KR20050033243A - Method for controlling tracking error balance in optical device - Google Patents

Abstract

A method for controlling a TE(Tracking Error) balance in an optical disk device is provided to variably control a set TE balance based on an average value change of an FDO(Focus Driver Out) voltage, thereby variably controlling the initially set TE balance to an optimal TE balance for a current reproduction position even though a skew exists on an outer circumference of an optical disk. When an optical disk is inserted(S10), a servo controller performs a series of focus servo operations(S11). The controller detects a peak value and a bottom value of a TE signal, sets an intermediate value of the detected values to a TE balance, and turns on a tracking servo(S12). If a user requests a data reproduction operation(S13), the controller performs the data reproduction operation while both focus servo and tracking servo are turned on(S14). The controller calculates an average value of an FDO voltage(S15), and calculates a difference by subtracting the calculated average value and a previously calculated average value of the FDO voltage(S16). The controller variably controls a TE balance corresponding to a current reproduction position(S17). The data reproduction operation is terminated(S18).

Description

{Method for controlling tracking error balance in optical device}

The present invention is based on a tracking error signal (TE) detected at the inner circumferential side of an optical disc when performing initial servo operation in various optical disc devices such as a CD-Player or a DVD-Player. The present invention relates to a tracking error balance adjusting method in an optical disc device for variably adjusting a tracking error balance TE_Balance set in real time during a data reproducing operation.

Recently, optical disc devices capable of recording and reproducing digital audio and video data have been developed and commercialized. For example, various optical disc devices such as a CD player or a DVD player or the like have been shown in FIG. The pickup 10, the focus error signal detector 11, the tracking error signal detector 12, the servo controller 13, and the actuator driver 14 may be included.

On the other hand, when the optical disc 100, such as a CD or DVD, is inserted and seated in the optical disc apparatus, the optical pickup 10 is moved to a previously set initial focus position, so that a series of focus servos are provided on the recording surface of the optical disc. (Focus Servo) operation, the servo controller 13, as shown in Figure 2, the focus error signal (FE = (A + D)-output from the focus error signal detection unit 11 (B + C)), the focus driver voltage (FDO: Focus Driver Out) is applied to the actuator driver 14 so that the focus error signal is minimum (e.g., Zero).

In addition, after the above-described series of focus servo operations are completed, a tracking error signal TE detected by the tracking error signal detection unit 12, for example, in a state where the tracking servo is off, for example, As shown in FIG. 2, the maximum (TE_Peak) and minimum (TE_Bottom) values of the tracking error signal TE = EF detected when the tracking servo is turned off on the inner circumferential side of the optical disc are detected. After setting the intermediate value for the tracking error balance (TE_Balance = (TE_Peak + TE_Bottom) / 2), the tracking servo is turned on.

As described above, by using the tracking error balance initially set on the inner circumferential side of the optical disc as the tracking offset value when performing the tracking servo operation, an error according to the characteristics of the optical disc or the optical pickup itself is corrected, and the normal tracking servo control is performed. Make it happen.

However, in the general optical disc apparatus, since the tracking error balance initially set on the inner circumferential side of the optical disc as described above is continuously used as the tracking offset value during the reproduction of the optical disc, as shown in FIG. If skew exists, a result of using an unsuitable tracking error balance on the outer circumferential side results in an error in the tracking servo operation.

Accordingly, the present invention was devised to solve the above problems, and when performing an initial servo operation, focus driving is performed on a tracking error balance set based on a tracking error signal detected on the inner circumferential side of the optical disc during data reproduction. Tracking error balance in the optical disk device for performing normal tracking servo operation even when skew is present on the outer circumferential side of the optical disk by variably adjusting in real time based on the change in the average value of the voltage FDO_Average. To provide a control method, the purpose is to.

The tracking error balance adjusting method in the optical disk apparatus according to the present invention for achieving the above object, based on the maximum and minimum values of the tracking error signal detected in the state that the tracking servo is off, setting the initial tracking error balance Step 1 to do; And calculating the average value of the focus drive voltage during the data reproducing operation, and then variably adjusting the set tracking error balance based on the change in the average value of the focus drive voltage.

Hereinafter, a preferred embodiment of a tracking error balance adjusting method in an optical disk apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

First, the tracking error balance adjusting method according to the present invention can be applied to various optical disc devices such as a CD player or a DVD player, which are configured as described above with reference to FIG. 1, and also the servo control system of the optical disc device to which the present invention is applied. 3, the filter 30 for filtering the sum output of the focus error signal FE) and the focus error offset FE_Offset value to output a focus driving voltage FDO, and the focus. A low pass filter 31 is included to filter only the low pass component of the drive voltage FDO value.

In addition, the low frequency component of the focus driving voltage value output through the low pass filter is sampled at a predetermined period, for example, at intervals of 1 msec, and then the average value is calculated at a 12 msec period, and the difference value with the previously calculated average value. The tracking error balance correction unit 32 calculates a tracking error balance correction value, and filters the sum output of the tracking error balance and the tracking error signal corrected through the above process, and calculates a tracking driving voltage (TDO) value. The output filter 33 may be configured to include.

4 is a flowchart illustrating a method for adjusting a tracking error balance in an optical disk apparatus according to the present invention. In the optical disk apparatus, as described above, an optical disk 100 such as a CD or a DVD is inserted into the apparatus. When it is seated, the optical pickup 10 is moved to a previously set initial focus position, and then a series of focus servo operations are performed on the recording surface of the optical disc 100 (S10).

When the focus servo operation as described above is completed, the servo controller 13 receives the tracking error signal TE output from the tracking error signal detection unit 12 while the tracking servo is turned off. In this case, after detecting the maximum (TE_Peak) and minimum (TE_Bottom) values of the tracking error signal (TE = EF), the intermediate values of the tracking error signals (TE_Balance = (TE_Peak + TE_Bottom) / 2) are detected. In addition to the setting, the tracking servo is turned on (S12).

When the user requests a data reproducing operation (S13), the servo controller 13 uses the tracking error balance initially set on the inner circumferential side of the optical disc as the tracking offset value when performing the tracking servo operation. In this case, since the tracking servo operation is turned on, the data reproduction operation is performed while both the focus servo and the tracking servo are turned on (S14).

On the other hand, in the servo controller 13, for example, the focus drive voltage FDO is sampled at 1 msc intervals, and then the average value FDO_Average of the focus drive voltage is calculated at a cycle of 12 msec (S15). The difference value is calculated by subtracting the average value of the focus drive voltage and the average value of the focus drive voltage previously calculated in a 12 msec period (S16).

In addition, the difference value of the average value of the focus drive voltage calculated as described above is added to a correction value for a preset tracking error balance, wherein a predetermined weight k is set in advance and the difference of the average value of the focus drive voltage is calculated. After multiplying the value, the resultant value is added to the preset tracking error balance, and the resultant variable is variably adjusted to the tracking error balance (TE_Balance # = TE_Balance + k X (FDO_Average-FDO_Average #)) corresponding to the current playback position (S17). ).

Then, in the servo controller 13, the tracking error balance adjustment operation corresponding to the current reproduction position is repeatedly performed in real time until the data reproduction operation is completed (S18), and skew is performed on the outer peripheral side of the optical disc. Even if there is, the tracking error balance adjustment is made in accordance with the change in the average value of the focus driving voltage, it is possible to perform the normal tracking servo operation.

Or more, preferred embodiments of the present invention described above, for the purpose of illustration, those skilled in the art, within the technical spirit and the technical scope of the present invention disclosed in the appended claims below, to further improve various other embodiments Changes, substitutions or additions will be possible.

The tracking error balance adjusting method in the optical disk device according to the present invention constructed and configured as described above is configured to adjust the initial tracking error balance (TE_Balance) based on the maximum and minimum values of the tracking error signals detected when the tracking servo is turned off. When the data reproducing operation is performed, the average value of the focus driving voltage FDO is calculated, and then the set tracking error balance is variably adjusted based on the change of the average value of the focus driving voltage, thereby skewing to the outer peripheral side of the optical disc. Even if (Skew) exists, the tracking error balance (TE_Balance) initially set on the inner circumferential side of the optical disc can be variably adjusted to the tracking error balance that is optimal for the current playback position, thereby effectively preventing errors in the tracking servo operation. It is a very useful invention that can be prevented.

1 shows a configuration of a general optical disk device,

2 illustrates a tracking error balance setting process in a general optical disk device.

3 conceptually illustrates some components of an optical disk device to which the tracking error balance adjusting method according to the present invention is applied;

4 is a flowchart illustrating an operation of adjusting a tracking error balance in the optical disk device according to the present invention.

※ Explanation of code for main part of drawing

10: optical pickup 11: focus error signal detection unit

12: tracking error signal detection unit 13: servo controller

14: actuator driver 100: optical disc

Claims (5)

Setting an initial tracking error balance based on the maximum and minimum values of the tracking error signal detected when the tracking servo is turned off; And Calculating an average value of the focus driving voltage and performing a variable adjustment of the set tracking error balance based on a change in the average value of the focus driving voltage during the data reproducing operation. How to adjust tracking error balance. The method of claim 1, In the first step, when the optical disc is inserted and settled, the optical disc is set to an initial tracking error balance, the intermediate value of the maximum and minimum values of the tracking error signal detected when the tracking servo is turned off after the focus servo is completed. How to adjust the tracking error balance on your device. The method of claim 1, The second step, A lower step of detecting a focus driving voltage during a predetermined period during the data reproducing operation and calculating an average thereof; And A lower level 2 variable for calculating a difference value between the calculated average value of the focus driving voltage and the average value of the previously calculated focus driving voltage before the predetermined period, and then variably adjusting the set tracking error balance based on the difference value. A tracking error balance adjusting method in an optical disc device, comprising the steps of: The method of claim 3, wherein In the second sub-step, multiplying the difference value of the average value of the focus driving voltage by a predetermined weight, and then adding the value to a preset tracking error balance to variably adjust the tracking error balance corresponding to the current playback position. A tracking error balance adjusting method for an optical disk device. The method of claim 1, The second step is a method for adjusting the tracking error balance in the optical disc device, characterized in that it repeatedly performs in real time the variable adjusting the tracking error balance corresponding to the current playback position until the data reproduction operation is finished.