KR100718433B1 - Apparatus for detecting turntable wobble element in optical system - Google Patents

Abstract

The present invention relates to a turntable wobble component detection technique of an optical system, which detects a focus output of an optical system, enlarges a focus output through a DC gain region, and compares the enlarged output value with an offset value. After the effective value operation is performed, it is determined that the wobble does not exist when the effective value operation result is "0", and it is determined that the wobble exists when the effective value operation result is not "0". According to the present invention, by comparing the enlarged focus output value and the offset value and detecting the wobble component, there is an effect that the deck in which the wobble component is mixed can be more reliably selected and separated.

Wobble, focus error

Description

Apparatus and method for detecting turntable wobble component of optical system {APPARATUS FOR DETECTING TURNTABLE WOBBLE ELEMENT IN OPTICAL SYSTEM}

1 illustrates an example of a change in a deck turntable when wobble occurs in a typical optical system.

2 is a graph of the relationship between the angle and the numerical aperture between the disk and the pickup light in a typical optical system,

3 is a block diagram of a focus error detection block for detecting wobble components according to a preferred embodiment of the present invention;

FIG. 4 is a graph for explaining a steady state error Ess of the focus error detection block of FIG. 3;

5 is a graph illustrating a case in which the focus output is enlarged according to the present embodiment;

6 is a block diagram illustrating an apparatus for detecting turntable wobble components in an optical system according to an exemplary embodiment of the present invention;

7 is a graph comparing the focus output when there is a wobble and when it is not.

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

600: low pass filter 602: comparison operation unit

604: effective value calculation unit 606: wobble component detection unit

TECHNICAL FIELD The present invention relates to a turntable manufacturing process technology of an optical system, and more particularly, to an apparatus and method for detecting a turntable wobble component of an optical system suitable for more reliably sorting out a deck containing a wobble component.

In general, an optical disc player such as a laser disc player (LDP) or a compact disc player (CDP) or the like loads a disc on a turntable by a loading mechanism, clamps the clamping unit, and then rotates the disc. And an optical pick-up unit moving in the radial direction while reproducing the information recorded on the disc. Turntables, commonly referred to as turntables, are widely used in various industrial machines for rotating and processing workpieces, and in optical disk players such as LDP and CDP as described above, they are used to rotate disks.

Accordingly, in order for the optical disc player to properly reproduce the information recorded on the disc, precise rotation of the disc is required. Therefore, accurate rotation of the turntable is important.

The turntable connects the rotational concentric to the shaft of the drive actuator to receive the rotational force. When assembling the turntable and the driving actuator, wobble of the turntable is generated due to machining error of each component and the core of the shaft.

1 is a diagram illustrating a change in deck turntable during wobble generation in a typical optical system, such as an optical disc player.

As shown in FIG. 1, the turntable 102 is electrically assembled to the spindle motor by inserting the shaft of the spindle motor, not shown, and is inserted into the center hole of the disk 100 in the center of the turntable 102 and then clamped to the clamp. As a result, the disk 100 is pressed to rotatably support the disk 100.

Accordingly, as shown in FIG. 1, the turntable 102 has a wobble in which the R-tilt is changed by one rotation period based on the pickup 104 due to machining error after assembly with the spindle motor.

Such wobble serves as a main cause of jitter oscillating up and down in the field where the turntable needs to be precisely rotated horizontally, for example, in the turntable of an optical disc player, thereby degrading the playability of the disc 100.

Therefore, for the performance of the optical system, after assembling with the spindle motor, the wobble of the turntable must be measured to check whether the measured value is within the allowable range.

The best performance of the optical system is when the light of the disc and the pickup are kept vertical. If the light of the disc and the pickup is not perpendicular, a difference in the optical path occurs when the incident light passes through the disc medium, whereby the spot size at focus becomes larger than the spot size at the focal point.

This phenomenon is called aberration generation and can be simply expressed as Equation 1 below.

Aberration ≒ disk thickness * NA ² / laser wavelength (where NA is numerical aperture)

FIG. 2 illustrates the relationship between the aberration and the tilt margin of Equation 1 above.

As shown in FIG. 2, the tilt margin has an inverse relationship with the aberration (tilt margin ≒ 1 / aberration), and when the aberration occurs, the RF signal reflected from the disc causes interference between the tilt margins, thereby causing an eye pattern. ) Will cause jitter, which will greatly impair playback performance. That is, the eye pattern in the case of the presence of a wobble is severely distorted, which greatly reduces the reproduction performance.

Similarly, in the case of recording, the recording in such a state results in a higher relative speed between the disc and the laser beam, so that optimal recording cannot be achieved.

In order to reduce the influence of the aberration caused by the wobble, the R-tilt must be compensated in real time, but it is practically impossible in terms of cost. However, the current technology supports R-tilts that do not change with time. However, since the wobble-type R-tilts generated by combination with turntables change at regular intervals over time, the response is not adaptive. to be.

In conclusion, the wobble component of the deck turntable has a fatal effect on the reproducing and recording performance of the optical system, and the current production process cannot reliably select the loader in which the wobble component is incorporated.

This is the biggest factor in increasing the defect rate in the process line, and ultimately the reason for increasing the production cost.

The present invention is to overcome the above-mentioned limitations of the prior art and to solve all the problems, and by detecting the wobble component by comparing and calculating the expanded focus output (FOOO) and the offset value, It is an object of the present invention to provide an apparatus and method for detecting a deck turntable wobble component of an optical system that can reliably sort and separate a deck containing wobble components.

According to an embodiment of the present invention for achieving this object, a method for detecting a turntable wobble component of an optical system, the method comprising: detecting a focus output of the optical system, enlarging the focus output through a DC gain region; And comparing and comparing the enlarged output value and the offset value, and determining a wobble level according to the comparison operation result.

According to another embodiment for achieving the object of the present invention, a turntable wobble component detection apparatus of an optical system, comprising: means for detecting a focus output of the optical system and enlarging the focus output through a DC gain region; A low pass filter for passing only the low pass component of the focused focus output value and blocking the high pass component, a comparison operation means for comparing and calculating an enlarged focus output value and an offset value outputted through the low pass filter, and An apparatus for detecting turntable wobble components in an optical system, comprising: an effective value calculating means for performing an effective value operation on an operation result; and a wobble component detecting means for determining whether a wobble is present according to an effective value calculation result provided from the effective value calculating means. do.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

Prior to the description, the turntable wobble component detection technique of the optical system according to the present invention is characterized by largely four stages, the first stage of detecting a focus output and the second stage of focusing through a DC gain region. The third step is to enlarge the output, and the third step is to compare the enlarged output value with the offset value, and the fourth step is to determine the degree of wobble according to the result of the calculation. In the following description, preferred embodiments of the present invention will be described based on such features of the present invention.

3 is a block diagram of a focus error detection block for detecting wobble components according to a preferred embodiment of the present invention.

As shown in FIG. 3, the focus error detection block according to the present embodiment is a standard unit feedback system for detecting the focus output FOO by applying a steady state error Ess to the focus error FE. Here, the steady state error Ess is a measure for determining how close the response is to the set value after the transient response is resolved, and is usually generated because the faster the change in the input signal, the harder the output signal is to follow.

In FIG. 3, the steady state error in the time domain of the output and the reference input is expressed by Equation 2 below.

If this is expressed in the frequency domain (Frequency Domain) it is expressed as [Equation 3], the final steady state error (Ess) can be represented by [Equation 4].

4 is a graph for explaining the steady state error Ess of the focus error detection block. That is, the steady state error Ess depends on the value of the DC gain region having a frequency ≒ 0 in the focus digital equalizer (DEQ).

At this time, in this embodiment, the focus output FOO through the DC gain area in FIG. 3 is enlarged, as shown in FIG. 5.

The steady state error Ess of the focus error FE is in the form of a sine wave, and the frequency is the same as the double speed. Therefore, when the focus equalizer DC gain area is lowered, the steady state error Ess of the low frequency becomes dominant, and the amplitude of the sine wave error increases from A ₁ to A ₂ as shown in FIG. 5. That is, the present invention is characterized in that the focus output is enlarged so that a fine wobble component can be extracted after detecting the focus output.

FIG. 6 is a block diagram illustrating an apparatus for detecting turntable wobble components in an optical system according to an exemplary embodiment of the present invention, and includes a low pass filter 600, a comparison operator 602, and a root mean square (RMS) calculator 604. ), And a wobble component detection unit 606.

The low pass filter 600 passes only the low frequency component (low frequency component) and blocks the high frequency component (high frequency component). At this time, the cut-off frequency of the low pass filter 600 is set to 1/10 of the optical system double speed.

The comparison operation unit 602 compares and calculates an offset value (FEZC: Focus Error Zero Closing) output through the low pass filter 600 and the focus output value enlarged in FIG. 604).

The effective value operation unit 604 performs an effective value operation on the operation result of the comparison operation unit 602 and provides the result to the wobble component detection unit 606.

The wobble component detection unit 606 determines whether a wobble is present according to the effective value calculation result provided from the effective value calculator 604. For example, if the effective value calculation result is "0", it is determined that the wobble does not exist. If the effective value calculation result is not "0", it is determined that the wobble exists.

The determination result may be output in the form of a result message or a graph as shown in FIG. 7 through an operator monitor (not shown).

The left figure of FIG. 7 is a graph waveform when a wobble exists, and the right figure is a graph waveform when a wobble does not exist.

That is, the present invention is characterized in that the resolution of the focus error is increased to reliably determine the degree of wobble by its effective value RMS.

According to the present invention, by comparing the enlarged focus output value and the offset value and detecting the wobble component, there is an effect that the deck in which the wobble component is mixed can be more reliably sorted.

As mentioned above, although this invention was demonstrated concretely based on the Example, this invention is not limited to such an Example, Of course, various deformation | transformation are possible for it within the technical idea and the scope of a claim mentioned later.

Claims (8)

A turntable wobble component detection method of an optical system, Detecting a focus output of the optical system; Lowering a focus equalizer DC gain area to enlarge the focus output; Comparing the enlarged output value with a focus error zero closing value through which a focus error is output through a low pass filter; Determining a degree of wobble according to the comparison operation result Turntable wobble component detection method of the optical system comprising a. The method of claim 1, And said focus output detection detects a steady state error of a focus error. The method of claim 1, The step of enlarging the focus output may include lowering a focus equalizer DC gain region to increase an amplitude of a sine wave error. The method of claim 1, Determining the degree of wobble, Performing an effective value operation on the comparison operation result; Determining that no wobble is present when the effective value calculation result is “0”; Determining that a wobble exists when the effective value calculation result is not "0"; Turntable wobble component detection method of the optical system comprising a. delete An apparatus for detecting turntable wobble components of an optical system, Means for detecting a focus output of the optical system and lowering a focus equalizer DC gain region to enlarge the focus output; A low pass filter for passing only a low pass component of the enlarged focus output value and blocking a high pass component; Comparison calculation means for comparing and calculating an enlarged focus output value and an offset value outputted through the low pass filter; An effective value calculation means for performing an effective value operation on the operation result of the comparison operation means; Wobble component detecting means for determining the presence or absence of a wobble according to an effective value calculation result provided from said effective value calculating means. Turntable wobble component detection apparatus of the optical system comprising a. The method of claim 6, The wobble component detecting means determines that wobble does not exist when the effective value calculation result is "0", and determines that wobble exists when the effective value calculation result is not "0". Turntable wobble component detection device. The method of claim 6, And a cut-off frequency of the low pass filter is set to 1/10 of a double speed of the optical system.

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