KR100332751B1 - Reproducing method of magneto optical disc - Google Patents

Abstract

PURPOSE: A method for reproducing a magneto optical disc is provided to minimize the time required for recovering a pickup to an initial area by using a wobble signal as an area conversion signal, when the pickup moves to any other area by jump operation or other external impact, thereby serving high quality sound. CONSTITUTION: In a method for reproducing a magneto optical disc, the number of tracks really jumped is compared with the number of tracks preset by a jump command of a microcomputer. The number of tracks really jumped is counted by wobble signals. If the preset track number is higher than the really jumped track number, the jump is finished. In the other case, it is determined whether the wobble signal is output, for stopping the movement and jump of the pickup if no wobble signal is output and converting the rotation control manner. If the pickup moves in the absence of the jump command, the wobble signal state is checked. If the wobble signal is changed, the pickup movement control is stopped and the rotation control manner is converted.

Description

How to play magneto-optical disc

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magneto-optical disc, and more particularly, to a method of reproducing a magneto-optical disc for minimizing the time when playback is stopped during a track jump or a change in a pick-up area due to an external shock. .

In general, recording magneto-optical discs have TOC (Table Of Contents) in which data of each song is stored in the form of a pit at the time of making the disc, as shown in FIG. Area (1), UTOC area (2) for storing information on the data when the user stores data in the data area, for example, the number of songs, the start of the song, the address, the name of the song, etc., in a groove form; The actual song can be divided into the data area 3 recorded in the groove form like the UTOC area 2, and the data storage form of each area on the disc is different, so the constant speed rotation control method (CLV: Constant Linear) Velocity and data retrieval methods are different.

That is, in the TOC area 1, data is recorded in a pit format as in the conventional optical disk, so that a CLV servo is performed using the reproduced EFM (Eight to Fourteen Modulation) signal, and the UTOC area 2 and the data area are used. In (3), since no data is recorded at the time of the first disc production, CLV servo cannot be performed according to the EFM signal as in the TOC area (1). Therefore, as shown in FIG. The groove 11 is wobbling by winding the groove 11 by FM-modulating the synchronization signal and the address information to be recorded as enlarged in (b) of FIG. 2. )

Therefore, when the UTOC area 2 and the data area 3 are reproduced, the disk rotation control can be performed by reproducing and demodulating the bling signal as shown in FIG.

However, such a magneto-optical disc reproducing method has different disc rotational control for each region, and thus, when the pickup is transferred to another area by a jump operation or shock during reproduction, accurate disc rotation control cannot be performed. In order to solve this problem, the magneto-optical disc reproducing apparatus of the present invention attempts to replay the rotating servo by changing the method of the rotational servo, considering that the area on the disc is changed when the above-mentioned time is not possible due to the above jump or shock. In this case, there is a problem in that high sound quality cannot be obtained because the sound is broken because the reproduction recovery time is long.

Accordingly, an object of the present invention is to detect the movement of the pickup due to jumps or shocks by using a woole signal reproduced only in the UTOC region and the data region to control the rotational servo method to minimize the recovery recovery time. The present invention provides a method of playing a magneto-optical disk.

In the method of reproducing the magneto-optical disc of the present invention for achieving the above object, if there is a jump instruction at the time of reproduction, the predetermined number of jump tracks is determined according to the jump instruction, and the number of tracks actually jumping from the obble signal is counted by starting the jump. And comparing the set number of jump tracks with the number of actual jump tracks, if the actual number of jump tracks is small, the jump is terminated. Otherwise, if the output signal is not output, the transfer and jump of the pickup are stopped and rotation control is performed. And a step of switching a method, checking a state of a wobble signal when the pick-up moves without a jump command, and stopping a pickup transfer control and switching a rotation control method when the wobble signal is changed. do.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

The reproducing method of the magneto-optical disc of the present invention uses a woovel signal as an area switching signal, and as shown in FIG. 4, when the driving voltage becomes low as shown in FIG. The feed motor is fed by this feed motor. At this time, the tracking servo is turned off to output a tracking error signal as shown in FIG.

The tracking error signal is shaped, and the number of tracks N _T actually jumped is determined and compared with the number of tracks N _P preset by the jump instruction in the microcomputer.

If the predetermined number of tracks (N _P ) is equal to or more than the number of tracks (N _T ) that actually jump, the jump is terminated. If the area is changed by performing an abnormal jump and the uble signal is not detected like the area b, the pickup and the jump are stopped, the rotation mode is switched, and the target track is jumped.

This playback method is used when the pickup enters the TOC area due to an abnormal jump during data reproduction in the data area or the UTOC area, and in the opposite case, reverses the ubble signal check and jumps by the area change in the intentional area change jump. There is no need to stop.

On the other hand, if there is no jump command and the pickup moves, the area is changed by the impact from the outside. In this case, as shown in (a) of FIG. 6, the tracking error increases due to the vibration of the objective lens. Since the servo is on, as shown in (b) of FIG. 6, the pickup is moved.

Therefore, at this time, check the Ubble signal as shown in (c) of FIG. 6, and if the Ubble signal is not detected as in the b 'area, it is determined that the area has been changed, turn off the pickup transfer control, switch the rotation method, and play back the data When the Ubble signal is detected as in the a 'region, the controller judges that the region is not changed and turns off the pickup transfer control and jumps to the original position without changing the rotation method.

In order to use the wobble signal as the area switching signal, that is, the logic signal as described above, as shown in FIG. 7, the first amplifier 21 and the output of the first amplifier 21 which input the wobble signal are input. First and second holders 23 and 25 for holding a second amplifier, a second amplifier 27 for automatically amplifying the first and second holders 23 and 25 again, and the second amplifier. A woofer signal detection circuit comprising a first comparator 29 for outputting a logic signal by comparing the output of reference point 27 and a reference voltage connected to the inverting input terminal side is configured to generate a woofer signal. After amplification through the amplifier 21, the peak value and the bottom value are held in the first and second holders 23 and 25, respectively, and the values held in the second amplifier 27 are automatically restored. Amplify the result and compare the result with the reference voltage value in the first comparator 29.

In addition, in order to determine whether the pick-up transfer is performed at the time of external shock, as shown in FIG. 8, a window comparator 31 for inputting a tracking error and a third holder for holding the drive voltage of the pick-up transfer motor are shown. (33), a third amplifier (35) for amplifying the drive voltage of the pickup transfer motor, a second comparator (37) and the window comparator for comparing the output of the third holder and the output of the third amplifier (37). A pickup transfer discrimination circuit comprising a logic circuit 39 for outputting a shock signal by performing an AND operation on the output of the second comparator 37 and the input of the second comparator 37, and if a tracking error occurs during the reproducing operation, the window comparator Determining the abnormality at (31) and outputs a high signal to the third holder 33 and the logic circuit 39, the third holder 33 in accordance with the high signal of the window comparator 31 Holding the drive voltage of the pickup transfer motor for a certain time Compared to the second comparator (37) to the absolute value amplifying the drive voltage of the drive voltage and the original pickup feed motor of the pickup feed motor through the holding If there is more than the voltage determines that the pickup is transferred.

As described above, according to the present invention, it is possible to provide high quality sound by minimizing the time of returning to the original area and reproducing when the pick-up due to a jump operation or an external shock moves to another area by using the ubble signal as the area change signal. It has an effect.

1 is an area structure diagram of a magneto-optical disk.

2 is a sectional view of a magneto-optical disk.

3 is a waveform diagram of a reproduced wobble signal.

4 is a flowchart showing a method of playing a magneto-optical disk according to the present invention.

5 is a signal waveform diagram during a jump operation of a magneto-optical disk.

6 is a signal waveform diagram of area conversion by external shock of a magneto-optical disk.

Fig. 7 is a block diagram for detecting a wobble signal of the magneto-optical disc reproducing apparatus according to the present invention.

8 is a block diagram for detecting pick-up transfer during external shock of the magneto-optical disc reproducing apparatus according to the present invention.

****** Explanation of symbols for main parts of the drawings ******

21,27,35: 1st, 2nd, 3rd amplifier 23,25,33: 1st, 2nd, 3rd holder

29,37: first and second comparators 31: window comparator

39: logic circuit

Claims (1)

If there is a jump instruction during playback, the predetermined number of jump tracks is determined according to the jump instruction, the jump is initiated, the number of tracks actually jumped from the obble signal is compared, and the number of jump tracks and the actual jump tracks are compared. If the actual number of jump tracks is small, the jump is terminated. Otherwise, the Ubble signal is checked. If the Ubble signal is not output, the transfer and jump of the pickup are stopped and the rotation control method is switched. And checking the state, and if the wobble signal is changed, stopping the pickup transfer control and switching the rotation control method.