KR100546301B1 - Optical disk player - Google Patents

Abstract

The present invention relates to an apparatus capable of reproducing data normally at any time regardless of the data recording state by improving a problem that may occur in reading data in which the recording state is unsuitable during optical disc reproduction.

In the present invention, the microcontroller of the optical disk drive reflects the actual speed of the data read, so that even if the disk is rotated at any speed, the corrected RF signal can be properly calibrated to match the speed, so that the data can be played back regardless of the recording state of the data.

According to the present invention, the readability of the data can be increased under any conditions regardless of the recording state of the data when the optical disc on which data is recorded abnormally.

RF, double speed, low pass filter, readability

Description

Optical disk player {Optical disk player}             

1 is a block diagram of a conventional playback apparatus.

2 is a block diagram of the present invention.

The present invention relates to an apparatus capable of reproducing data normally at any time regardless of the data recording state by improving a problem that may occur in reading data in which the recording state is unsuitable during optical disc reproduction.

As a recording medium for recording and reproducing information such as video, sound, or data with high density, optical disks, hard disks, cards, or tapes are typical, and among them, the optical disk forms the mainstream. Recently, the optical disk device field has formed a family of products from a laser disk (LD) and a compact disk (CD) to a digital versatile disc (DVD). Optical discs are usually divided into CDs and DVDs. CDs are divided into CD-ROMs (CD-Read Only Memory) and CD-RWs (CD-Rewritable). DVDs are DVD-ROMs and Random Access Memory (DVD-RAM). Separated by. In addition, the DVD is a DVD-S in which only one information is recorded in a single layer on one track, and a DVD-D in which two pieces of information are simultaneously recorded in a dual layer on one track. Separated by.

In such an optical disc, tracks are formed spirally from the center toward the outside, and record digital data having a predetermined format on the track.

In the optical disc apparatus, light is focused on the optical disc by the focusing control circuit, and guided onto the data track of the optical disc by the tracking control circuit.

The light emitted from the laser diode is focused on the optical disk by the lens and reflected by the reflective surface of the optical disk to the photodetector. From the output signal of the photodetector, data recorded on the optical disc and actual values for the focusing control circuit and the tracking control circuit are obtained. The optical pickup is often moved radially relative to the optical disc by a tracking control circuit, also sometimes called a radial drive, by which light is directed to a spiral data track of the optical disc.

1 is a block diagram of a conventional playback apparatus.

In general, when the data recorded on the optical disc 10 is reproduced, the data is optically picked up and then converted into an electrical signal by the signal converter 11. The electrical signal corresponds to an RF (Radio Frequency) signal. to be.

Typically, the RF signal is generated through a decoding process by the decoder 15 after noise reduction and proper amplification of the signal level according to the double speed through the RF amplifier 12, and the final reproduction signal is generated. do.

However, the characteristics of the recorded data may vary greatly depending on the machine or equipment that records the data. However, the level of the recorded data may be higher or lower than the prescribed value of the optical disc data format.

This causes the RF signal, which is the electrical signal, to deviate from the normal level, resulting in distortion of the reproduction signal. Audio data, which may be an example of the data, may sound strange or video data may be broken.

In order to solve such a problem, a distorted RF signal input to the RF amplifier is usually calibrated into a signal suitable for a double speed of a disk, and the calibration is performed according to the modulation frequency provided by an equalizer 13 in the RF amplifier. By modulating the frequency of the signal.

The modulation frequency provided by the equalizer 13 is determined by the double speed information provided by the microcontroller 14 of the disk drive to the RF amplifier.

However, the calibration method of the RF signal has a problem in that it is insensitive to changes in the double speed because the modulation frequency of the equalizer 13 is fixed for each double speed range by designating a double speed range. For example, after specifying a speed range such as 5 times or less, 5 to 13 times, or 13 times or more, a modulation frequency of a specific value is specified for each range.

The rotation of the optical disc 10 is a constant angular velocity (CAV) constant, and thus the frequency band of the RF changes when the data is read from the optical disc 10. The actual speed of the difference is different. For example, if the disk rotates at 10 times speed, it is actually read at about 4 times speed in the inner circumference, 5 to 6 times speed in the middle, and about 10 times speed in the outer circumference.

Since the modulation frequency of the equalizer 13 according to the above double speed range is fixed to one value, even if the actual double speed falls within the above double speed range, the proper double speed value of the modulation frequency has only a few values for each double speed range. Therefore, if the actual speed is out of the proper speed, the RF signal does not show the effect of the calibration even after the calibration.

Accordingly, an object of the present invention is to provide an apparatus that enables perfect reproduction of abnormal data even when a disc on which data is recorded abnormally is operated at any speed.

In order to achieve the above object, an apparatus for improving readability of data when playing an optical disc of the present invention includes a drive microcontroller for controlling the overall operation of the apparatus, and optically picked up data from an RF signal as an electrical signal. A signal converter for converting the signal into an RF signal, an RF amplifier for calibrating the RF signal, and double speed information of a pulse width modulation (PWM) signal type provided from the drive microcontroller to a pulse width of a 'low' section of the PWM. It consists of a low pass filter that converts the voltage into a voltage value and a decoder that decodes the calibrated RF signal.

2 is a block diagram of the present invention.

The apparatus of the present invention installs a low pass filter (LPF) 26 in front of the RF amplifier 22 to recall actual speed information in the form of a pulse width modulation (PWM) signal from the drive microcontroller 24. Pass it through the LPF 26. The passed double speed information may have various voltage values. The lower the speed, the longer the 'low' section of the PWM signal, and the higher the speed, the shorter the 'low' section. Passing this through the LPF, the low speed is low voltage value, the high speed is high voltage value, and because the PWM signal reflects a variety of speed information (since it has a variety of pulse forms), the voltage value also depends on each actual speed information Has a value.

The modulation frequency of the equalizer 23 determined according to the voltage values also has various values. The frequency of the RF signal is modulated according to the respective frequencies and then the corrected RF signal is decoded through the decoder 25. Will play.

According to the present invention, the readability of the data can be increased under any conditions regardless of the recording state of the data when the optical disc on which data is recorded abnormally.

Claims (3)

In an optical disc playback device: A drive microcontroller that controls the overall operation of the device; A signal converter for optically picking up the data recorded on the disk and converting the data recorded on the disk into an RF signal (Radio Frequency) signal; A low pass filter for converting double speed information provided by the drive microcontroller into a voltage value; An RF amplifier having an equalizer for providing a modulation frequency determined according to the voltage value, and for performing correction of the RF signal by modulating the RF signal according to the frequency;  And a decoder for decoding the calibrated RF signal through the RF amplifier. The method of claim 1, wherein the speed information is And a pulse width modulation (PWM) signal type in which a width of a low section is determined according to a reproduction speed of the optical disc. The method of claim 2, wherein the voltage value, And an optical disc reproducing apparatus corresponding to a pulse width of a low section of the PWM signal.

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