JPH0521332U - Optical disk player - Google Patents

Abstract

(57) [Summary] [Purpose] Compensate for output distortion due to deviation from the neutral point of the objective lens. A signal converted from a main beam into a current by a photodiode 4 is converted into a voltage by a voltage-current conversion amplifier 9 and output to a signal reproducing circuit. The signal converted from the two sub-beams to the current by the photodiode 4 is a differential amplifier 6
Then, the tracking error signal is extracted and output to the coil drive amplifier 7. The coil drive amplifier 7 supplies a current to the objective lens drive coil 5. The output of the coil driving amplifier 7 is further output to the absolute value amplifier 8, and the current is supplied to the laser diode 3 by the output of the absolute value amplifier 8.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to an optical disc player, and more particularly to an optical disc player in which output distortion due to deviation from the neutral point of an objective lens is compensated.

[0002]

[Prior Art]

 In optical disc players such as CD players and video disc players, tracking control and focus control are generally performed by controlling the tracking direction position and the focus direction position of the object lens. FIG. 5 shows an example of a tracking control circuit and a signal reproducing circuit of such a conventional optical disc player. As shown in the figure, the optical pickup 1 includes a laser diode 3, an objective lens 2, a photodiode 4, and an objective lens drive coil 5, and a laser diode to which a constant current is supplied from a laser diode drive circuit 12. The laser light emitted from 3 is focused on the signal surface of the optical disc 10 by the objective lens 2. Further, the laser light reflected by the signal surface of the optical disc 10 is focused on the photodiode 4 by the objective lens 2.

The signal converted from the main beam into a current by the photodiode 4 is converted into a voltage by the voltage-current conversion amplifier 9 and output to the signal reproduction circuit. The signal converted from the two sub-beams by the photodiode 4 into a current is subjected to a tracking error signal by a differential amplifier 6 and output to a coil drive amplifier 7. The coil drive amplifier 7 supplies a current to the objective lens drive coil 5 so that the laser spot focused by the objective lens 2 tracks the pit train of the optical disc 10.

[0004]

[Problems to be solved by the device]

 In the above-mentioned conventional one, the objective lens 2 is displaced from the neutral position according to the current flowing through the objective lens drive coil 5, and the position of the laser spot is aligned with the pit row. The optical pickup 1 follows the spiral pit train sent by the motor driven by the DC component of the output of the coil drive amplifier 7, but it cannot follow the short-cycle runout, and the objective lens 2 is centered around the neutral position. It is displaced in the tracking direction. When the objective lens 2 deviates from the neutral position, the intensity of the laser beam returning to the photodiode 4 changes because the center of the light flux of the laser beam does not coincide with the optical axis of the objective lens. FIG. 3 shows the relationship between the position of the objective lens in the tracking direction and the intensity of laser light.

As described above, since the intensity of the laser beam applied to the optical disc 10 varies due to the displacement from the neutral position of the objective lens 2, AM distortion occurs in the reproduction signal, and, for example, as in a video disc player. When the FM-modulated signal is detected, the AF distortion is converted into the FM distortion due to the non-linear detection characteristic, which causes distortion in the image or audio signal.

The present invention has been made in view of the above points, and an object thereof is to provide an optical disk player in which AM distortion of a reproduction signal due to displacement of an objective lens is prevented from occurring. ..

[0007]

[Means for Solving the Problems]

 The optical disk player of the present invention changes the laser light source output according to the output of the coil drive amplifier that supplies a current to the objective lens drive coil of the optical pickup, and the optical pickup output of the optical pickup due to the deviation from the neutral point of the object lens. It compensates for fluctuations in.

Further, in the optical disk player of the present invention, the gain of the reproduction signal amplifier is changed according to the output of the coil driving amplifier which supplies the current to the objective lens driving coil of the optical pickup, and the deviation from the neutral point of the objective lens is caused. It compensates the fluctuation of the reproduced signal output due to.

[0009]

[Action]

 The displacement amount from the neutral point of the objective lens is approximately proportional to the current flowing in the objective lens drive coil, and the displacement amount of the laser light returning to the photodiode follows a certain relationship as shown in FIG. Changes. Therefore, the output of the coil drive amplifier that supplies a current to the objective lens drive coil is amplified by an amplifier having a predetermined amplification characteristic, and the laser diode is caused to emit light by that output to output a reproduction signal due to the deviation from the neutral point of the objective lens Can be compensated for to reduce the AM distortion, and the signal distortion after FM detection can be reduced.

[0010]

【Example】

 An optical disk player which is an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a tracking control circuit and a signal reproducing circuit of an optical disk player which is a first embodiment of the present invention. The optical pickup 1 has a laser diode 3, an objective lens 2, a photodiode 4 and an objective lens drive coil 5 incorporated therein, and the laser light emitted from the laser diode 3 is collected by the objective lens 2 on the signal surface of the optical disc 10. Be illuminated. Further, the laser light reflected by the signal surface of the optical disc 10 is focused on the photodiode 4 by the objective lens 2.

The signal converted from the main beam into a current by the photodiode 4 is converted into a voltage by the voltage-current conversion amplifier 9 and output to the signal reproduction circuit. The signal converted from the two sub-beams by the photodiode 4 into a current is subjected to a tracking error signal by a differential amplifier 6 and output to a coil drive amplifier 7. The coil drive amplifier 7 supplies a current to the objective lens drive coil 5 so that the laser spot focused by the objective lens 2 tracks the pit train of the optical disc 10. The output of the coil drive amplifier 7 is further output to the absolute value amplifier 8, and the output of the absolute value amplifier 8 supplies a current to the laser diode 3.

The amplification characteristic of the absolute value amplifier 8 is selected so as to compensate for the change in the received light intensity of the photodiode 4 due to the deviation from the neutral point of the objective lens as shown in FIG. Will be reduced.

FIG. 2 is a block diagram showing a tracking control circuit and a signal reproducing circuit of an optical disk player which is a second embodiment of the present invention. A laser diode 3, an objective lens 2, a photodiode 4 and an objective lens drive coil 5 are incorporated in the optical pickup 1, and a constant current is supplied from a laser diode drive circuit 12 Laser light emitted from the laser diode 3 Are focused on the signal surface of the optical disc 10 by the objective lens 2. Further, the laser light reflected by the signal surface of the optical disc 10 is focused on the photodiode 4 by the objective lens 2.

The signal converted from the main beam into a current by the photodiode 4 is converted into a voltage by the variable gain amplifier 11 and output to the signal reproduction circuit. The signal converted from the two sub-beams by the photodiode 4 into a current is subjected to a tracking error signal by a differential amplifier 6 and output to a coil drive amplifier 7. The coil drive amplifier 7 supplies a current to the objective lens drive coil 5 so that the laser spot focused by the objective lens 2 tracks the pit train of the optical disc 10. The output of the coil drive amplifier 7 is further output to the absolute value amplifier 8, and the gain of the variable gain amplifier 11 is set by the output of the absolute value amplifier 8. The characteristics of the absolute value amplifier 8 and the variable gain amplifier 11 are selected so as to compensate for the change in the received light intensity of the photodiode 4 due to the deviation from the neutral point of the objective lens as shown in FIG. AM distortion of the output reproduction signal is reduced.

The embodiment is configured as described above, but the invention is not limited to this. For example, it is also possible to reduce the AF distortion of the reproduction signal due to the displacement of the objective lens in the focus direction (direction perpendicular to the disc surface). .. Although not shown in FIG. 1 and FIG. 2, the focus lens position is also controlled so that the laser beam is focused on the signal surface of the disk. As shown in FIG. 4, when the incident light from the objective lens is not parallel, the light receiving intensity of the photodiode changes depending on the focus direction position of the objective lens. In this case, it is possible to reduce the AF distortion of the reproduction signal by the output of the coil drive amplifier that supplies a current to the objective lens drive coil in the focusing direction.

[0016]

[Effect of the device]

 According to the optical disc player of the present invention, the AF distortion of the reproduction signal due to the displacement of the objective lens is reduced, and in the case of the video disc player, the distortion of the audio signal and the video signal is reduced. Further, when applied to a CD player, jitter is prevented by reducing the output fluctuation of the reproduction signal after light-current conversion or light-voltage conversion.

[Brief description of drawings]

FIG. 1 is a block diagram showing a tracking control circuit and a signal reproducing circuit of an optical disk player which is a first embodiment of the present invention.

FIG. 2 is a block diagram showing a tracking control circuit and a signal reproducing circuit of an optical disc player which is a second embodiment of the present invention.

FIG. 3 is a graph showing the relationship between the displacement of the objective lens of the optical pickup from the neutral position in the tracking direction and the intensity of laser light returning to the photodiode.

FIG. 4 is a graph showing the relationship between the displacement of the objective lens of the optical pickup from the neutral position in the focus direction and the intensity of laser light returning to the photodiode.

FIG. 5 is a block diagram showing an example of a tracking control circuit and a signal reproducing circuit of a conventional optical disc player.

[Explanation of symbols]

 1 Optical Pickup 2 Objective Lens 3 Laser Diode 4 Photodiode 5 Objective Lens Drive Coil 6 Differential Amplifier 7 Coil Drive Amplifier 8 Absolute Value Amplifier 9 Voltage-Current Conversion Amplifier 10 Optical Disk 11 Variable Gain Amplifier 12 Laser Diode Drive Circuit

Claims (2)

[Scope of utility model registration request] 1. A laser light source output is changed according to an output of a coil drive amplifier that supplies a current to an objective lens drive coil of an optical pickup, and fluctuations in the output of a light receiving element of the optical pickup due to a deviation from a neutral point of the objective lens. An optical disc player characterized by compensation. 2. The variation of the reproduction signal output due to the deviation from the neutral point of the objective lens is compensated by changing the gain of the reproduction signal amplifier according to the output of the coil drive amplifier which supplies a current to the objective lens drive coil of the optical pickup. An optical disc player characterized by: