KR100453034B1 - Optical information storing medium including flag area and apparatus therefor - Google Patents

Abstract

The present invention relates to an optical information storage medium having a flag area for track switching and a recording and reproducing apparatus thereof.

In the optical information storage medium according to the present invention, a wobble track including a land track and a groove track arranged in a spiral structure in which a wobble signal containing header information is recorded is formed. A flag area is provided for providing information for the land track to be switched to the groove track or the groove track to the land track. This enables stable tracking servo control even when the track is switched.

Description

Optical information storing medium including flag area and apparatus therefor}

The present invention relates to an optical information storage medium, and more particularly, to an optical information storage medium having a wobble track on which a wobble signal is recorded and capable of recording user data on the wobble track and an apparatus thereof.

The optical information storage medium includes a header area in which header information is stored and a user data area in which user data is recorded. In the case of 2.6 GB or 4.7 GB DVD-RAM, it has 128 bytes of header information per sector, and the header information is recorded pre-pit when manufacturing the disc substrate. The header area recorded pre-pit at the time of manufacture of the substrate is disposed in a predetermined area of the sector, and the pickup device provided in the recording / reproducing apparatus can be easily moved to a desired position through the header information recorded in the header area. You can get there. That is, the pickup apparatus can obtain track type information from the header information, whether the track on which the pickup apparatus is currently located is a land track or a groove track, and servo control is also possible.

1 is a schematic diagram of a conventional optical disk.

Referring to Fig. 1, a land track and a groove track, which are user data areas in which user data is recorded, are formed on an optical disc, and a header area 3 in which header information is recorded pre-pit is disposed. In particular, a single spiral structure in which a land track (groove track) is formed one rotation along the circumferential direction and then becomes a groove track (land track) is formed one rotation along the circumferential direction, and the land track (groove track) is continuous. ) Switching information indicating that the groove track (land track) is switched from the groove track (land track) to the land track (groove track) is recorded in the corresponding header area 30. The pickup apparatus reads the switching information from the header area 30, recognizes that the track type is changed, and performs tracking suitable for the changed track type.

However, in the conventional optical disk, the header area occupies 0 to 5% per sector. In order to increase the recording density by minimizing such overhead, the applicant has previously filed "Wobble Addressing" for recording the wobble signal in which the header information is modulated. However, the use of wobble addressing has the advantage of freeing the header area in which the pre-pits are formed, thereby widening the recording area. It becomes difficult to secure the time required for the pickup device to change the tracking method. That is, there is a problem that the tracking servo mechanism becomes unstable in the switching area in which the track type is changed.

Accordingly, an object of the present invention is to provide an optical information storage medium capable of stably tracking servo control even in a switching area in an optical information storage medium employing wobble addressing, and a recording or reproducing apparatus thereof.

1 is a schematic diagram of a conventional optical disk,

2 is a partial block diagram of a recording / reproducing apparatus according to the present invention;

3 is an embodiment of Figure 2,

4 is a partial detailed view of an optical disk 20 according to an embodiment of the present invention;

5 is a partial detailed view of an optical disk 20 according to another embodiment of the present invention,

6 is a flowchart for explaining a method of reproducing switching information.

* Explanation of symbols in the drawings

3,30: header area 6: objective lens

7: beam splitter 8: photo detector

9: laser part 10: calculator

14: signal detection unit 16: switching information generation unit

100: pickup unit 200: signal processing unit

300: control unit

The above object is a wobble track including a land track and a groove track in which a wobble signal containing header information is recorded and formed in a spiral structure according to the present invention; And a flag area for providing information in which the land track is switched to the groove track or the groove track is switched to the land track.

The flag region is formed as a mirror region, and the level of the RF signal detected from the flag region is preferably higher than that of the wobble signal.

In addition, the flag region preferably includes a region in which a high frequency signal having a frequency higher than the frequency of the wobble signal is recorded, and more preferably, a wobble track of one adjacent side is continuously formed.

Further, at least one mark is preferably recorded in the wobble track formed in the flag area, and more preferably, a plurality of marks are recorded at predetermined intervals.

It is particularly preferable that the high frequency signal is a frequency modulated signal and is a combination of a high frequency signal having a frequency of ω and 2ω.

In addition, the flag region preferably includes a mirror region adjacent to the other wobble track. The peak value of the wobble signal is higher than the peak value of the RF signal detected from the region where the high frequency signal is recorded and lower than that of the RF signal detected from the mirror region, and the header information is QPSK (Quadrature Phase Shift Keying) modulated to thereby More preferably, it is carried on the wobble signal.

On the other hand, according to another field of the present invention, the object is a pickup unit for irradiating the optical signal to the optical information storage medium on which the wobble track of the spiral structure in which the wobble signal containing the header information is recorded and receives the reflected optical signal; A signal processor which receives an optical signal from the pickup unit, detects a channel 1 signal for tracking control, and generates switching information of the wobble track based on the detected channel 1 signal; And a control unit that performs tracking servo control in accordance with the switching information provided from the signal processing unit.

The pickup unit includes a laser unit for oscillating a laser beam; An objective lens for diffusing or condensing the laser beam oscillated from the laser unit to irradiate the optical information storage medium or to receive and diffuse the laser beam reflected from the optical information storage medium; It is preferable to include a beam splitter for directing the laser beam received by the objective lens to the signal processor.

The signal processor may include a photo detector for receiving a laser beam from the beam splitter;

A calculator for calculating a signal provided from the photo detector according to a predetermined algorithm; A signal detector which detects a channel 1 signal for tracking control from an operation result of the calculator; And a switching information generator for generating switching information of the wobble track from the channel 1 signal from the signal detector.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a partial block diagram of a recording / reproducing apparatus according to the present invention.

Referring to FIG. 2, the recording / reproducing apparatus includes a pickup unit 100, a signal processor 200, and a controller 300. The pickup unit 100 reads out a signal from the optical disc 20, which is an optical information storage medium according to the present embodiment. The optical disc 20 has a single spiral structure. The header information is carried in the wobble signal and recorded in the land track and / or groove track. Furthermore, a flag area in which switching information is recorded is formed between the tracks to be switched. More specifically, a flag area for informing switching information is arranged at a boundary at which the land track is switched to the groove track or the groove track is switched to the land track. The signal processor 200 processes the signal read by the pickup unit 100 and generates switching information when determined as a flag area. The controller 300 performs tracking servo control according to the switching information provided from the signal processor 200.

3 is an embodiment of FIG. 2.

Referring to FIG. 3, the pickup unit 100 diffuses or condenses a laser unit 9 that oscillates a laser beam, and a laser beam oscillated from the laser unit 9 to irradiate the optical disk 20 or to the optical disk 20. An objective lens 6 for receiving and diffusing the laser beam reflected from 20, and a beam splitter 7 for refracting the diffused laser beam. In particular, the objective lens 6 located near the optical disk 20 forms a laser beam on the surface of the optical disk 20 to collect the laser beam scattered or diffracted by the track and the mark. The beam splitter 7 separates the laser beam incident on the optical disk 20 and the laser beam reflected from the optical disk 20. In other words, the beam splitter 7 guides the laser beam reflected from the optical disk 20 to the photo detector 8.

The signal processor 200 tracks the photo detector 8 for receiving the laser beam from the beam splitter 7, the calculator 10 for calculating the signal provided from the photo detector 8, and the calculation result of the calculator 10. A signal detector 14 for detecting the channel 1 signal for control, and a switching information generator 16 for generating switching information based on the channel 1 signal from the signal detector 14. The photo detector 8 is divided into 2, 4, or 6 parts to detect the area signal from each divided area, and the calculator 10 calculates and outputs the area signal detected by the photo detector 8 according to a predetermined algorithm. The signal detector 14 detects a channel 1 signal among the signals output from the calculator 10. The channel 1 signal refers to the signal detected for tracking. In contrast, a signal for detecting user data is called a channel 2 signal. When the photo detector 8 is divided into two, if the area signals are A and B, respectively, the calculation algorithm of the calculator 10 for obtaining the channel 1 signal may be A-B. In the case of 4 divisions, the algorithm for obtaining the channel 1 signal when the upper left signal is A, the upper right signal B, the lower right signal C, and the lower left signal D is (A + C)-(B + D). May be).

4 is a partial detailed view of an optical disc 20 in accordance with one embodiment of the present invention.

Referring to FIGS. 4A and 4B, as described above, the optical disk 20 has a single spiral that is switched to the land track / groove track each time the groove track / land track is rotated once along the circumferential direction. Has a structure. The flag area is located at the boundary at which the track is switched, that is, at the boundary of the user data area. Therefore, as shown in (b), the laser beam 40 irradiated from the pickup unit 100 rotates along the groove track and then moves to the land track via the flag area. On the land track / groove track, user data is marked and a wobble signal containing header information is recorded. The header information may be loaded phase-modulated. Representatively employed among phase-modulation is Quadrature Phase Shift Keying (QPSK). The flag area is implemented as a mirror area according to this embodiment. Referring to Fig. 4C, in the mirror area, an RF signal having a level larger than the peak value of the wobble signal is detected as a flag signal according to the present embodiment. By properly determining the threshold value through the measurement, the control unit 300 may know when the pickup unit 100 is located in the flag area, and it is possible to know in advance that the switched track is followed by the flag area so as to prepare in advance. Therefore, stable servo control is possible even if the track is switched.

5 is a partial detailed view of an optical disk 20 according to another embodiment of the present invention.

Referring to FIGS. 5A and 5B, as described above, the optical disk 20 has a single spiral that is switched to the land track / groove track each time the groove track / land track is rotated once in the circumferential direction. Has a structure. The flag area is located at the boundary at which the track is switched, that is, at the boundary of the user data area. The flag area is located at the boundary at which the track is switched, that is, at the boundary of the user data area. As in the case of FIG. 4, the laser beam irradiated from the pickup unit 100 is rotated once along the groove track and then irradiated to the land track via the flag region. On the land track / groove track, user data is marked and a wobble signal containing header information is recorded. The header information may be loaded phase-modulated. Representatively employed among phase-modulation is Quadrature Phase Shift Keying (QPSK). A portion of the flag area is continuous with adjacent land tracks and groove tracks, and the remaining area is implemented as a mirror area. In the land track and the groove track formed in the flag area, a high frequency signal is recorded as the flag signal according to the present embodiment in the same manner as the wobble signal recorded in the user data area. The frequency of the high frequency signal is greater than that of the wobble signal. The high frequency signal may be frequency modulated and recorded. In this embodiment, high frequency signals having frequencies of ω and 2ω, respectively, are combined and recorded. Here, the waveform of the high frequency signal recorded in the flag region can be variously determined. For example, high frequency signals having a single frequency, signals having frequencies of ω and 2ω may be recorded as alternatingly combined signals, and other various types of frequency modulated signals. In the area where the high frequency signal is recorded, marks having a constant diameter are recorded at predetermined intervals. This is to ensure that the light absorption / reflection characteristics are uniform by having a physical geometry similar to that of the user data area marked with the user data. FIG. 5C is a waveform diagram of an RF signal including a wobble signal recorded in the user data area and a flag signal detected from the flag area, wherein the peak value of the RF signal detected from the area where the high frequency signal is recorded in the flag area is shown in FIG. The smallest, peak value of the RF signal detected from the wobble signal is medium, and the peak value of the RF signal detected from the mirror area among the flag areas is largest. By properly determining the threshold value through the measurement, the control unit 300 may know when the pickup unit 100 is located in the flag area, and it is possible to know in advance that the switched track is followed by the flag area so as to prepare in advance. Therefore, stable servo control is possible even if the track is switched.

The physical address where the pickup unit 100 is located is carried in the wobble signal as header information. In this embodiment, the header information is repeatedly recorded ID0, ID1, ID2, ID3, and ID4 four times for one recording block in units of 32 sectors. 52 bits are allocated to ID0, ID1, ID2, ID3, and ID4, respectively. IDi (i = 1, 2, 3, 4) includes 4 bits of sync data for synchronization, 32 bits of PID data, and 16 bits of IED data for error detection. PID data includes 1 bit of track information, 2 bits of PID number, 2 bits of area type information, 1 bit of data type, 22 bits of block number, and 2 bits of layer number. The track information indicates the position of the land track or groove track, the PID number indicates the number of header information recorded four times, and the area type information indicates the data area. The area type such as a lead-in area and a lead-out area is reported. The data type indicates whether the data is read-only or rewritable. The block number indicates the positional information of the recording unit and the layer number indicates the order of the recording layer. The controller 300 may accurately position the pickup unit 100 at a desired position based on the header information. On the other hand, the configuration of the header information is an example configured according to the present embodiment and can be variously changed as necessary.

According to the above configuration, the switching information reproduction method according to the present invention will be described.

6 is a flowchart for explaining a method of reproducing switching information.

Referring to FIG. 6, the pickup unit 100 irradiates a laser beam to the optical disk 20, receives the reflected laser beam, and transmits the reflected laser beam to the signal processing unit 200 (step 601). The signal processor 200 receives a signal detected through the photo detector 8 and performs a predetermined operation through the calculator 10, and the signal detector 14 detects a channel 1 signal from the output of the calculator 10 ( Step 602). The detected channel 1 signal is as described with reference to FIGS. 4 and 5 (c). The switching information generator 16 compares the predetermined threshold value with the detected peak value or level of the channel 1 signal or compares the peak value or level of the channel 1 signal with each other to determine whether it is a user data area or a flag area (step). 603). If it is determined that the flag area (step 604), the switching information generation unit 16 generates the switching information indicating that the track is switched and transmits it to the control unit 300 (step 605). The controller 300 performs tracking servo control on the pickup unit 100 based on the switching information (step 606).

As described above, according to the present invention, a stable tracking servo control is possible even if the track is switched by arranging a flag area at the boundary at which the land track / groove track on which the wobble signal is recorded is switched to the groove track / land track. Furthermore, since a separate header area for header information is not disposed and recorded in a wobble signal and switching information is not separately recorded as header information, a wider user data area can be secured.

Claims (15)

A wobble track in which a wobble signal including header information is recorded and including a land track and a groove track formed in a spiral structure; And A flag region for providing information that the land track is switched to the groove track or the groove track is switched to the land track, The flag area includes an area in which a high frequency signal having a frequency higher than that of the wobble signal is recorded. The method of claim 1, And the flag area is formed as a mirror area. The method of claim 2, And the level of the RF signal detected from the flag region is higher than that of the wobble signal. delete The method of claim 1, The flag area is an optical information storage medium, characterized in that the wobble track of the adjacent one side is formed continuously. The method according to claim 1 or 5, At least one mark is recorded on the wobble track formed in the flag area. The method of claim 6, And a plurality of marks are recorded at predetermined intervals in the wobble track formed in the flag area. The method of claim 7, wherein And the high frequency signal is a frequency modulated signal. The method of claim 8, The high frequency signal is an optical information storage medium, characterized in that the signal is a combination of a high frequency signal of ω and 2ω. The method of claim 5, And the flag area includes a mirror area adjacent to another wobble track. The method of claim 10, And the peak value of the wobble signal is higher than the peak value of the RF signal detected from the region where the high frequency signal is recorded and lower than that of the RF signal detected from the mirror region. The method of claim 1, The header information recorded in the wobble signal is recorded by modulating Quadrature Phase Shift Keying (QPSK). A pickup unit for irradiating an optical signal to an optical information storage medium having a spiral wobble track in which a wobble signal including header information is recorded and receiving the reflected optical signal; A signal for detecting a channel 1 signal, which is a high frequency signal having a frequency higher than the frequency of the wobble signal, for receiving a light signal from the pickup unit and generating switching information of the wobble track based on the detected channel 1 signal. Processing unit; And And a control unit which performs tracking servo control according to the switching information provided from the signal processing unit. The method of claim 13, The pickup portion A laser unit for oscillating a laser beam; An objective lens for diffusing or condensing the laser beam oscillated from the laser unit to irradiate the optical information storage medium or to receive and diffuse the laser beam reflected from the optical information storage medium; And a beam splitter for refracting the laser beam received by the objective lens to guide the signal processor. The method of claim 14, The signal processor A photo detector for receiving a laser beam from the beam splitter; A calculator for calculating a signal provided from the photo detector according to a predetermined algorithm; A signal detector which detects a channel 1 signal for tracking control from an operation result of the calculator; And And a switching information generator configured to generate switching information of the wobble track from the channel 1 signal from the signal detector.