KR100714296B1 - Method for auto adjusting of optical apparatus - Google Patents

Abstract

The present invention relates to an automatic adjustment method for optical equipment, and more particularly, to find an optimal combination that shows the best value while reducing the time required for automatic adjustment in the automatic adjustment using a plurality of items in the optical equipment. The present invention relates to a method for automatically adjusting optical devices. In order to find an optimal combination of automatic adjustments within a minimum time, the automatic adjustment method of the optical device of the present invention is a method of performing automatic adjustment using a plurality of items in the optical device, wherein the plurality of items used for the automatic adjustment. Selecting an appropriate matrix consisting of portions of the possible combinations of test values for each; Testing each combination of the automatic adjustments included in the selected matrix; Selecting an optimal combination in the automatic adjustment based on the result of the test.

Description

Method for auto adjusting of Optical Apparatus

1 is a schematic control block diagram of a general optical device;

Fig. 2 (a) is a table showing the total combination of testable values in automatic adjustment using a plurality of items.

2 (b) is a table showing a matrix of one selected embodiment in accordance with the present invention.

3 is a flowchart of an automatic adjustment method of an embodiment according to the present invention;

* Description of symbols on the main parts of the drawings *

12: optical pickup unit 18: RF signal processing unit

20: control unit 26: servo unit

27: jitter calculation unit 28: DSP (Digital Signal Processor)

The present invention relates to an automatic adjustment method for optical equipment, and more particularly, to find an optimal combination that shows the best value while reducing the time required for automatic adjustment in the automatic adjustment using a plurality of items in the optical equipment. The present invention relates to a method for automatically adjusting optical devices.

In general, an optical device is a device for reproducing and recording an optical disc, which records various information on an optical disc using a laser or reads recorded information. An optical disc such as a CD, DVD, BD, etc. capable of economically storing a large amount of information can be used. The optical disk device used is widely used.

In order to read the information stored in the optical disk in the optical disk device, the laser beam is irradiated onto the surface of the optical disk through the optical pickup, and the information stored in the optical disk is read through the change in the amount of reflected laser light. In order to accurately read the information, the amount of laser light reflected from the optical disc must be constant. However, since the types of optical discs are very diverse and the performance of the optical disc apparatus is not the same, an optimal setting is required for each device.

When an optical disc is inserted into each device, various automatic adjustments are performed for accurate reproduction / recording on the optical disc for a predetermined time. That is, various automatic adjustments are performed, such as adjustment of tracking balance to accurately follow the center of the track, focusing adjustment to accurately focus, and optimization of jitter values indicating the degree of deterioration of the read information.

Automatic adjustment is not usually performed by adjusting one item but by adjusting various items in combination. Therefore, when the number of items included in the automatic adjustment or the number of possible test values for each item is large, there is a problem that the automatic adjustment takes a lot of time.

In addition, conventionally, in performing an automatic adjustment consisting of a plurality of items, a test is performed by applying a possible value of one item, fixing an optimum value, and then testing the next item. This conventional automatic adjustment method has a problem in that the time for performing the automatic adjustment becomes long when the number of items or the test value of each item is large.

In addition, as each item is tested sequentially without testing all items simultaneously, there is a problem that the optimum combination found in each item cannot be said to be the best combination in the automatic adjustment.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide an optical device capable of finding an optimum auto-tuning combination for a minimum time without testing all possible combinations in performing an auto-adjustment consisting of a plurality of items. It provides an automatic adjustment method of.

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A method for performing automatic adjustment using a plurality of items in an optical apparatus according to the present invention for this purpose comprises the steps of selecting a matrix consisting of a portion of possible combinations of test values for each of the plurality of items used for the automatic adjustment; Testing each combination of automatic adjustments included in the selected matrix; Selecting, from each combination of automatic adjustments, based on the result of the test, a combination which is determined to be the most suitable for operating the optical device normally and accurately.
Further, the matrix used for the automatic adjustment described above is an orthogonal matrix determined according to the number of items used for the automatic adjustment and the number of values testable in each item.
In the selecting of the combination, the method may further include predicting a result value of an untested item among possible combinations in the automatic adjustment using the result of the test, and based on the test result value and the predicted result value. Select a combination.
In addition, the above-described combination arranges the test result value and the predicted result value in order of better values for operating the optical device normally and accurately, and then selects it within a predetermined schedule.
The method further includes the step of retesting each combination of the automatic adjustments within the above-described predetermined schedule, and selecting a combination whose result value is determined to be most suitable for normal and accurate operation of the optical device in the test.
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 is a schematic control block diagram of a general optical device. In general, optical devices include an optical pickup unit 12, a servo unit 26, an RF signal processor 18, a jitter calculator 27, a DSP (digital signal processor) 28, a controller 20, It comprises a storage unit 22. In addition, a spindle motor 14 for rotating the optical disk, a sled motor 16 for moving the optical pickup 12, and a driver 24 for driving rotation by applying a driving voltage to these motors It is configured to include.

The optical pickup unit 12 includes a laser diode (not shown), a photodiode (not shown), a beam splitter (not shown), and the like, and irradiates a laser onto the optical disc 10 to change the amount of light reflected by the laser. Accordingly outputs an RF signal.

The RF signal processor 18 includes an amplifier (not shown), an equalization processor (not shown), and the like, receives an RF signal from the optical pickup unit 12, amplifies and equalizes it, and outputs the digital signal.

The servo unit 26 controls the driver 24 driving and controlling the spindle motor 14 and the sled motor 16 to variably adjust the vertical position and the horizontal position of the objective lens provided in the optical pickup unit 12. Control focusing and tracking operations. That is, the servo unit 26 may be moved away from the center of the track of the optical disc 10 or the vertical distance by the optical pickup unit 12 due to physical distortion that may occur in the process of mounting the optical pickup unit 12 to the optical device. Control is performed to prevent spots from being formed correctly in accordance with the fluctuation of. Such control is performed by comparing the amount of light input to the light-receiving element of the optical pickup unit 12, and determining a focusing error.

The jitter calculator 27 calculates the jitter value of the read information by using the RF signal output from the optical pickup unit 12. The jitter value indicates the degree of deterioration of the read-out information, and the items such as EQF (equalizing frequency), IDB (gain), Fbal (focus balance) and Fbias (focus bias) are adjusted to obtain the optimum jitter.

The control unit 20 controls the optical device as a whole, and outputs a control signal to the servo unit 26 or the like according to the jitter value calculated by the jitter calculating unit 27 and stores the setting value at which the optimum jitter value is calculated. Store in That is, the auto adjustment is performed to store the values of EQF, IDB, Fbal, and Fbisa, which yield the optimal jitter.

The DSP 26 converts the binary signal output from the RF signal processor 18 into digital video and audio data. The converted digital video and audio data is output through a display device or the like.

As mentioned above, in the optical device, various automatic adjustments are performed for accurate and optimal performance. For example, the automatic adjustment of jitter is performed by adjusting items such as EQF, IDB, Fbal, and Fbias. When testing with three values for each item, 81 tests are required to find the optimal combination. Done. That is, as shown in FIG. 2 (a), when three values are combined for each item, 81 combinations are produced. If you test all of these combinations, you will find the optimal combination, but there is a problem in that it takes too much time for automatic adjustment.

In order to solve this problem, the present invention selects an orthogonal matrix corresponding to the number of items included in the automatic adjustment and the number of test values of each item. That is, in the case of automatic adjustment of jitter values, for example, when four test items have three test values for each item, the orthogonal matrix forms nine combinations as shown in FIG. 2 (b). After testing each combination of the selected orthogonal matrices, the result is stored in the storage unit 22, and the S / N ratio and the average value of the result are calculated. Can be predicted using Using this method, the result of each combination can be obtained without testing all the combinations, which has the effect of finding the optimal combination in the least amount of time.

3 is a flowchart of an automatic adjustment method of an embodiment according to the present invention. Since the optical device performs various automatic adjustments, an orthogonal matrix corresponding to the number of items required for the automatic adjustment and the test value of each item is selected (step S310). The orthogonal matrix can be selected to correspond to various automatic adjustments. It may be desirable to store and use the storage unit 22. When the orthogonal matrix is selected, the test is performed as many as the number of combinations provided in the selected orthogonal matrix (step S320). The result value is predicted using a statistical technique for the remaining untested combinations using the test result. ) The resultant values and the predicted values of the tested combinations are arranged in the order in which they show good results, and the top N combinations are selected (step S340). The predicted values are statistical methods and there is no conviction that they will be obtained. This is to verify whether or not the best combination. N can be set appropriately in consideration of the number of items required for automatic adjustment and the time required for automatic adjustment. 3 to 5 are preferable. The selected N combinations are tested again to calculate a result value (step S350). The combination showing the best result among the test result values of step S360 is selected as an optimal combination of the corresponding automatic combinations and stored in the storage unit 22. (Step S360) In this way, by re-testing the top N items and selecting the optimal combination again, there is an effect of increasing the reliability of the prediction.

Of course, the automatic adjustment method of the present invention can be applied to not only optical devices but also products that are automatically adjusted through a plurality of items.

As described in detail above, the present invention can achieve the same effect as testing all combinations by performing automatic adjustment for a minimum time.

It also has the effect of finding the best combination of these auto-adjustments without testing every combination.

In addition, there is an effect that can efficiently find the optimal combination while minimizing the time to perform the automatic adjustment.

Claims (5)

In the method of performing the automatic adjustment using a plurality of items in the optical device, Selecting a matrix comprising a portion of possible combinations of test values for each of the plurality of items used for the automatic adjustment; Testing each combination of the automatic adjustments included in the selected matrix; Selecting an optimal combination among the combinations of the automatic adjustments based on the result of the test, the optimum combination being determined to be most suitable for operating the optical equipment normally and accurately. The method of claim 1, And the matrix used for the automatic adjustment is an orthogonal matrix determined according to the number of items used for the automatic adjustment and the number of values testable in each item. The method of claim 1, wherein in selecting the combination, Predicting a result value of an untested item among possible combinations in the automatic adjustment by using the result of the test, and selecting the combination based on the result value of the test and the predicted result value. Automatic adjustment method of phosphorescent device. The method of claim 3, wherein Wherein said combination arranges the result value of said test and said predicted result value in order of better values for operating said optical device normally and accurately, and then selects it within a predetermined schedule. . The method of claim 4, wherein Retesting each combination of the automatic adjustments within the predetermined schedule, and selecting a combination whose resultant value is determined to be most suitable for normal and accurate operation of the optical device in the test. How to adjust the device automatically.

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