KR20040096185A - Method for seeking information in Land Pre-Pit - Google Patents

Abstract

PURPOSE: A method for detecting LPP(Land Prepit) information is provided to detect LPP information by using side beams, to reduce an RF interference caused by a pit generated in a groove area capable of recording data, thereby easily detecting the LPP information. CONSTITUTION: A track is traced with a main beam(1) and more than one side beam(6,7). By filtering a difference signal of the main beam(1) reflected from an optical recording medium, a wobble signal is detected. Position information is detected from the side beams(6,7) reflected from a prepit area of the optical recording medium. When tracking the track with the main beam(1) and the side beams(6,7), the main beam(1) traces a user data area while the side beams(6,7) trace the prepit area.

Description

LP information detection method {Method for seeking information in Land Pre-Pit}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical recording and reproducing apparatus, and more particularly, to a method for more accurately detecting land prepit (LPP) information formed as a pit on a land.

Usually rewritable optical recording media such as an optical disc include a rewritable compact disc (CD-RW) and a rewritable digital versatile disc (DVD-RW, DVD-RAM, DVD-R). There is this.

Here, the difference between the DVD-RAM and the DVD-RW / R is that the DVD-RAM records data in both lands and grooves, whereas the DVD-RW / R records data only in the grooves. In other words, the DVD-RW / R pre-pits the land track instead of the header of the DVD-RAM indicating the position information to record the position information on the groove track, and does not record the data on the land track. At this time, the location information on the land is called LPP information. In other words, information about the physical address of the groove track is recorded in the form of a pit in the land.

The position information may also be recorded in a wobbling shape along the track boundary. Here, the wobbling is a modulated clock that modulates a constant clock to supply information to the disk, for example, information on the corresponding position, information about the rotation speed of the disk, and the like to the power of the laser diode, thereby controlling the information by changing the light beam of the laser. Is recorded at the boundary of the track.

Accordingly, in order to detect the LPP signal used in the DVD-RW / R, the wobble signal and the LPP information are detected by using a main beam.

1 is a diagram illustrating a method of detecting wobble signal and LPP information using only a conventional main beam.

As shown in Fig. 1, there is a track divided into a land and a groove area. In the groove area of the track, user data is recorded in the form of a pit 2. The main beam 1 traces the groove area into a shape including a part of the land track, extracts data recorded in the groove track, and detects LPP information of the land area.

The push-pull (PP) method is used to detect the LPP information, wherein the push-pull method divides the reflected light from the optical disk into two or four parts according to the structure (not shown) of the optical detector in the optical pickup. By dividing, the intensity of each divided light is compared and detected.

This will be described using the two-segment photodetector in the optical pickup as an example.

When the main beam 1 is irradiated to the pit, diffraction occurs. In the correct tracking state, the left and right diffraction light is symmetric about the optical axis. When the reflected light is detected by the two-segment photodetector in the optical pickup, the output difference becomes zero. In other words, the push-pull signal becomes zero. However, if the spot deviates to the left with respect to the pit, the diffraction effect of the laser light incident on the left side of the pit decreases, and the diffraction light becomes asymmetrical and a push-pull signal in which the reflected light on the left side increases is detected. In addition, in the case of deviation to the right, a push-pull signal with an increase in the right side is detected. Since the land pre-pit (LPP) area in which the groove track position information is pre-pitted and recorded is a non-recording area, the reflectance is high. Therefore, the push-pull signal greatly changes up and down to follow it in the LPP region.

2 is a diagram illustrating a push-pull signal of the LPP region, and the wobble (WBL) signal is also shown.

As shown in FIG. 2, the push-pull signal in the LPP region is greatly changed, and the LPP 1, 2, 3 (3, 4, 5) is detected by slicing the region a through an appropriate filter.

In this method, the LPP information in the land track can be detected because the main beam not only accurately illuminates the groove track but also lights a part of the land track. However, in the case of an unrecorded disc, since the pit is not yet generated in the groove track, there is no problem in detecting the LPP information. However, in the case of the recorded disc, the pit is formed in the groove track so that the generated pits are the main beam. This may affect the LPP information detection as it is. This causes a problem that incorrect LPP information is detected.

Accordingly, an object of the present invention is to solve the problems of the prior art, and unlike the prior art, which used only the main beam, a groove capable of data recording by detecting LPP information using a side beam. The high frequency interference caused by the pit generated in the area is reduced to facilitate the detection of the LPP information.

1 is a diagram illustrating a structure for obtaining a wobble signal and LPP information using only a conventional main beam;

2 is a diagram illustrating a wobble signal and LPP information obtained using a conventional main beam only.

3 is a diagram illustrating a structure for obtaining wobble signal and LPP information using a main beam and a side beam according to the present invention.

4 is a block diagram according to the present invention;

5 shows a signal waveform obtained in accordance with the present invention.

-Explanation of symbols for the main parts of the drawing-

1: main beam 2: feet

3: LPP.1 4: LPP.2

5: LPP.3 6: Side Beam E

7: side beam F

LPP information detection method according to the present invention for achieving the above object is provided with a land and groove track, one of the tracks can be recorded data, the other track position of the data recordable track An optical recording medium in which information is pre-fitted and recorded, the method comprising: tracing the track with a main beam and at least one side beam, and filtering a difference signal of a main beam reflected from the optical recording medium to detect a wobble signal And detecting the position information from the side beams reflected from the pre-pitted area of the optical recording medium.

In the step of tracing the main beam and the side beam, the main beam traces the user data area, and the side beam traces the prepit area.

The detecting of the position information through the side beam may include amplifying an electric signal corresponding to the reflected light detected when the side beam is traced to the pre-pitted region, and filtering the amplified signal. It is done.

Hereinafter, a configuration and an operation according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

3 is a diagram illustrating a method of detecting LPP information including a side beam according to the present invention.

As shown in FIG. 3, there is an existing main beam 1 and side beams 6 and 7 that trace a land area. The side beams are two, as shown in the figure, the side beam E 6 represents the outer circumferential side of the track with respect to the main beam 1, and the side beam F 7 represents the inner circumferential side of the track. Signals I1 and I2 in the figure are signals detected by a two-part photodetector in the optical pickup, I1 means a radial direction outer detection signal of the main beam 1, and I2 means a radial direction inner detection signal.

The side beams 6 and 7 detect the LPP information while tracing the land area. That is, since the LPP is a pitting area, the LPP information is detected by filtering the reflected light from the side beams 6 and 7 when the side beams 6 and 7 trace the land area.

4 shows a block diagram according to the invention.

As shown in Fig. 4, the wobble signal is detected using I1 and I2 of the main beam, and the LPP information is detected using the F signal from the side beam F7. The F signal means address information of the current groove track detected from the side beam F 7.

This will be described in more detail as follows.

Address information, information on the rotational speed of the disc, and the like are contained in a wobble signal recorded in a wobbling shape along the track boundary. Accordingly, address information is restored by performing band pass filtering on the push-pull signal to extract the wobble signal and detecting the phase of the wobble signal.

In this case, as described above, the I1 signal means a radial direction outer detection signal of the main beam, and I2 means a radial direction inner detection signal, and thus is push-pull using the signal difference I1-I2 of I1 and I2. A signal is generated (401), and the push-pull signal passes through a WBL filter (402), leaving only the wobble signal (WBL) 403 of a specific frequency.

In addition, an output signal F of a photo detector (not shown) that detects the reflected light reflected from the side beam F 7 and converts it into an electrical signal is input to the amplifier 404. Here, the F signal is a signal having address information of a groove track recorded in the LPP. The output signal F amplified by the amplifier 404 is input to the LPP filter 405 and is filtered through the LPP filter 405 to detect the LPP information.

The E signal obtained from another side beam E (6) region also detects the LPP information through the same method. However, since the address of the current groove track is the LPP.3 signal 5 detected from the inner circumferential side F signal, only the F side signal may be detected.

In this manner, the LPP information can be easily detected without being subjected to high frequency interference by the pit generated in the groove area of the recorded disk.

5 is a diagram illustrating a detection waveform of an LPP and a wobble signal according to the present invention.

5A shows a signal waveform obtained from the side beam E. FIG. Since the light reflectance is high in the LPP region, the light is moved up and down to follow it. Therefore, LPP.1 (3) can be detected from the side beam E (6).

5B illustrates a wobble signal obtained from the main beam.

5C shows a signal waveform obtained from the side beam F. FIG. From the side beam F (7) we get LPP.2 (4) and LPP.3 (5).

As described above, since the LPP detection method according to the present invention detects the LPP using a side beam in addition to the main beam, the high frequency interference caused by the pit generated in the groove area of the recorded disk is reduced, thereby making the LPP detection easier. There is.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

Claims (3)

In an optical recording medium provided with land and groove tracks, data can be recorded on one of the tracks, and pre-pitted position information of the data recordable tracks is recorded on the other track. Tracing the track with a main beam and one or more side beams, Detecting a wobble signal by filtering a difference signal of a main beam reflected from the optical recording medium, And detecting the positional information from a side beam reflected from the prepitted region of the optical recording medium. The method of claim 1, The trace step of the main beam and the side beam, The main beam traces the user data area, And said side beam traces a pre-pit area. The method of claim 1, Position information detection through the side beam, Amplifying an electrical signal corresponding to the reflected light detected when the side beam is traced to the pre-pitted region; And filtering the amplified signal.