KR100228800B1 - Device and method for controlling sled gain automatically in a digital video disc player - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs:

The present invention relates to a digital video disc player.

I. The technical problem the invention is trying to solve:

The present invention is to automatically adjust the sled gain so that the gain-adjusted driving voltage detected at the threshold of the reflected light amount envelope becomes the minimum voltage for moving the pickup main body.

All. The gist of the solution of the invention:

The present invention detects a change in the amount of reflected light reflected from a digital video disk by vibrating the lens from side to side using an envelope of the amount of reflected light, and then the first adjusted signal value at the instant when the degree of the change coincides with the set threshold is sled. An apparatus and method for adjusting the sled gain to be a moving voltage of a motor are implemented.

la. Important uses of the invention:

Sled gain automatic adjustment method and method in digital video disc player.

Description

Sled Gain Automatic Adjustment and Method in Digital Video Disc Player

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital video disc player (DVDP), and more particularly, to an apparatus and method for automatically adjusting a sled gain for determining a driving voltage level of a sled motor according to an envelope of reflected light quantity.

In general, DVDP performs a focusing operation of moving the lens up and down and a tracking operation of moving the lens left and right so that the laser beam spot released through the lens is on-track. Let's do it.

The tracking method for on-tracking the laser beam spot released through the lens includes a method of moving a pick-up main body by driving a sled motor and adjusting a voltage supplied to a tracking actuator. There is a way to move the position of laterally. At this time, the former is not possible to move quickly because of the large inertial mass, but it is possible to move largely. The latter is capable of high-speed response, but there is a limit to the distance that can be moved because of a narrow moving range.

Therefore, in the case of moving a large number of tracks, the fine tracking is performed using the latter method after moving using the former method. In addition, when the DVDP is played while the laser beam is on-track, the laser beam is finely tracked through the latter method through the lens to move to the outer circumference along the track of the DVD surface. The pickup body is moved using an electronic method to compensate for the bias toward the outer circumferential side of the lens generated by the fine tracking.

In other words, at the time of compensating for bias toward the outer circumferential side of the lens by fine trekking, the gain in which the voltage supplied is adjusted to the minimum voltage V _smv0 for moving the pickup main body was fixed.

However, when the pickup main body is moved, the pickup main body moves a predetermined track by a set driving voltage of a predetermined level. At this time, the minimum level of the driving voltage required to move the predetermined track is slightly different for each product.

As described above, there is a problem in that the signal quality and reliability of the product are deteriorated since the gain of adjusting the voltage is fixed but has a different minimum driving voltage for each product.

It is therefore an object of the present invention to provide an apparatus for automatically adjusting the sled gain such that the gain-adjusted drive voltage detected at the threshold of the reflected light quantity envelope becomes the minimum voltage V _smv0 for moving the pickup body.

Another object of the present invention is to provide a method for automatically adjusting the sled gain such that the gain-adjusted driving voltage detected at the threshold of the reflected light amount envelope becomes a minimum voltage V _smv0 for moving the pickup body.

The present invention detects a change in the amount of reflected light reflected from a digital video disk by vibrating the lens from side to side using an envelope of the amount of reflected light, and then the first adjusted signal value at the instant when the degree of the change coincides with the set threshold is sled. An apparatus and method for adjusting the sled gain to be a moving voltage of a motor are implemented.

1 is a block diagram of a sled gain automatic adjustment device according to an embodiment of the present invention.

2 is an operation timing diagram of each unit according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used for the same components, even if displayed on different drawings.

1 is a view showing the configuration of a tracking servo having a sled gain automatic adjustment device according to an embodiment of the present invention.

The tracking servo performs the function of horizontally adjusting the lens to inject the laser onto the correct track of the DVD reflecting surface.

Referring to the configuration of FIG. 1, the pickup unit 10 includes a lens, a laser diode, and the like as a pickup main body, and enters a laser beam spot onto a DVD reflecting surface to read an information signal from the reflected light amount. . The reflected light amount refers to the amount of light reflected from the reflective surface by the position of the laser beam spot incident on the DVD reflective surface. The tracking error detection unit 12 generates a tracking error (TE) signal from the amount of reflected light provided from the pickup unit 10. The TE signal is used as a driving voltage for tracking the entire pick-up unit 10 or moving the lens. The phase compensator 14 compensates the phase of the TE signal and outputs a driving voltage V _t-1 and a sled motor 26 driving voltage V _t-0 for tracking. The tracking coil driver 16 receives the V _t-1 and outputs a voltage V _ta to the tracking actuator 18 to perform fine tracking for horizontally moving the end of the lens. When V _ta is supplied to the tracking actuator 18, the lens provided in the pickup unit 10 moves in a direction and distance determined by the polarity and voltage level of the V _ta . The first low pass filter (LPF1) 20 has a fixed gain, and adjusts V _t-0 applied from the phase compensator 14 according to the fixed gain to output the adjusted voltage V _s1 . RF envelope detection section 28 outputs the envelope signal (RF_ _env) by detecting the envelope of the reflection light amount supplied from the pickup 10. The detected envelope means an envelope below the reflected light amount. The control unit 30 reads the point of the V _s1 establish the limit value of the RF_ _env that RF_ _env of the detection limit. And outputs to determine a sled gain K _e to adjust so that the minimum voltage V read _smv0 V _s1 is set when the RF_ _env of the detection limit. The second low pass filter (LPF2) 22 outputs a driving voltage V _s2 for tracking the entire pickup section 10 by compensating the applied V _s1 with a sled gain K _e . The sled motor driver 24 outputs a voltage V _s to drive a sled motor 26 by the V _s2 is applied. When V _s2 is supplied to the sled motor 26, the entire pickup unit 10 moves in the direction and distance determined by the polarity and voltage level of the V _s2 . In the case of normal playback in which the automatic gain adjustment according to the present invention is not set, V _t is equal to V _t-0, and when the automatic gain adjustment according to the present invention is set, the LPF2 22 gain is to be adjusted. Match V _t to V _t-1 . When the gain adjustment is completed, V _t is matched to V _t-0 .

2 is a diagram illustrating an operation timing pulse of each unit according to an exemplary embodiment.

2A is a waveform diagram showing a signal V _t-0 or V _t-1 in which phase correction of the TE signal detected by the amount of reflected light provided from the pickup section 22 by vibrating the lens from side to side. The position t shown in FIG. 2A is a point in time when the laser beam outputted from the lens is precisely on-tracked, and the laser beam outputted from the lens falls to the right side as it moves to the right in the R direction from the t position. In addition, the laser beam output from the lens falls to the left as it moves to the left in the L direction from the t position.

2B is a waveform diagram showing an envelope detected by the amount of reflected light provided from the pickup section 22 by vibrating the lens from side to side. The limit value shown in b of FIG. 2 refers to a limit value set in the DSP 30 that determines a time point for tracking the entire pickup unit 10.

2C is a waveform diagram of a signal in which V _t-0 shown in a is adjusted by a fixed gain in LPF1 (20).

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

When the DVD to be inserted is inserted, a signal corresponding to the reflected light amount is output through the pickup unit 10, and the signal according to the reflected reflected light amount is applied to the tracking error detector 12 and the RF envelope detector 28.

The signal according to the reflected light amount is applied to the tracking error detector 12 to output a TE signal, which is a tracking error signal. The TE signal is applied to the phase compensator 14 to compensate for phase to output V _t-0 and V _t-1 . The output V _t-0 and V _t-1 signals are signals having a waveform shown in FIG. Referring to the waveform shown in FIG. 2A, the waveforms of the signals V _t-0 and V _t-1 in which the TE signals are phase-corrected according to the amount of reflected light generated by the lens moving one track from the left to the right. If the lens moves a plurality of tracks, the waveform as shown in FIG.

The V _t-1 signal is applied to the tracking coil driver 16 to apply the driving voltage V _ta for tracking to finely adjust the lens to the tracking actuator 18. When the V _ta is applied, the lens inside the pickup unit 10 _tracks the lens according to the polarity and level (voltage magnitude) of the V _ta . By tracking the lens, the pick-up unit 10 outputs the adjusted reflected light amount, and performs the above-described operation again by the output reflected light amount to track the lens in a specific direction.

In addition, the V _t-0 signal is applied to the LPF1 20 and adjusted by a fixed gain to output a signal V _s1 . The output V _s1 signal is a signal having a waveform shown in c of FIG. 2. The output V _s1 is applied to the LPF2 22 to output a signal V _s2 adjusted by the sled gain K _e provided from the controller 30. The sled motor driver 24 outputs V _s for driving the sled motor 26 by the output V _S2 , and the motor 26 is driven by the V _{s so} that the entire pickup part 10 is driven. Tracked. The sled motor driver 24 performs a control to drive the sled motor 26 when the applied voltage V _s2 is _{equal to} or _greater than the minimum voltage V _smv0 .

When explaining the operation for outputting a sled gain K _e of the LPF2 (22) shown below.

The signal corresponding to the reflection light amount supplied from the pickup 10 is the RF envelope detector 28 is an envelope detector the envelope signal is detected through RF_ _env is output. The output RF_ _env signal is also a signal having a waveform shown in b 2. In the waveform shown in FIG. 2 b is the waveform of the envelope detection signal RF_ _env according to the amount of reflected light produced by the lens as a move a track from the left to the right. If the lens moves a plurality of tracks, a waveform such as b of FIG. 2 appears continuously.

The control section 30 determines whether the value of said threshold value corresponding to the _env RF_ set. If it is determined that the applied RF_ _env is the threshold, the value of V _s1 (value corresponding to DP) applied from the LPF1 20 is detected at the time when the RF_ _env of the threshold is applied. The sled gain K _e for adjusting the detected value of V _s1 to the minimum voltage (which is a set value) V _smv0 required to drive the sled motor 26 is determined. That is, the determination of K _e is given by the following equation.

K _e determined as described above is applied to LPF2 (22), the LPF2 (22) may output a minimum voltage V _smv0 required for driving the sled motor 26 at the set limit value.

That is, the V _s1 outputted from the LPF1 (20) at the moment in which the _env RF_ match the limit value set in the control section 30 causes the movement voltage setting the sled gain.

The present invention has the effect of improving the reliability of the product because the sled gain is set according to the minimum driving voltage set in the product.

Claims (2)

An apparatus for automatically adjusting a sled gain in a digital video disc player, comprising: a pickup for outputting a signal corresponding to the amount of reflected light reflected by firing a laser beam onto a digital video disc; and tracking from a signal corresponding to the amount of reflected light A tracking error detector for detecting an error signal, a phase compensator for compensating the phase of the tracking error signal, a first low pass filter for adjusting the phase compensated tracking error signal with a fixed gain, and the reflected light amount An envelope detector for detecting an envelope signal of a signal; a controller configured to determine a sled gain required to adjust a signal value output from the first low pass filter to a minimum voltage when the detected envelope signal value reaches a set threshold; And adjust the signal output from the first low pass filter to the sled gain. A sled gain automatic adjustment device in a digital video disc player, comprising: a second low pass filter for outputting; and a sled motor driver for controlling driving of the sled motor by receiving a signal output from the second low pass filter. . A method of automatically adjusting a sled gain in a digital video disc player, comprising: a first process of correcting a tracking error signal detected through the amount of reflected light and then adjusting and outputting a fixed gain; A second process of detecting a signal value output in the first process at the time when the detected envelope signal value is determined to be a threshold value, and a minimum value for driving the sled motor for the signal value detected in the second process; And a fourth step of determining a sled gain required when adjusting the voltage, and a fourth step of adjusting and outputting the signal adjusted in the first step with the determined sled gain. How to adjust the sled gain automatically.

Images