KR100258891B1 - Photodiode regulator for optical pickup - Google Patents

Abstract

PURPOSE: An apparatus for adjusting a photo diode of a light pickup is provided to reduce an adjusting time of a photo diode(PD) by deciding an optimum position of the PD automatically. CONSTITUTION: A supporting board(704) supports a light pickup(705). A two axes(X,Y) adjusting stage(702) and an adjusting jig(703) adjust a photo diode(PD) of the light pickup(705) by a central axis. A spindle motor(708) and a sled motor(701) decide a rotation and a position of a disk(707). A linear guide(706) guides a moving path of the disk(707) by a power of the sled motor(701). Signals(A,B,C,D) outputted from the light pickup(705) are amplified at a preset amplifying unit(100) and inputted to a servo unit(200). The servo unit(200) performs a focusing and tracking in order that the light pickup(705) may pursue on a data surface of the disk(707). The PD signal component of the preset amplifying unit(100) is calculated as an analogue in a signal detecting unit(300) and averaged in a DSP(400) and transmitted to a CPU(500). The data of the CPU(500) decides an adjusting displacement(X,Y) and transmits a pulse command to a motor driver of the two axes(X,Y) adjusting stage(702).

Description

Photodiode regulator for optical pickup

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for adjusting the position of a photo diode (PD) in a production line of a DVD optical pickup apparatus. In particular, an optical pickup for shortening the adjustment time of the PD by automatically determining an optimal position of the PD. Relates to a photodiode adjusting device.

In general, DVD optical pickup has a mass production problem due to the complexity of the components, one of which is in the adjustment process. The adjustments used in the production process of the optical pickup device can be roughly divided into PD (photo diode) position adjustment, tilt adjustment, sensor lens adjustment and grating adjustment.

A conventional system for adjusting the PD position is shown in FIG. 1 attached.

Referring to FIG. 1, a manual adjustment jig for manually adjusting the position of an optical pickup, a preamplifier for amplifying a signal output from the optical pickup, and an output signal of the preamplifier are analyzed and a focusing error (FE) is analyzed. Or an FE / TE generating circuit for detecting a tracking error (TE), an RF generating circuit for receiving an output signal of the preamplifier and generating an RF signal, and an output signal of the FE / TE generating circuit and the RF generating circuit. It includes an oscilloscope that displays for user identification.

It also includes a focus and track servo circuit, an equalizer, a CLV servo circuit, a jitter meter, and a motor for rotating the disk.

The manual adjustment jig is provided with a PD adjusting stage 1, a sensor lens adjusting rod 2, a grating adjusting rod 3, and a PD fixing frame 4, as shown in FIG.

The external configuration of the optical pickup element is as shown in FIG. 3, where reference numeral P1 denotes a fixed position of LD, and P2 denotes a fixed position of PD.

In the conventional system configured as described above, the PD positioning operation is performed by moving the manual adjustment jig so that the user is in a desired state while observing the waveform output on the oscilloscope.

That is, the position of the PD is manually adjusted based on the oscilloscope signal. When the position of the PD is shown in FIG. 5, the adjustment position is based on X and Y, and the basic signal is based on the value of (A + C)-(B + D). Y is based on the (A + B)-(C + D) signals. At this time, as shown in Figure 4, the reference position of the PD X, Y is determined according to the image output to the oscilloscope, the manual adjustment of the PD fixed frame to the PD fixed to the P2 position of Figure 3 (4 in Figure 2) And make a manual fine adjustment so as to be close to the X and Y positions (see Fig. 4).

However, the PD fine adjustment of the above-described method requires not only a high level of skill in the work, but also a continuous adjustment work because there is a disadvantage in that each time the other adjustment process such as asymmetry adjustment and sensor lens adjustment is completed.

Therefore, the problem that the adjustment tact time becomes long and the product productivity falls is produced.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a photodiode adjusting device for an optical pickup that can automatically determine an optimal position of the PD and shorten the adjustment time of the PD.

1 is a configuration example of a conventional system for PD position adjustment

2 is an exemplary view of a manual adjustment jig of the configuration shown in FIG.

3 is a diagram illustrating an external configuration of an optical pickup device among the components shown in FIG.

4 illustrates an example of focus appearing on an oscilloscope.

5 is an exemplary view of a conventional PD measurement interface

6 is a diagram illustrating an overall configuration of a PD adjusting apparatus for DVD optical pickup according to the present invention.

7 is a detailed configuration example of a PD adjustment apparatus for DVD optical pickup according to the present invention;

<Explanation of symbols for the main parts of the drawings>

100: preamplifier 200: servo

300: signal detection unit 400: DSP

500: CPU 600: host computer

701: sled motor 702: adjustment stage

703: adjustment jig 704: support

705: optical pickup 706: linear guide

707: disk 708: spindle motor

Features of the present invention for achieving the above object, the optical pickup transport means for adjusting the position of the PD of the device for accessing data on the disk by the control signal input and support the optical pickup, and the optical pickup A preamplifier for amplifying and outputting a signal detected by the preamplifier, and controlling the optical pickup transfer unit to receive the signal output from the preamplifier and to follow the optical pickup in the focus and track direction of the disk data surface. A servo unit, a signal detector for detecting a PD signal component among the signals output from the preamplifier, a DSP for averaging and outputting the signal output from the signal detector through a digital signal processing process, and data output from the DSP The optical pickup transfer means is controlled by determining an adjustment displacement for adjusting the position of the PD. To include a central processing unit.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 6 is an exemplary configuration diagram of an apparatus for adjusting a PD of a DVD optical pickup according to the present invention, wherein the support 704 supporting the optical pickup 705 and the PD of the optical pickup 705 are adjusted to a central axis. A biaxial (X, Y) adjustment stage 702 and adjustment jig 703, and a spindle motor 708 and a slide motor 701 for determining the rotation and position of the disk 707.

In this case, reference numeral 706 in FIG. 6 denotes a linear guide for guiding the movement path of the disk 707 by the power of the slide motor 701.

In addition, the signal A, B, C, D from the optical pickup 705 in Figure 6 is amplified by the preamplifier 100 is configured to be input to the servo unit 200, the servo unit 200 is The optical pickup 705 performs focusing and tracking so that it can accurately follow the disk data surface.

In addition, the PD signal component of the preamplifier 100 is analog-calculated by the signal detector 300, averaged by the DSP 400, and passed to the CPU 500. At this time, the data of the CPU 500 determines the adjustment displacement (X, Y) to give a pulse command to the motor driver of the two-axis adjustment stage.

The detailed configuration of the PD control apparatus for DVD optical pickup according to the present invention configured as described above will be described with reference to FIG. 7.

The servo unit 200 includes a focus error and track error generating circuit 210, a focus and track servo circuit 220, an RF generating circuit 230, an equalizer 240, a CLV and a sled servo circuit 250. It is done by

In addition, the signal detector 300 includes a low pass filter 310, a peak level detector 320, and an analog / digital converter 330.

Briefly looking at the operation of the present invention having the above configuration, the drive of the pickup is a data source of the PD as a basic source, first amplifying a predetermined amount of the source signal in the preamplifier, and then operating the focus and track servo circuit 220. Error signals are generated through the focus and track error signal generator 210, and these signals allow the pickup actuator to move the up, down, left, and right directions to follow the DVD disc data.

The equalizer 240 is used to enlarge the 3T signal source of the signal output from the RF signal generator 230 that recognizes the data accessed from the disk 707 and generates the RF signal. At this time, the signal output from the RF signal generator 230 is EFM modulated to become a signal source for operating the CLV servo 250 through the PLL, and becomes a signal that can know the good degree of the servo circuit and the pickup component. Basically, the signal to adjust the position of PD is used the signal of (A + B), (A + C), (B + C), (C + D) through the operation of the signal which passed the preamp stage. The signal is processed by the DSP 400 after the peak signal by the peak level detector 320 is digitized through the A / D converter 330 to give a final adjustment command from the CPU 500.

In addition, the host computer 600 is utilized as statistical processing for overall data management.

Providing the PD adjustment apparatus of the DVD optical pickup according to the present invention operating as described above, by automatically determining the optimum position of the PD, not only shortens the adjustment tact time according to the conventional manual PD adjustment operation, but also defective parts Can be greatly reduced.

Claims (2)

Optical pickup transfer means for adjusting the position of the PD among the elements for accessing data on the disc by an input control signal for supporting the optical pickup; A preamplifier for amplifying and outputting a signal detected by the optical pickup; A servo unit which receives the signal output from the preamplifier and controls the optical pickup transfer means so that the optical pickup can follow the focus and track direction of the disk data surface; A signal detector for detecting a PD signal component among the signals output from the preamplifier; A DSP for averaging the signal output from the signal detection unit through a digital signal processing process and outputting the averaged signal; And a central processing unit which receives the data output from the DSP and determines an adjustment displacement for adjusting the position of the PD to control the optical pickup transfer unit. The method of claim 1, The optical pickup transport means includes a support for supporting the optical pickup; A displacement axis automatic stage and an adjustment jig for adjusting the PD of the optical pickup to a central axis according to the control of the central processing unit; And a spindle motor and a sled motor for determining the rotation and position of the disk according to the control of the servo unit.

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