KR100725686B1 - Method for optimum power calibration in optical disc driver - Google Patents

Abstract

A method for performing OPC(Optimum Power Control) in an optical disc device is provided to detect the optimum power within a shorter time by quickly varying central power to the optimum value on the basis of a beta value detected through just previous OPC operation and the optimum beta value and performing OPC operation again. A microcomputer performs OPC operation of an inserted optical disc by using predetermined central power. The microcomputer confirms whether optimum power is detected through the OPC operation. When the optimum power is not detected through the OPC operation, the microcomputer calculates difference between a reproduction characteristic for test data detected in the OPC operation process and the optimum reproduction characteristic which is preset for an optical disc(S30). The microcomputer compensates predetermined central power by the difference, and varies and sets the central power(S31). The microcomputer performs OPC operation again by the varied and set central power(S32).

Description

Method for optimum power calibration in optical disc driver

1 illustrates a conventional OPC retry operation,

2 illustrates a configuration of an embodiment of an optical disk device in which an OPC performing method according to the present invention is implemented.

3 and 4 illustrate an operation flow of a preferred embodiment of the method for performing OPC of the optical disk device according to the present invention;

5 illustrates an OPC rerun operation according to the present invention.

※ Explanation of code for main part of drawing

10: optical disc 11: spindle motor

20: optical pickup 21: sled motor

30a: digital recording signal processor 30b: digital reproduction signal processor

40: channel bit encoder 41: optical driver

50: R / F section 60: drive section

61: servo unit 70: microcomputer

71: memory

The present invention relates to a method of performing an OPC of an optical disc device, which enables the optimum power to be detected quickly through the OPC operation by resetting the center power used for the OPC operation to an optimum value.

In a typical optical disk device, an optimum power is detected through an OPC (Optimum Power Calibration) operation and the requested recording operation is performed using the detected optimal power. The operation is briefly described as follows.

First, when the optical disc is inserted and seated, the preset stored center power and optimum beta value corresponding to the disc code of the optical disc are detected from the firmware of the memory, and the recording power is varied by a predetermined size based on the detected center power. While recording the test data of the 15 ATIP block in the test area in the PCA (Power Calibration Area) of the optical disc, the test data is recorded at different powers for each ATIP block by the power variation.

When the recording of the test data is completed, the recorded test data is sequentially read to detect a beta value from the reproduced RF signal for the read test data.

When the detection of the beta value is completed, fitting a function of the curve by each recording power at which the detected beta value is obtained, and then finding a point β corresponding to the detected optimal beta in the curve thus obtained, at that point. The recording power of is detected as the optimum power.

However, if a point matching the detected optimal beta cannot be found in the curve obtained as described above, the optimum power cannot be detected, so that the center power is varied and the operation of the OPC is retryed. In this case, the center power is varied because the center power detected from the firmware is not appropriate and the optimum power is not detected through the OPC operation. Thus, the center power is adjusted to an appropriate value.

However, in the related art, when the center power is changed, the center power is adjusted upward when the distribution of the beta values detected through the previous OPC operation is less than or equal to the optimal beta value, and when it is vice versa, the OPC operation is performed again by adjusting it downward. As the center power is approximately variable, the center power is not adjusted to an optimal value at one time. Therefore, the optimal power can be detected by performing the OPC operation several times as shown in FIG. There is a problem in that a lot of time is consumed and the recording operation is unnecessarily delayed due to this, and in severe cases, there is a problem that OPC Fail occurs and optimal power cannot be detected.

Therefore, the present invention was created to solve the above problems, and when the center power is not appropriate and the optimum power is not detected through the OPC operation, the beta value and the optimal beta value detected through the previous OPC operation are In the present invention, there is provided a method of performing an OPC of an optical disc device that enables the optimum power to be detected within a shorter time, that is, by performing the OPC operation once again by quickly changing the center power to an optimum value. The purpose is.

According to an aspect of the present invention, there is provided a method of performing an OPC of an optical disk apparatus, the method comprising: performing an OPC operation using a predetermined center power of an inserted optical disk; Confirming whether optimum power is detected through the OPC operation; If the optimum power is not detected through the OPC operation, variably setting the center power based on a predetermined optimum reproduction characteristic for the optical disc and a reproduction characteristic for each test data detected in the OPC operation; And re-performing the OPC operation using the variable set center power.

Hereinafter, a preferred embodiment of an OPC performing method of an optical disk device according to the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a block diagram of an embodiment of an optical disk device in which an OPC performing method according to the present invention is implemented. The digital recording signal processing unit converts the recording format by adding an error correction code (ECC) to the input digital data. 30a); A channel bit encoder (40) for reconverting the data converted into the recording format into a bitstream; An optical driver 41 for outputting a light quantity driving signal according to the input signal; An optical pickup (20) for recording a signal on the optical disc (10) in accordance with the light quantity driving signal and for detecting a recording signal from the recording surface; An R / F unit 50 for shaping the signal detected by the optical pickup 20 and reproducing and outputting the binary signal; A drive unit 60 for driving the spindle motor 11 for rotating the optical disc 10 and the sled motor 21 for conveying the optical pickup 20, respectively; A servo unit 61 controlling driving of the drive unit 60 according to a tracking error signal TE and a focusing error signal FE of the optical pickup 20 and a rotation speed of the optical disc 10; A digital reproduction signal processor (30b) for restoring the binary signal to original data with its own clock synchronized with the binary signal; A memory (EEPROM) 71 in which a center power and an optimum beta value for each disc manufacturer (disk code) are preset and stored in a firmware form; And a microcomputer 70 which detects an optimal recording power through an OPC operation and controls and performs a requested recording operation using the detected optimal recording power.

3 and 4 are flowcharts illustrating a method of performing an OPC of an optical disk device according to the present invention. Hereinafter, the method of performing the OPC of FIGS. 3 and 4 according to the present invention will be described with reference to the configuration of FIG. 2. It explains in detail.

As the optical disc (for example, CD-R) 10 is inserted and seated (S10), the microcomputer 70 performs a predetermined OPC operation. The OPC operation is as follows.

First, the microcomputer 70 detects a center power and an optimal beta value corresponding to the disc code of the optical disc 10 from the firmware of the memory 71 (S11), and records power based on the detected center power. Is applied to the optical driver 41 for varying the value by a predetermined size.

The optical driver 41 outputs a recording signal for test data at an optical driving power corresponding to the applied control signal. Accordingly, the optical pickup 20 transmits the recording signal to the test area in the PCA of the optical disk 10. When the output signal starts to be recorded (S12), as described above, in one OPC operation, the test data of the 15ATIP block is recorded with 15 recording powers.

When the recording of the test data is completed, the microcomputer 70 controls the optical pickup 20 to sequentially read the recorded test data, and accordingly the reproduction output from the R / F unit 50. The beta (β) value is detected from the RF signal (S13). The beta value indicates the asymmetry of the reproduced RF signal and is proportional to the recording power.

When the beta value detection is completed, the microcomputer 70 fits a function of the curve by each recording power at which the detected beta value is obtained (S14), and then matches the detected optimal beta in the curve thus obtained. It is checked whether or not the point? Exists (S15), and if present (S20), the recording power at the point is detected as the optimum power (S21).

However, if there is no point coinciding with the detected optimum beta in the curve obtained as described above, the optimum power cannot be detected, so the microcomputer 70 varies the center power and then performs the OPC operation again. When the central power is varied, the microcomputer 70 adjusts the center power upward when the distribution of each beta value detected through the previous OPC operation is less than or equal to the optimum beta value, and vice versa. Will be adjusted downward.

On the other hand, the microcomputer 70 calculates a difference between the detected optimal beta A and the beta value B corresponding to the center power among the beta values detected through the previous OPC operation (S30). The center power is varied based on the calculated AB value (S31). For example, the microcomputer 70 adds the calculated AB value to the center power when the center power is adjusted upward as described above. As a result, the center power is changed to a value larger than the present value, and when the center power is adjusted downward, the center power is changed to a value smaller than the present value by subtracting the calculated AB value from the center power.

In this way, when the center power is changed to the optimum value, the microcomputer 70 performs the OPC operation again based on the variable center power (S32), thereby detecting the optimum power as described above. (S33).

In addition, when the optimum power is detected through the re-execution of the OPC operation, the microcomputer 70 performs the requested recording operation in the data area of the optical disc 10 using the detected optimal power.

As described above, in the present invention, the OPC operation is performed by using the center power pre-stored in the firmware. If the optimal power is not detected through the OPC operation because the center power is not appropriate, as described above. By varying the center power to an optimum value based on the beta value and the optimal beta value detected through the previous OPC operation, and then performing the OPC operation again, only once as shown in FIG. 5 without performing the OPC operation again. This makes it possible to detect the optimum power, which takes a short time until the detection of the optimum power.

On the other hand, the above-described embodiments have been directed to optical discs (for example, CD-R) that can be written once, but the present invention can be applied not only to optical discs that can be written once but also to rewritable optical discs. The gamma (γ) value is applied instead of the beta value.

That is, for a rewritable optical disc, after the test data is recorded, a modulation degree, which is an index indicating an amplitude size of a reproduction RF signal for the test data, is obtained, and a gamma value is detected from the characteristics of the modulation degree. The optimum power is detected based on the detected gamma value and the optimum gamma value pre-stored in the firmware.

The above-described preferred embodiments of the present invention are disclosed for purposes of illustration, and those skilled in the art can improve, change, and modify various other embodiments within the spirit and technical scope of the present invention disclosed in the appended claims. Replacement or addition may be possible.

In the method of performing OPC of the optical disk device according to the present invention as described above, if the optimal power is not detected through the OPC operation because the center power is not proper, By rapidly changing the center power to the optimum value and re-performing OPC operation, the optimal power can be detected by re-executing only once without re-operating the OPC operation several times, minimizing the time required to detect the optimum power. From this, the recording operation is also very useful invention that can be performed quickly.

Claims (4)

Performing an OPC operation on the inserted optical disc by using a predetermined center power; Confirming whether optimum power is detected through the OPC operation; If the optimum power is not detected through the OPC operation, a difference between a reproduction characteristic for the test data detected during the OPC operation and a predetermined optimum reproduction characteristic for the optical disc is calculated and the predetermined center is set as much as the difference. Compensating power to variably set the center power; And And re-performing the OPC operation using the variable set center power. The method of claim 1, And performing a requested recording operation by using the optimum power detected by performing the OPC operation again. The method of claim 1, The reproduction characteristic is a method of performing OPC of an optical disc device, characterized in that a beta (β) value representing the degree of asymmetry of the RF signal. The method of claim 3, wherein The reproducing characteristic of the test data in the central power variable setting step is a beta value corresponding to the center power among the beta values for each test data.

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