control information can be reproduced accurately and with less noise with a simple reproducing device configuration.

In order to solve the above problems, a twelfth aspect of the present invention is provided.
The invention according to claim 10 is the information reproducing apparatus according to claim 10, wherein a Viterbi detector for suppressing a crosstalk component included in the difference signal is provided between the calculating means and the control information generating means. It

According to the action of the invention described in claim 12,
In addition to the operation of the invention described in claim 10, the Viterbi detector suppresses the crosstalk component included in the difference signal. Therefore, it is possible to reproduce the control information with less noise component due to crosstalk.

In order to solve the above-mentioned problems, a thirteenth aspect is provided.
The invention according to claim 11 is the information reproducing apparatus according to claim 11, wherein a Viterbi detector that suppresses a crosstalk component included in the difference signal is provided between the calculating unit and the demodulated signal generating unit. It

According to the operation of the invention described in claim 13,
In addition to the operation of the invention described in claim 11, the Viterbi detector suppresses the crosstalk component included in the difference signal. Therefore, it is possible to reproduce the control information with less noise component due to crosstalk.

In order to solve the above-mentioned problem, the present invention is directed to claim 14.
The invention according to claim 11 is the information reproducing apparatus according to claim 11, which is configured to include a Viterbi detector that suppresses a crosstalk component included in the control information output from the decoding means.

According to the operation of the fourteenth aspect,
In addition to the operation of the invention described in claim 11, the Viterbi detector suppresses the crosstalk component included in the control information output from the decoding means.

Therefore, it is possible to reproduce the control information with less noise component due to crosstalk.

[0049]

BEST MODE FOR CARRYING OUT THE INVENTION Next, preferred embodiments of the present invention will be described with reference to the drawings. (I) Pre-information based on the tangential push-pull method
Reproduction First, before describing specific embodiments, an outline of reproduction of pre-information by the tangential push-pull method used in the present invention will be described with reference to FIGS. 1 to 4.

FIG. 1 shows an example of the structure of a high recording density optical disc (DVD) according to the present invention. In FIG.
The optical disc 1 is a dye optical disc having a dye film 5 and capable of writing information only once. The optical disc 1 is provided with a groove 2 as an information recording track and a light beam L such as a laser beam as a reproducing light or a recording light to the groove 2. A land 3 as a guide track for guiding is formed in advance. Further, a protective film 7 for protecting them and a gold vapor deposition film 6 for reflecting the light beam L when reproducing recorded information are provided. Then, the pre-pits 4 corresponding to the pre-information are formed on the land 3 at the pre-formatting stage. The pre-pits are formed in advance before shipping the optical disc 1.

When recording information (information such as music information to be originally recorded other than the pre-information) on the optical disc 1, the recording apparatus detects the pre-pits to obtain the pre-information in advance. Based on this, the optimum output of the laser beam as the recording light and the like are set.

Further, when recording the recording information, the light beam L
The recording information is formed by irradiating the center of the groove 2 with the center of the groove 2 to form pits corresponding to the recording information on the groove 2. At this time, the light spot S
As shown in FIG. 1, the size of P is set so that a part thereof is irradiated not only on the groove 2 but also on the land 3. Then, the light spot SP irradiated on this land 3
It is the reproduction of the pre-information by the tangential push-pull method in the present invention that the pre-pits are detected by using the reflected light of 1 to obtain the pre-information.

Next, the structure of the information reproducing apparatus for reproducing the pre-information by the tangential push-pull method will be described with reference to FIG. It should be noted that FIG. 2 shows only the configuration for reproducing the pre-information, and the configuration for reproducing the recorded information is the same as the conventional one and is therefore omitted.

In FIG. 2, a light beam L as reproduction light generated by an external laser diode or the like is reflected by a polarization beam splitter 11 and is collected by an objective lens 10 on a groove 2 of an optical disc 1 (see FIG. 1). Be illuminated. Then, the reflected light of the light beam L which is modulated by the pre-pits 4 and whose polarization plane is rotated by the reflection by the optical disc 1 is transmitted through the polarization beam splitter 11 by the rotation of the polarization plane, and is optically in the rotation direction of the optical disc 1. The light-receiving surface of each of the photodetectors 12 divided into the two partial detectors 12A and 12B is irradiated with and detected by a division line perpendicular to.
Light receiving outputs of the partial detectors 12A and 12B (in the following description, the outputs of the partial detectors are indicated by reference signs A and B).
Is subtracted by the subtracter 13 and input to the mod2 adder 14 as a difference signal (A-B). Where mod2
The adder 14 is a circuit that performs mod2 processing in the PR equivalent system on the input signal. The mod2 process is an operation modulo 2, and more specifically, a ternary threshold value is set for the input signal, the middle threshold value is set to the 0 level of the input signal, and is larger than the highest threshold value. The input signal and the input signal smaller than the lowest threshold value are each converted into “1”, and the other input signals having values between the highest threshold value and the lowest threshold value are converted into “0” (in other words, For example, when the absolute value of the input signal is equal to or larger than a predetermined value, the processing is performed (converted to "1"). The difference signal (AB) subjected to the mod2 processing in the mod2 adder 14 is output as reproduction information.

Next, the difference signal (tangential push-pull signal) (A-
Generation of B) will be described with reference to FIG. In FIG. 3, when the photodetector 12 receives the reflected light from the pre-pit 4 having the shape shown in the sectional view in the rotation direction in FIG. 3A, the light reception outputs of the partial detectors 12A and 12B are displaced in position. Based on R, the phase shifts as shown in FIG.
The F signal is output from each of the partial detectors 12A and 12B. Then, each R is subtracted by the subtractor 13.
By taking the difference between the F signals, the difference signal (tangential push-pull signal) (AB) shown in FIG. 3B is generated. At this time, received light output A and received light output B
Includes intersymbol interference, which can be controlled by the PR equalization method, and in this sense, the tangential push-pull signal can be said to be equivalent to the PR channel.

Next, a change in information content when the pre-information recorded as a digital signal is detected by the tangential push-pull method will be described with reference to FIG.

When pre-pits are formed on the land 3 corresponding to the pre-information shown in FIG. 4, the shape becomes the pre-pit shape shown in FIG. The pre-pit shape is a sectional view in the disc rotation direction. When the pre-pit 4 having this shape is detected by the tangential push-pull method, the waveform of the difference signal (tangential push-pull signal) becomes the waveform shown in FIG. 4 with the horizontal axis representing time. When the threshold ± S is set for this and the above mod2 processing is performed, the resulting reproduction information becomes the reproduction information shown in FIG. 4, which is different from the original pre-information. Is. This is based on the difference signal (AB) from the photodetector 12 divided into two partial detectors 12A and 12B optically perpendicular to the rotation direction of the disc in the tangential push-pull method. The operation itself of reproducing information is the difference signal (AB).
On the other hand, it is equivalent to (1-D) conversion (D is a delay operator) in the PR equivalent method. Therefore, in order to reproduce the pre-information equal to the original pre-information, it is necessary to perform a predetermined correction on the reproduction information shown in FIG. 4, and the correction requires a complicated correction circuit.

The above is the principle of reproducing the pre-information by the tangential push-pull method. Hereinafter, a specific embodiment of the present invention will be described based on this principle. (I) First Embodiment First, FIGS. 5 to 9 are used for the first embodiment corresponding to the invention described in claims 1, 2, 4, 6, 7, 9, 10, 12 to 14. Explain. In the first embodiment, a cutting machine as an information recording device for recording pre-information by forming pre-pits on an optical disc before shipment, and an information reproducing device for reproducing the recorded pre-information. It is included. (I) Information Recording Device First, a cutting machine as an information recording device corresponding to the invention described in claims 1, 2, 6, 7 and 9 will be described with reference to FIGS. 5 to 7. The cutting machine shown in FIGS. 5 to 7 is for producing a stamper disc for mass-producing the optical disc according to claim 9 in which pre-pits are formed and pre-information is recorded according to the present invention. .

In the cutting machine C of the first embodiment shown in FIG. 5, 20 is a data generator for generating pre-information S _P to be recorded, 21 is a parallel-serial converter, and 2 is a parallel-serial converter.
2 is a feature of the present invention, a modulator for modulating the pre-information S _P into the recording pre-information S _R , 23 is an output circuit, 24 is a high-power laser generator, 25 is an optical modulator, and 26 is an objective lens. is there. Further, 27 is a glass substrate as a stamper disk body, and 28 is a resist (photosensitive material) for forming pre-pits coated on the glass substrate.
Further, 29 is a spindle motor, 30 is a rotation detector, 3
Reference numeral 1 is a rotary servo circuit, 32 is a feed unit, 33 is a position detector, and 34 is a feed servo circuit. The laser generator 24, the optical modulator 25, and the objective lens 26 constitute recording means.

The modulator 22 is, as shown in FIG.
It is composed of an exclusive OR circuit 22A as a calculation means and a flip-flop circuit 22B as a delay means.

Next, the operation will be described. Data generator 20
The pre-information S _P generated in (1) is converted into serial data by the parallel-serial converter 21 and then modulated by the modulator 22 into the recording pre-information S _R. In the modulation in the modulator 22, as shown in FIG. 6, the exclusive OR circuit 22A
The recording pre-information S _R, which is the output of, is delayed by 1 bit period based on the clock CLK input from the outside by the flip-flop circuit 22B, and the delayed information and the pre-information S _P input at the next clock timing. Of the recording pre-information S _R corresponding to the next clock timing is generated by the exclusive OR circuit 22A.
Is output as

The recording pre-information S output from the modulator 22
_{The R} is then input to the output circuit, subjected to predetermined amplification and the like, and input to the optical modulator 25. The optical modulator 25 modulates a large output light beam as recording light from the laser generator 24 based on the recording pre-information S _R , condenses it by the objective lens 26, and places it on the resist 28 on the glass substrate 27. A light spot is formed at the recording position.

On the other hand, the glass substrate 27 is set on a spindle motor 29, and the spindle motor 29 is rotated at a constant linear velocity (CLV) by a rotation detector 30 and a rotation servo circuit 31.
Further, the spindle motor 29 is movable in the radial direction of the glass substrate 27 by the feed unit (carriage) 32, and the feed is controlled in the radial direction at a predetermined feed speed by the position detector 33 and the feed servo circuit 34. To be done.

By the above operation, pre-pits are formed on the land 28 formed on the resist 28 surface of the glass substrate 27 from the center of the disc toward the outer periphery of the disc, and the stamper disc on which the pre-pits are formed is used. An optical disc as an information recording medium according to claim 9, wherein a pre-pit corresponding to the recording pre-information S _R is formed. The structure of the optical disc manufactured is
The optical disc 1 has the same structure as the optical disc 1 shown in FIG. 1, and the pre-pits 4 are formed corresponding to the recording pre-information S _R.

Here, more specifically, the pre-information is 1
It is recorded for each sync frame (unit block length of recorded data). In it, a bit clock signal (a read clock signal generated on the reproducing device side in order to read the pre-information is changed in phase of the pre-information). Even if the optical disc has no information such as a preamble (synchronization clock signal) used for a so-called PLL (Phase Locked Loop), a sync (synchronization) signal, address data, etc. It includes information necessary for performing basic operation control such as rotation control.

Next, the modulation operation of the modulator 22 will be described with reference to FIG. When the pre-information S _P shown in FIG. 7 is input to the modulator 22, it is modulated into the recording pre-information S _R shown in FIG. 7 by the exclusive OR circuit 22A and the flip-flop circuit 22B. , record pre corresponding to pre-information S _P which is the input by computing the exclusive OR of the record pre-information S _R of 1 bit before with respect to the input pre-information S _P and the pre-information S _P The information S _R is output, and the output recording pre-information S _R is delayed by 1 bit by the flip-flop circuit 22B and then input (new) pre-information S _P.
An exclusive OR is calculated between and. By repeating the above operation for each bit (for each clock), a series of recording pre-information S _R is output. Then, when the pre-pit 4 is formed based on the output recording pre-information S _R , the shape becomes the pre-pit shape shown in FIG. It should be noted that this shape is a cross-sectional view of the land 3 in which the pre-pits 4 are formed in the disc rotation direction.

Here, the modulation action in the modulator 22 is equivalent to the (1 + D) conversion in the PR equivalent system. (Ii) Information reproducing apparatus Next, an information reproducing apparatus corresponding to the invention described in claims 4, 10, 12 to 14 will be described with reference to FIGS. 7 to 9. It should be noted that the information reproducing apparatus shown in FIGS. 7 to 9 has a pre-pit formed by the information recording apparatus of the present invention shown in FIGS. 5 and 6 and a tanger from an optical disk DK in which recording information is recorded on the groove 2. The pre-information corresponding to the pre-pits is reproduced by the manual push-pull method, and the tracking error signal for tracking the RF signal corresponding to the recorded information and the light spot on the groove 2 at the time of reproduction (the tracking error signal by the conventional push-pull method is used. ) Is also detected at the same time. Therefore, in the information reproducing apparatus shown in FIGS. 7 to 9, the photodetector is further divided by a dividing line which is optically parallel to the rotation direction of the optical disc as compared with the photodetector 12 shown in FIG. Therefore, the photodetector is divided into four parts.

The information reproducing apparatus D of the first embodiment shown in FIG.
In the figure, 40 is an objective lens, 41 is a polarization beam splitter, 42 is a photodetector divided into four partial detectors 42A to 42D, and 43 to 46 are partial detectors 42A to 42D.
Amplifiers 47 to 50 and 52 respectively connected to D
Is a two-input adder, 51 and 53 are two-input subtractors, 5
Reference numeral 4 is an A / D converter, 55 is a Viterbi detector, 56 is a mod2 adder as control information generating means, 57 to 59 are terminals for taking out respective outputs, and 60 is a laser diode as reproducing light irradiation means. The adders 47 and 48 and the subtractor 53 form a calculating means.
Further, the mod2 adder 56 performs the same mod2 processing as the mod2 adder 14 shown in FIG.

Next, the operation will be described. The light beam L generated by the laser diode 60 is reflected by the polarization beam splitter 41, and is reflected by the objective lens 40 to the optical disc DK.
The light is focused on the groove 2 (see enlarged view P in FIG. 8). Then, the optical disc DK is modulated by the recording pits corresponding to the recording information on the pre-pit 4 and the groove 2.
The reflected light of the light beam L whose polarization plane is rotated by the reflection of the light is transmitted through the polarization beam splitter 41 by the rotation of the polarization plane and is received by each of the four photodetectors 42 divided into the partial detectors 42A to 42D. The surface is illuminated and received.

The received light signals A to D based on the received reflected light are tangered by adders 47 to 50 and 52 and subtracters 51 and 53, respectively, which are connected as shown in FIG. 8 via amplifiers 43 to 46, respectively. An internal push-pull signal ((A + B)-(C + D)), a tracking error signal ((A + D)-(B + C)), and an RF signal (A + B + C + D) are generated. Of these, the tracking error signal ((A + D)-(B + C)) is output to a tracking servo circuit (not shown) as a signal for tracking servo control by the conventional push-pull method, and the RF signal (A + B + C + D) is recorded information (pre-information). Corresponding to the above) is output to a signal processing unit (not shown) or the like, and is output as a music signal or the like.

Then, the tangential push-pull signal ((A + B)-(C + D)) according to the present invention is A / D converted by the A / D converter 54, and then the prepits on the adjacent land 3 are detected by the Viterbi detector 55. Is suppressed and output to the mod2 adder 56, and the above-mentioned mod2 processing is performed to output the pre-information S _P.

Next, conversion of information in reproduction by the information reproducing apparatus D will be described with reference to FIG. As mentioned above,
The pre-pit 4 formed by the cutting machine C shown in FIGS. 5 and 6 has a shape as shown in FIG. The tangential push-pull signal ((A + B)-(C + D)) when this is detected by the photodetector 42 is
The horizontal axis represents time and the difference signal waveform shown in FIG. 7 is obtained. When it performs mod2 process described above by setting the threshold ± S against reproduction information consequently is equal to the original pre-information S _P. With the above operation, the pre-information is accurately reproduced by the tangential push-pull method.

Here, the reason that the pre-information can be accurately reproduced by the tangential push-pull method by the information reproducing apparatus D of the first embodiment is that in the reproduction by the tangential push-pull method, inevitably in the PR equivalent system ( Considering that a conversion signal equivalent to the 1-D) conversion is applied to the detection signal, a conversion equivalent to the (1 + D) conversion in the PR equivalent system with respect to the pre-information S _P during recording is performed in advance. This is because the modulator 22 shown in FIG.

Next, the operation of the Viterbi detector 55 shown in FIG. 8 will be described with reference to FIG. As shown in FIG. 9A, when pre-pits 4 are formed on all lands 3 and pre-information S _P is recorded, the pre-pits 4 may overlap one groove 2 on the left and right sides thereof. Note that FIG.
In (a), it is assumed that the pre-pit 4 of the land 3 on the right side (left side in FIG. 9A) in the traveling direction of the optical disc DK is to be detected.

At this time, in the case of (A) to (D) in FIG. 9A, the prepits corresponding to the prepits of the land 3 on the left side (the right side in FIG. 9A) in the traveling direction of the optical disk DK. Information is mixed as pre-information of the land 3 to be detected as crosstalk, and its influence on a correct tangential push-pull signal is as shown in FIG. 9A. Can be virtually ignored.

However, (E) in FIG. 9 (a)
In cases (1) and (F), it is mixed as an error. That is, as the waveforms are shown in (E) and (F) of FIG. 9A, the prepits 4 to be detected are continuous in FIGS. Although the tangential push-pull signal should be "0", a signal corresponding to "1" is generated due to crosstalk from the prepits 4 of the adjacent land 3. This crosstalk is actually mixed in as an error signal as shown in FIG. 9B. Therefore, the crosstalk is suppressed by using the Viterbi detection which is the maximum likelihood estimation method.

As described above, according to the cutting machine C and the information reproducing apparatus D of the first embodiment, the pre-information S _P is subjected to (1 + D) conversion in advance during recording, and the pre-pits are recorded as the recording pre-information S _R. 4, the pre-information is recorded, so that the pre-information S _P can be accurately reproduced by the tangential push-pull method with a simple configuration without adding a complicated correction circuit to the reproducing device. You can Further, since Viterbi detection is performed on the tangential push-pull signal, even when pre-information is recorded on all lands 3, the influence of crosstalk can be suppressed and the pre-information can be reproduced accurately.

Further, according to the cutting machine C and the information reproducing apparatus D of the first embodiment, the conventional EFM (Eight)
Since it is not necessary to perform modulation and demodulation, it is possible to further simplify the configurations of the cutting machine and the information reproducing device.

Further, the recording pre-information S in the modulator 22
_Since the delay amount of _R is only one bit period, the modulator 22 can be simply configured with only one flip-flop circuit 22B and exclusive OR circuit 22A. (II) Second Embodiment Next, a second embodiment corresponding to the invention described in claims 1, 3, 5, 6, 8, 9, 11 to 14 will be described with reference to FIG.
This will be described with reference to FIGS. In the first embodiment, the modulator (see reference numeral 22 in FIG. 5) of the cutting machine delays the recording pre-information S _R by one bit period to perform the exclusive OR operation. However, in the second embodiment, the recording pre-information is changed. An exclusive OR operation is performed by delaying S _R by 2 bits. Further, the second embodiment includes a cutting machine as an information recording device and an information reproducing device for reproducing the recorded pre-information, as in the first embodiment. (I) Information Recording Device First, a cutting machine as an information recording device corresponding to the invention described in claims 1, 3, 6, 8 and 9 will be described with reference to FIGS. 10 and 11. Note that FIG.
11. The cutting machine shown in FIG. 11 has prepits formed according to the present invention to record preinformation.
It is for producing a stamper disc for mass-producing optical discs corresponding to.

The cutting machine of the second embodiment is the modulator 22 in the cutting machine C of the first embodiment.
Instead, a modulator 70 having the configuration shown in FIG. 10 is provided. The modulator 70 is composed of an exclusive OR circuit 70A as a calculation means and two flip-flop circuits 70B and 70C as a delay means.

Next, the operation of the modulator 70 will be described. In the modulation in the modulator 70, as shown in FIG. 10, the recording pre-information S _R which is the output of the exclusive OR circuit 70A is 1 bit based on the clock CLK input from the outside by the flip-flop circuits 70B and 70C. Each of them is delayed by a total of 2 bits, and the exclusive OR of the delayed information and the pre-information S _P input at the next clock timing is generated by the exclusive OR circuit 70A and corresponds to the next clock timing. The recorded pre-information S _R is output.

Since the configuration and operation other than the modulator 70 are the same as those of the cutting machine C shown in FIG. 5, detailed description thereof will be omitted. Next, the modulation operation of the modulator 70 will be described with reference to FIG. 11 using the same example as the first embodiment.

When the pre-information S _P shown in FIG. 11 is input to the modulator 70, it is modulated into the recording pre-information S _R shown in FIG. 11 by the exclusive OR circuit 70A and the flip-flop circuits 70B and 70C. but its operation is inputted pre-information S _P and the pre-information S pre-information is the input by computing the exclusive OR of the record pre-information S _R of 2 bits previously for _P S _P The recording pre-information S _R corresponding to the above is output, and the output recording pre-information S _R is 2 by the flip-flop circuits 70B and 70C.
(New) pre-information S that is bit delayed and input next
Exclusive OR is calculated with _P. By repeating the above operation for each bit (for each clock), a series of recording pre-information S _R is output. Then, when the pre-pits 4 are formed based on the output recording pre-information S _R , the shape becomes the pre-pit shape shown in FIG. The pre-pit shape is a cross-sectional view of the land 3 in which the pre-pit 4 is formed in the disc rotating direction.

Here, the modulation action in the modulator 70 is equivalent to the (1 + D ² ) conversion in the PR equivalent system. (Ii) Information reproducing apparatus Next, an information reproducing apparatus corresponding to the invention described in claims 5 and 11 to 14 will be described with reference to FIGS. 11 to 13. The information reproducing apparatus shown in FIGS. 12 and 13 is similar to the first embodiment in that the information recording apparatus of the second embodiment forms the pre-pits and the groove 2
Pre-information is reproduced from the optical disc DK having recorded information recorded thereon by the tangential push-pull method, and an RF signal corresponding to the recorded information and a tracking error signal for tracking an optical spot with respect to the groove 2 at the time of reproduction are provided. Are also to be detected at the same time. For this reason, the information reproducing apparatus shown in FIGS. 12 and 13 is a photodetector divided into four, like the information reproducing apparatus D in the first embodiment.

The information reproducing apparatus DD of the second embodiment shown in FIG. 12 has the configuration of the information reproducing apparatus D of the first example,
Next to the mod2 adder 56, the decoder 7 as the decoding means
1 is provided. Further, what is output from the mod2 adder 56 is not the pre-information S _P but the demodulated signal S _PP . Other configurations and operations are the same as those of the information reproducing apparatus D of the first embodiment, and therefore detailed description thereof will be omitted.

Next, the decoder 71 will be described. As shown in FIG. 13, the decoder 71 includes a flip-flop circuit 71B that delays the demodulated signal S _PP output from the mod2 adder 56 by one bit period, and a flip-flop circuit 7
It is constituted by an exclusive OR circuit 71A which calculates the exclusive OR of the delayed demodulated signal which is the output of 1B and the demodulated signal S _PP and outputs the pre-information S _P.

[0087] In the decoder 71 is one bit period delay on the basis of the clock CLK, to which the demodulation signal S _PP by the flip-flop circuit 71B is input from the outside, an exclusive OR of the delay demodulation signal and the demodulation signal S _PP The pre-information S _P is reproduced by calculating. That is, the decoder 7
The operation in 1 is equivalent to the (1-D) conversion in the PR equivalent method.

Next, conversion of information in the information reproducing device DD will be described with reference to FIG. As described above, the prepits 4 formed by the cutting machine of the second embodiment have the prepit shape as shown in FIG. Tangential push-pull signal ((A + B)-(C + D)) when this is detected by the photodetector 42
Shows a difference signal waveform shown in FIG. 11 with the horizontal axis representing time.
Then, a threshold value ± S is set for this, and the above-mentioned mod is set.
When the two processes are performed, the resulting demodulation information (demodulation signal S _PP ) becomes the demodulation information shown in FIG. Therefore, when the action of the decoder 71 with respect to the demodulated signal S _PP, since it becomes possible to perform (1-D) conversion in PR equivalent manner with respect to the demodulated signal S _PP, obtained information, FIG. 11
As shown in, it becomes equal to the original pre-information S _P. With the above operation, the pre-information is accurately reproduced by the tangential push-pull method.

Here, the information reproducing apparatus DD of the second embodiment
The tangential push-pull method
Replay information can be played only on the tangential push
Inevitably, the PR equivalent method should be used for playback by the digital method.
The conversion signal equivalent to the (1-D) conversion is applied to the detection signal.
Considering that the pre-information S _P
In contrast, in the PR equivalent method, (1 + D²) Equivalent to conversion
Is performed in the modulator 70 shown in FIG.
Furthermore, tangential in the information reproducing device DD
(1-D) conversion inevitably generated by push-pull method
By performing the same conversion by the decoder 71 as
In the information reproduction device DD, (1-D
²) By performing a conversion equivalent to the conversion.

As described above, according to the cutting machine and the information reproducing apparatus DD of the second embodiment, the pre-information S _{P is} converted (1 + D ² ) in advance at the time of recording and the pre-pits are recorded as the recording pre-information S _R. since recording the pre-information to form, without adding a complicated correction circuit like the playback device, with a simple configuration, a tangential push-pull method is possible to accurately reproduce the pre-information S _P it can. Further, since Viterbi detection is performed on the tangential push-pull signal, even when pre-information is recorded on all lands 3, the influence of crosstalk can be suppressed and the pre-information can be reproduced accurately.

Further, since the modulator 70 of the cutting machine calculates the exclusive OR of the information separated by 2 bits, it is generated as compared with the case of calculating the exclusive OR of the information separated by 1 bit. It is possible to reduce the influence of noise on the recorded pre-information SR.

Furthermore, according to the cutting machine and the information reproducing apparatus DD of the second embodiment, the conventional EFM (Ei
ght to Fourteen Moduration) Since it is not necessary to perform modulation / demodulation or the like, it is possible to further simplify the configurations of the cutting machine and the information reproducing device.

In the information reproducing apparatus DD of the second embodiment, the Viterbi detector 55 is connected between the A / D converter 54 and the mod2 adder 56, but the Viterbi detector 55 is a decoder. The A / D converter 54 is arranged in the next stage of 71.
And the mod2 adder 56 may be directly connected.

In each of the above embodiments, the recording pre-information S _{R is set} to 1 in the modulator 22 or the modulator 70.
Although it is configured to delay by 2 bits or 2 bits, it may be delayed by 3 bits or more.

[0095]

As described above, according to the invention described in claim 1, the recording control information which is the exclusive OR of the control information and the delay information input at the same timing as the control information is calculated. Then, the recording control information is recorded on the information recording medium. At this time, since the calculated recording control information is delayed by a predetermined time to generate the delay information, when the control information is reproduced from the information recording medium on which the recording control information is recorded, the recording on the information recording medium is performed. When reproducing the control information based on the difference signal of the partial detector in the photodetector divided into two partial detectors by a dividing line that is optically perpendicular to the moving direction of the control information, the difference signal Is equivalent to performing the opposite operation to the operation of generating the recording / reproducing information. Therefore, since the control information can be reproduced without the need for a complicated demodulator or the like, accurate control information can be reproduced with a simple reproducing device configuration.

According to the invention of claim 2, claim 1
In addition to the effect of the invention described in (1), since the control information is digital information and the recording control information is delayed by one bit period to generate the delay information, the recording control information can be generated only by the delay operation for one bit period. The delay process can be simplified.

According to the invention of claim 3, claim 1
In addition to the effect of the invention described in (1), since the control information is digital information and the delay information is generated by delaying the recording control information by 2 bits, the recording control information is generated using the information separated by 2 bits. This means that recording control information with less noise can be generated.

According to the invention of claim 4, claim 2
When reproducing the control information from the information recording medium on which the recording control information described in 1 is recorded, the two partial detectors are divided by the dividing line that is optically perpendicular to the moving direction of the recording control information on the information recording medium. Since the divided photodetector is used to reproduce the control information based on the difference signal between the outputs of the partial detectors,
Since the detection based on the difference signal is equivalent to performing the operation opposite to the operation of generating the recording control information at the time of recording the control information, the control information is reproduced without the need for a complicated demodulator or the like. It is possible to reproduce accurate control information with a simple structure of the reproducing device.

According to the invention of claim 5, claim 3
When reproducing the control information from the information recording medium on which the recording control information described in 1 is recorded, the two partial detectors are divided by the dividing line that is optically perpendicular to the moving direction of the recording control information on the information recording medium. Since the control information is reproduced by using the divided photodetector and the demodulation signal based on the difference signal between the outputs of the partial detectors, the detection based on the demodulation signal generates the recording control information. Since it is equivalent to performing the operation opposite to the operation, the control information can be reproduced without the need for a complicated demodulator and the like, and the accurate and low-noise control information can be reproduced with a simple reproducing device configuration. it can.

According to the invention described in claim 6, the recording control information which is the exclusive OR of the control information and the delay information inputted at the same timing as the control information is calculated, and the recording control information is used as the information. Record on a recording medium. At this time, since the calculated recording control information is delayed by a predetermined time to generate the delay information, when the control information is reproduced from the information recording medium on which the recording control information is recorded, the recording on the information recording medium is performed. When reproducing the control information based on the difference signal between the partial detectors in the photodetector divided into two partial detectors by a dividing line that is optically perpendicular to the moving direction of the control information, the difference The detection based on the signal is equivalent to performing the opposite operation to the operation of generating the recording control information. Therefore, since the control information can be reproduced without the need for a complicated demodulator or the like, accurate control information can be reproduced with a simple reproducing device configuration.

According to the invention of claim 7, according to claim 6,
In addition to the effect of the invention described in (1), since the control information is digital information and the recording control information is delayed by one bit period to generate the delay information, the recording control information can be generated only by the delay operation for one bit period. The delay means can be simplified.

According to the invention of claim 8, claim 6
In addition to the effect of the invention described in (1), since the control information is digital information and the delay information is generated by delaying the recording control information by 2 bits, the recording control information is generated using the information separated by 2 bits. This means that recording control information with less noise can be generated.

According to the information recording medium of the invention described in claim 9, in addition to the effect of the invention described in any one of claims 6 to 8, an information recording track and a guide track are provided. Since the recording control information is recorded on the guide track, the recording density of the recording information can be improved.

Further, at the time of reproducing the control information from the information recording medium, the light detection divided into two partial detectors by a dividing line which is optically perpendicular to the moving direction of the recording control information on the information recording medium. By reproducing the control information based on the difference signal of the partial detector in the container, the detection based on the difference signal is equivalent to performing an operation opposite to the operation of generating the recording control information. Therefore, the control information can be reproduced without the need for a complicated demodulator or the like, and the accurate control information can be reproduced with a simple structure of the reproducing device.

According to the invention of claim 10, when the control information is reproduced from the information recording medium on which the recording control information of claim 7 is recorded, the moving direction of the recording control information on the information recording medium is moved. Since the control information is reproduced based on the difference signal of the outputs of the partial detectors by using the photodetector divided into two partial detectors by the dividing line that is optically perpendicular to the Since it is equivalent to performing the opposite operation to the operation of generating the recording control information at the time of recording the control information, the control information can be reproduced without the need for a complicated demodulator etc. Accurate control information can be reproduced by the configuration of the device.

According to the eleventh aspect of the present invention, when the control information is reproduced from the information recording medium on which the recording control information according to the eighth aspect is recorded, the moving direction of the recording control information on the information recording medium is moved. Since a photodetector divided into two partial detectors by a dividing line that is optically perpendicular to is used to reproduce the control information by using a demodulation signal based on a difference signal between outputs of the partial detectors, Since the detection based on the demodulated signal is equivalent to the operation opposite to the operation of generating the recording control information, the control information can be reproduced without the need for a complicated demodulator, and a simple reproducing device. With this configuration, it is possible to reproduce accurate control information with less noise.

According to the twelfth aspect of the invention, in addition to the effect of the tenth aspect of the invention, since the Viterbi detector suppresses the crosstalk component included in the difference signal, the noise component due to the crosstalk is suppressed. A small amount of control information can be reproduced.

According to the invention described in claim 13, in addition to the effect of the invention described in claim 11, since the Viterbi detector suppresses the crosstalk component included in the difference signal, the noise component due to the crosstalk is suppressed. A small amount of control information can be reproduced.

According to the invention of claim 14, in addition to the effect of the invention of claim 11, the Viterbi detector suppresses the crosstalk component contained in the control information output from the decoding means. It is possible to reproduce control information with less noise component due to crosstalk.

[Brief description of drawings]

FIG. 1 is an external view showing an example of an optical disc (DVD) having pre-pits formed in a land portion.

FIG. 2 is a schematic configuration block diagram of an information reproducing apparatus using a tangential push-pull method.

3A and 3B are diagrams illustrating a tangential push-pull signal, FIG. 3A is a cross-sectional view showing a prepit shape, and FIG. 3B is a graph showing waveforms of an RF signal and a tangential push-pull signal. .

FIG. 4 is a diagram showing reproduction by the tangential push-pull method.

FIG. 5 is a block diagram showing a schematic configuration of an information recording device (cutting machine) of the first embodiment.

FIG. 6 is a configuration diagram of a modulator according to the first embodiment.

FIG. 7 is a diagram showing an example of conversion of information in the first embodiment.

FIG. 8 is a schematic configuration block diagram of the information reproducing apparatus of the first embodiment.

FIG. 9 is a schematic diagram of crosstalk between lands (between prepits), (a) is a graph showing the arrangement of prepits and the corresponding tangential push-pull signal, and (b) is crosstalk. It is a graph which shows a tangential push pull signal.

FIG. 10 is a block diagram showing a configuration of a modulation unit according to a second embodiment.

FIG. 11 is a diagram showing an example of information conversion according to the second embodiment.

FIG. 12 is a schematic block diagram of an information reproducing apparatus according to a second embodiment.

FIG. 13 is a block diagram showing a configuration of a decoder of the information reproducing apparatus of the second embodiment.

[Explanation of symbols]

1, DK ... Optical disc 2 ... Groove 3 ... Land 4 ... Prepit 5 ... Dye film 6 ... Gold vapor deposition film 7 ... Protective layer 10, 26, 40 ... Objective lens 11, 41 ... Polarization beam splitter 12, 42 ... Photodetector 12A , 12B, 42A, 42B, 42C, 42D ... Partial detector 13 ... Subtractor 14, 56 ... Mod2 adder 20 ... Data generator 21 ... Parallel / serial converter 22 ... Modulator 22A, 70A, 71A ... Exclusive logic Sum circuit 22B, 70B, 70C, 71B ... Flip-flop circuit 23 ... Output circuit 24 ... Laser generator 25 ... Optical modulator 27 ... Glass substrate 28 ... Resist 29 ... Spindle motor 30 ... Rotation detector 31 ... Rotation servo circuit 32 ... Feed unit 33 ... Position detector 34 ... Feed servo circuit 43-46 ... Amplifier 47-50, 52 ... Addition 51, 53 ... Subtractor 54 ... A / D converter 55 ... Viterbi detector 57-59 ... Terminal 60 ... Laser diode 70 ... Modulator 71 ... Decoder C ... Cutting machine CLK ... Clock D, DD ... Information reproduction device L ... light beam SP ... light spot S _P ... pre-information S _PP ... demodulation information S _R ... recording pre-information

Claims (14)

[Claims] 1. An information recording method for recording control information for controlling reproduction of recorded information on an information recording medium, wherein the control information input from the outside and a delay input at the same timing as the control information. A calculation step of calculating recording control information which is an exclusive OR with information, a delay step of delaying the calculated recording control information for a predetermined time to generate the delay information, and the recording control information to the information recording medium. An information recording method, comprising: 2. The information recording method according to claim 1, wherein the control information is digital information, and the recording control information is delayed by 1 bit period in the delaying step. 3. The information recording method according to claim 1, wherein the control information is digital information, and the recording control information is delayed by 2 bits in the delaying step. 4. An information reproducing method for reproducing the control information from the information recording medium on which the recording control information according to claim 2 is recorded, the reproducing light irradiating reproducing light to a reproducing position of the information recording medium. An irradiation step, and the reflected light of the reproduction light is received by a photodetector divided into two partial detectors by a dividing line that is optically perpendicular to the moving direction of the recording control information on the information recording medium. A light receiving step, a calculating step of calculating a difference signal that is a difference between outputs of the two partial detectors, and a control information generating step of reproducing the control information based on the difference signal. And information reproduction method. 5. An information reproducing method for reproducing the control information from the information recording medium on which the recording control information according to claim 3 is recorded, the reproducing light irradiating the reproducing position to the reproducing position of the information recording medium. An irradiation step, and the reflected light of the reproduction light is received by a photodetector divided into two partial detectors by a dividing line that is optically perpendicular to the moving direction of the recording control information on the information recording medium. A light receiving step, a calculating step of calculating a difference signal which is a difference between outputs of the two partial detectors, a demodulation signal generating step of generating a demodulation signal based on the difference signal, the demodulation signal and the demodulation And a decoding step of calculating an exclusive OR of the delayed demodulated signal obtained by delaying the signal by 1 bit and outputting the control information, the information reproducing method. 6. An information recording device for recording control information for controlling reproduction of recorded information on an information recording medium, wherein the control information input from the outside and a delay input at the same timing as the control information. Calculating means for calculating recording control information which is an exclusive OR with information; delay means for delaying the calculated recording control information for a predetermined time to generate the delay information; and the recording control information for the information recording medium. An information recording device, comprising: 7. The information recording apparatus according to claim 6, wherein the control information is digital information, and the delay unit delays the recording control information by 1 bit period. 8. The information recording apparatus according to claim 6, wherein the control information is digital information, and the delay unit delays the recording control information by 2 bits. 9. An information recording medium on which the recording control information according to any one of claims 6 to 8 is recorded, wherein the information recording track on which the recording information is recorded and the recording information is reproduced. And a guide track for guiding reproduction light for guiding the information recording track onto the information recording track, wherein the recording control information is recorded on the guide track. 10. An information reproducing apparatus for reproducing the control information from the information recording medium on which the recording control information according to claim 7 is recorded, the reproducing light irradiating the reproducing position of the information recording medium with the reproducing light. An irradiation means, and a photodetector which is divided into two partial detectors by a dividing line which is optically perpendicular to the moving direction of the recording control information on the information recording medium, and which receives reflected light of the reproduction light. Information including: a calculating unit that calculates a difference signal that is a difference between outputs of the two partial detectors; and a control information generating unit that reproduces the control information based on the difference signal. Playback device. 11. An information reproducing method for reproducing the control information from the information recording medium on which the recording control information according to claim 8 is recorded, the reproducing light irradiating the reproducing position to the reproducing position of the information recording medium. An irradiation means, and a photodetector which is divided into two partial detectors by a dividing line which is optically perpendicular to the moving direction of the recording control information on the information recording medium, and which receives reflected light of the reproduction light. Calculating means for calculating a difference signal which is a difference between outputs of the two partial detectors, demodulation signal generating means for generating a demodulation signal based on the difference signal, the demodulation signal and 1 bit of the demodulation signal An information reproducing apparatus, comprising: a decoding unit that calculates an exclusive OR of the delayed delayed demodulated signal and outputs the control information. 12. The information reproducing apparatus according to claim 10, further comprising a Viterbi detector that suppresses a crosstalk component included in the difference signal, between the calculating unit and the control information generating unit. Information reproducing device. 13. The information reproducing apparatus according to claim 11, further comprising a Viterbi detector that suppresses a crosstalk component included in the difference signal, between the calculating unit and the demodulated signal generating unit. Information reproducing device. 14. The information reproducing apparatus according to claim 11, further comprising a Viterbi detector that suppresses a crosstalk component included in the control information output from the decoding unit.