JPH0321986B2 - - Google Patents

Description

[Detailed Description of the Invention] (A) Technical Field of the Invention The present invention relates to a disk device, particularly an indicator area that indicates sector boundaries, which is recorded in digital format at a frequency different from that of a data area. The present invention relates to a disk device that records FM modulation or MFM modulation patterns and reliably detects sector signals.

(B) Technical Background and Problems Conventionally, there have been disk-shaped recording media that can record optically detectable information in a data area using a radiation beam or a radiation beam and a magnetic field, and Disk devices used are known. The recording medium is configured as shown in FIG. 1A, for example. That is, a plurality of information tracks 2-0, 2-1... are prepared on the recording medium 1, and the information track is composed of a plurality of sectors 3-1, 3-2,... as shown in FIG. 1C. As shown in FIG. 1A, each sector is composed of an indicator area a, an address area b, and a data area c. The indicator area a can be thought of as indicating the boundaries of sectors 3-1, 3-2, etc., and the address area b records address information such as related sectors and tracks. Recorded data used by the user is recorded in the data area c.

Each of the above-mentioned information tracks 2-0, 2-1, . . .
Track guide grooves 5-0, 5- are formed by unevenness having a depth of, for example, 1/8 wavelength of the laser beam used when viewed from a cut surface cut in a direction perpendicular to 0, 2-1...
1,... and is constituted by the grooves. Information is recorded on each of the information tracks 2-0, 2-1, . . . by forming unevenness or pits in the direction along the track.

Although it depends on the type of recording medium 1, the data area c can generally be considered as a user writing area. However, the indicator area a and the address area b may be considered to be read-only areas, and information is added in advance in a relief shape in the circumferential direction when the disk medium is manufactured. When reproducing information from the indicator area a, address area b, and data area c,
The above information track 2-0, 2 with a laser beam
-1... in the direction along the track guide groove 5-0,
5-1, . . . by using the depth of the groove, the laser beam is caused to travel. During this time, the information recorded as described above is read.

Conventionally, the indicator area a is configured as described above, but the indicator area a indicates the boundary of each sector, and it is essential for information reproduction to be able to correctly detect the indicator area a. It is desired to detect area a correctly and easily.

(C) Object and Structure of the Invention The object of the present invention is to solve the above-mentioned problems, and in the disk device of the present invention, a plurality of information tracks are each divided into a plurality of sectors, and each sector is optically a data area in which detectable information can be recorded using a radiation beam or a radiation beam and a magnetic field; an address area in which address information is recorded; and indicators indicating the boundaries of each sector; - A disk-shaped recording medium having at least an area, wherein the indicator area and the address area have an optically detectable relief structure, and the address area has an address area. The information is recorded in a digitally encoded form similar to the data area, and the indicator area is the same as the data area.
Digitally with a frequency different from the area
an amplifier configured to use a disk-shaped recording medium on which an FM modulation or a modified FM modulated pattern is recorded; Rise to detect transition/
a falling detector; a demodulator that demodulates the FM modulated or modified FM modulated signal; a pattern detector that detects a pattern of the signal demodulated by the demodulator; an indicator area detector that detects the presence of an indicator area; and a gate circuit that takes logic between the output from the pattern detector and the output from the indicator area detector, and has the different frequencies. The present invention is characterized in that the sector boundary signal is extracted by detecting the indicator area recorded in a pattern. This will be explained below with reference to the drawings.

(D) Embodiment of the Invention FIG. 2 shows the structure of an embodiment of the disk device of the present invention, and FIG. 3 shows an explanatory diagram for explaining the operation of the structure shown in FIG.

1, 2 and 3, 2 is an information track, a is an indicator area, b is an address area, c is a data area, 6 is a reproduction optical information detector, 7 is a reproduction signal amplifier, 8 is a rise/fall detector that detects bit transitions (0→1 or 1→0) in the signal, and 9 is a demodulator that records in the form of FM modulation or MFM modulation. 10 is a pattern detector that demodulates the recorded information, and in the case shown, an indicator.
11 is an indicator area detector which detects the indicator area a by detecting a frequency difference; 1;
Reference numeral 2 denotes a gate circuit which gates the output G from the pattern detector 10 using the output h from the indicator area detector 11.

In the disk-shaped recording medium 1, as shown as the "medium surface" in FIG. 3, the frequency of recorded information in indicator area a is different from the frequency of recorded information in address area b and data area c. , information is recorded. Information is recorded on the indicator area a in the form of conventionally known FM modulation or MFM modulation, so that pattern detection in the indicator area a can be performed reliably and easily.

In indicator area a, as shown in Figure 3, information is recorded in the form of "gap part, pattern part, gap part", and the pattern part has a specific pattern indicating that it is an indicator as described above. The gap section has information representing a gap of a predetermined length before and after the pattern section where the specific pattern is described.
It is described in terms of the basic clock cycle of MFM or FM.

When reading is performed by irradiating the disk-shaped recording medium 1 as described above with a laser beam, the electric signal from the reproduction optical information detector 6 shown in FIG. 2 is amplified by the amplifier 7, This results in a signal having a waveform as shown in the figure d. The rising and falling points of the signal d are detected by a rising/falling detector 8, and the output from the detector 8 becomes a pulse signal as shown in the figure e. The demodulator 9 receives the pulse signal e, demodulates the FM modulated or MFM modulated signal, and generates a demodulated output as shown in the figure f. The pattern detector 10 receives the demodulated output f and generates an output G indicating that the above-mentioned specific pattern has been detected. On the other hand, the output d of the amplifier 7 is the indicator
The signal is supplied to the area detector 11. indicator·
The area detector 11 has an indicator as described above.
Based on the fact that area a is recorded in a form with lower frequency components than other areas b and c, the arrival of indicator area a is detected, and the result is as shown in h in Figure 3. Generates an output signal. The gate circuit 12 generates the output signal i by determining that the above-mentioned output G appears within the existence period of the above-mentioned output signal h. That is, this determines that a certain sector has arrived, and instructs reproduction processing for the signal from the subsequent address area b. As shown in FIG. 3, the address area b and data area c have higher frequency components than the frequency components of recorded information in the indicator area a, and the indicator area detector 11 The arrival of indicator area a can be easily detected.

Note that when detecting an indicator, it is possible to complete the operation by simply detecting a specific pattern in the pattern section described above, but it is also possible to complete the operation by simply detecting a specific pattern in the pattern section described above. Since there is a risk of erroneously detecting a pattern, in the present invention, the output signal of the indicator area detector 11 and the output of the specific pattern detector 10 are AND-conditioned by the gate circuit 12 to detect the indicator. This increases the certainty of detection. In addition, when using only information on a single or multiple frequencies in the indicator area, which is different from the address area and data area, in general, compared to the method of detecting a specific pattern, It has the disadvantage of poor accuracy.

(E) Effects of the Invention As explained above, according to the present invention, the presence of a specific frequency component and the presence of a specific pattern can be independently detected to determine the arrival (presence) of indicator area a. possible, more reliable, and
Indicators can be detected in a relatively simple manner using FM modulation or MFM modulation.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram illustrating information tracks, sectors, and areas on a disk-type recording medium, FIG. 2 is an embodiment of the configuration of a disk device of the present invention, and FIG. 3 is an illustration of an example of a recording medium of the present invention. An explanatory diagram illustrating the operation of the configuration shown in FIG. 2 while disclosing the embodiment configuration is shown. In the figure, 1 is a recording medium, 2 is an information track, 3 is a sector, a is an indicator area, b is an address area, c is a data area, 6 is a reproduction optical information detector, and 8 is a rising/falling detection 9 is a demodulator, 10 is a pattern detector, 11 is an indicator/area detector, and 12 is a gate circuit.

Claims (1)

[Scope of Claims] 1. A plurality of information tracks are each divided into a plurality of sectors, each sector transmitting optically detectable information using a radiation beam or using a radiation beam and a magnetic field. A disk-shaped recording medium having at least a recordable data area, an address area in which address information is recorded, and an indicator area that indicates the boundary of each sector, the indicator The address area has an optically detectable relief structure, and address information is recorded in the address area in a digitally encoded form similar to the data area, and The indicator area is based on the above data.
Digitally with a frequency different from the area
an amplifier for amplifying a signal from the indicator area that is being recorded; Rise to detect transition/
a falling detector; a demodulator that demodulates the FM modulated or modified FM modulated signal; a pattern detector that detects a pattern of the signal demodulated by the demodulator; The pattern has at least an indicator area detector for detecting the presence of an indicator area, and a gate circuit that takes logic between the output from the pattern detector and the output from the indicator area detector, and has the different frequencies. A disk device characterized in that the sector boundary signal is extracted by detecting the indicator area recorded in the indicator area.