KR100197626B1 - Compensating apparatus for track zero crossing signal for one beam pickup - Google Patents

Abstract

Disclosed is a track zero cropping (TZC) signal compensating apparatus for a disc player using a one-beam pickup.

This device is used only for normal disc playback and generates a TE (Tracking Error) signal and outputs the first TE generator. 2 A switch unit for receiving the TZC signal generated by the TE generator and outputting the TZC signal only when track jumping, and a servo unit for performing servo operation by receiving a signal from the first TE generator and the switch unit, and a switch unit and the servo unit. It has a microcomputer to control.

Therefore, since the TE generator separately outputs the TZC signal during the disc track jump by using this apparatus, the pickup has an effect that the track jump is stable and can be accurately moved to the target position.

Description

Track zero crossing signal compensation device with 1 beam pickup

The present invention relates to a track zero crossing (TZC) signal compensation device of a disc player using a one-beam pickup.

In a device that plays a CD or a DVD, the pickup can read all the information embedded in the CD or the DVD. Therefore, since CD track intervals are 1.6 µm during CD series playback, a three-beam pickup is mainly used to control all aspects of overall tracking. However, when DVD playback with a narrow track interval is used, a single beam pickup is used, and an additional block for generating a tracking control signal is added so that the tracking control is performed as an output signal obtained from the block. An example of this is shown in FIG. 1 attached.

1 is a block diagram illustrating a TZC signal generator using a conventional one-beam pickup.

As shown in FIG. 1, an RF shaping unit 13 for shaping an RF signal is connected to an output terminal of a pickup 12 that reads information embedded in the disk 11. An output terminal of the RF shaping unit 13 is connected to a TE generating unit 14 for generating a TE signal and a TZC signal. The output section of the TE generation section 14 is connected to a servo section 15 that performs a servo operation under the control of the microcomputer 16.

The operation of the device constituting the above configuration will be described.

The information embedded in the disc 11 at the time of disc reproduction is obtained as a phase difference signal by a photo diode of the pickup 12. The obtained signal is applied to the RF shaping section 13 to shape a waveform. The shaped signal is applied to the TE generator 14, and the TE generator 14 generates a TE signal and a TZC signal and outputs the signal to the servo unit 15. The servo unit 15 performs a tracking control operation with an applied signal under the control of the microcomputer 16. Here, the TE generating unit 14 is used also during normal playback of the disc or during track jump of the disc to generate the TZC signal. This TZC signal is an important factor in counting the number of tracks jumped when performing track jumping, which is the basis of tracking control.

As described above, the separate TE generation unit 14 is used in two cases, i.e., during normal playback of the disc or during track jump of the disc, to generate the TZC signal. The number of was not formed correctly. Therefore, the track jump was not accurate, and there was a problem that the oscillation phenomenon was not accompanied by the track jump and moved to the target position correctly.

Accordingly, an object of the present invention for solving such a problem is to provide an apparatus for compensating for a TZC signal when performing track jump when using a 1 beam pickup.

1 is a block diagram showing a TZC signal generator using a conventional one-beam pickup;

Figure 2 is a block diagram showing a TZC signal compensation device in a one-beam pickup according to the present invention.

Description of the main parts of the drawings

11, 21: disc 12, 22: pickup

13, 23: RF shaping portion 14, 24, 25: TE generation portion

15, 28: servo unit 16, 26: microcomputer

27: switch unit

A feature of the present invention for achieving the above object is a device for playing a CD series or a DVD, which is used only for general disc playback, and is used only for track jumping between a first TE generator and a disc for generating and outputting a TE signal. A switch unit for outputting a TZC signal only when track jumping by receiving the TZC signal generated by the second TE generator and the first and second TE generators which generate and output a TE signal, and a signal from the first TE generator and the switch unit. It is to provide a TZC signal compensation device of a one-beam pickup including a servo unit and a switch unit for receiving a servo operation and a microcomputer to control the servo unit.

With reference to the accompanying drawings will be described a preferred embodiment of the present invention.

2 is a block diagram showing a TZC signal compensation device in a 1-beam pickup according to the present invention.

As shown in FIG. 2, an RF shaping unit 23 for shaping an RF signal is connected to an output terminal of a pickup 22 for reading information embedded in the disc 21. As shown in FIG. The output terminal of the RF shaping unit 23 is connected to the TE generators 24 and 25 for generating a TE signal and a TZC signal. The output section of the TE generator 24, 25 is connected to a switch unit 27 for selecting one of several possible operations according to the control signal of the microcomputer 26, and the switch unit 27 is connected to the microcomputer 26. The servo unit 28 that performs the servo operation in accordance with the control signal of is connected.

The operation of the device constituting the above configuration will be described.

During normal disc playback without track jump of the disc, information embedded in the disc 21 is obtained as a phase difference signal by the photodiode of the pickup 22. The obtained signal is applied to the RF shaping section 23 to shape a waveform. The shaped signal is applied to the TE generators 24 and 25. The first TE generator 24 generates a TE signal during normal disc regeneration as an applied signal, inputs it to the servo unit 28 through the switch unit 27, and the second TE generator 25 applies the applied signal. As a result, a TZC signal is generated during track jump of the disc and input to the servo unit 28 through the switch unit 27. The signals applied to the servo portion 28 are used under the control of the microcomputer 26. Here, the operation of the TE generators 24 and 25 will be described.

First, the first TE generator 24 converts the applied shaped signal into a digital signal. The digitally converted signal is converted into an analog form signal by the LPF, and about 30Khz or more is cut for tracking loop characteristics. If the shaped signal is not properly converted into an analog signal, that is, the noise component of the digital signal is contained in this signal, track jump occurs and there is a lot of filtering. The TE signal obtained in the first TE generation section 24 is applied to the TE input terminal of the servo section 28. The TZC signal obtained by the first TE generation unit 24 is filtered and input to the switch unit 27. Now, since the disc is no general track playback, the switch unit 27 does not output the TZC signal applied to the servo unit 28 according to the control signal of the microcomputer 26. Thus, during normal disc playback, the servo unit 28 performs the tracking control operation using the TE signal applied in accordance with the control signal of the microcomputer 26. In normal disc playback, the second TE generation section 25 does not operate. However, when the pickup jumps the track of the disc, the second TE generator 25 generates the TZC signal as an applied shaped signal. In this case, i.e., if there is track jump, if the first TE generation section 24 is used as it is, the TZC signal required for the track jump is almost filtered out and the number of tracks jumped is not counted correctly. If so, the above-mentioned problem occurs. Therefore, the second TE generation section 25 is used to generate the TZC signal only at the time of track jump. Accordingly, the second TE generator 25 generates a TZC signal as it is without filtering the applied shaped signal, and outputs the TZC signal through the switch unit 27 to the TZC input terminal of the servo unit 28. The servo unit 28 counts the correct number of jump tracks using a signal applied under the control of the microcomputer 26 and uses it for tracking control. In this way, the TZC signal is correctly generated and the track jump is stable.

As described above, since the TE generator separately outputs the TZC signal during the disc track jump, the pickup can be moved to the target position with stable track jump. In addition, this TZC signal compensator has an advantage that it can be used for all optical devices using a one-beam pickup.

Claims (1)

In a device that plays a CD series or DVD, A first TE generation unit used only during normal disc playback to generate and output a TE (Tracking Error) signal; A second TE generation unit used only during track jump of the disc to generate and output a TE signal; A switch unit which receives a TZC signal generated by the first and second TE generators and outputs a TZC signal only when track jumping; A servo unit receiving a signal from the first TE generator and the switch unit to perform a servo operation; And TZC signal compensation device of a one-beam pickup comprising a micom for controlling the switch unit and the servo unit.