KR100513339B1 - Method for detecting optimum power in optical disc driver - Google Patents

Abstract

The present invention relates to a method for detecting an optimum power in an optical disk apparatus, comprising: a first step of detecting prestored reference erase power suitable for an inserted optical disk; Setting a plurality of test write powers corresponding to each of the plurality of test erase powers set based on the selected reference erase power; And a third step of detecting an optimum recording power and a corresponding erasing power according to the OPC operation to which the set plurality of test erase powers and test write powers are applied. The optimum erase power and the optimal write power are detected through an OPC operation using a test erase power set from a reference erase power and a test write power set corresponding thereto, and compensate for the detected optimum erase power in consideration of characteristics of a device. By this, it is a very useful invention that can improve the recording quality due to the recording operation by the optimum power.

Description

Method for detecting optimum power in optical disc driver

The present invention detects the optimum erase power and the optimal recording power by using the reference erase power previously detected and stored for each recording speed of each optical disc manufacturer, and properly compensates the detected optimal erase power in consideration of the characteristics of the device, The present invention relates to a method for detecting optimum power in an optical disk device in which the best recording operation is performed by an optimum power value.

Overwrite recording (overwrite) of a rewritable (erasable) optical disc (e.g., CD-RW) of the recordable optical discs requires erasing power as well as recording power. Power of raising the changing film) to the melting point, and erasing power Pe is power raising the recording film to a temperature above the glass transition point.

On the other hand, since the optimal recording power (Pwo) and the optimum erasing power (Peo) are different depending on the type of optical disk, recording device, and recording speed, the optimal recording power and the optimal erasing power are performed through an OPC (Optimum Power Calibration) operation before data recording. It will be detected, which will be described in detail as follows.

Fig. 1 shows a configuration of an embodiment of a general optical disc apparatus, comprising: a digital recording signal processing section 30a for adding an error correction code (ECC) or the like to input digital data to convert it into a recording format; 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 filtering the signal detected by the optical pickup 20 to output a binary signal; A drive unit 61 for driving the optical pickup 20 and the spindle motor 11; A servo unit (60) for controlling driving of the drive unit (61) from the tracking error signal (T.E) and focusing error signal (F.E) of the optical pickup (20) and the rotational speed of the optical disc (10); A digital reproduction signal processor (30b) for restoring the binary signal to original data with its clock synchronized with the binary signal; And optimum recording power and optimal erasing power for the optical disk 10 through an OPC operation using data such as reference recording power and erasure ratio for each recording speed for each disk code stored in the EEPROM 71. And a microcomputer 70 for detecting and controlling and performing a recording operation using the detected value.

In the optical disk device configured as described above, when the optical disk 10 is inserted into and mounted on the device, the microcomputer 70 performs an OPC operation. For this purpose, the microcomputer 70 of the optical disk 10 is inserted and mounted. A predetermined number (typically, 15) tests including the reference recording power by detecting a code and reference recording power at the corresponding OPC recording speed from the EEPROM 71, and changing the detected reference recording power by a predetermined size. The recording power is set.

However, if the inserted optical disc 10 is a rewritable optical disc (for example, CD-RW), since the erase power is required along with the recording power during overwrite (overwrite), the microcomputer 70 Divides each of the set test write powers by the value ε defined in the EEPROM 71 to set test erase powers corresponding to the set test write powers.

Subsequently, the microcomputer 70 controls the optical driver 41 and the optical pickup 20 to generate a recording signal for test data at each of the set test write power and erase power, and the innermost circumference of the optical disc 10. Record in the test area of the PCA (Power Calibration Area).

The recording signal for the test data is an EFM modulated signal consisting of a pulse train having a time span of 3 to 11 times the reference time width T (T is about 230 nsec at one cycle of frequency 4.32 MHz at a standard speed (1x speed)). Typically, the test area is composed of 100 partitions, each partition is composed of 15 frames, and in one OPC operation, one of the partitions is used to perform 15 steps for 15 frames constituting the partition. Record the recording signal with the recording power of.

In this manner, when the recording of the test data is completed, the microcomputer 70 reproduces the recorded test data and at the same time, the modulation degree m (m = I _11T / I _Top) , which is an index indicating the amplitude of each reproduction RF signal. _, where I is the amplitude of the reproduced RF signal _11T by (the portion between the foot and the foot) of the 11T pits and lands, there is rescued I _Top is the mirror reflection level of the land portion of the 11T), the degree of modulation m is It changes according to the recording power. In other words, when the recording power is low, the modulation degree m is small because the amplitude of the reproduction RF signal is small. On the other hand, when the recording power is high, the modulation degree m is large because the amplitude of the reproduction RF signal is large.

Next, the microcomputer 70 uses the following parameter γ obtained from the characteristics of the modulation degree m to determine the optimal recording power Pwo.

γ = (dm / dPw) × (Pw / m)

In other words, the parameter γ is a derivative of the characteristic of the modulation degree m.

In the EEPROM 71, since the target gamma value gamma _target is defined for each recording speed for each disc code, the microcomputer 70 obtains the property of the parameter gamma from the characteristics of modulation degree m by the above equation. The target recording power P _target1 and the target erasing power P _target2 from which the γ _target can be obtained are obtained.

In addition, since the coefficient rho (rho) for obtaining the optimal recording power Pwo and the optimum erasing power Poe from the P _target1 and the P _target2 is defined in the EEPROM 71, the microcomputer 70 calculates the coefficient ρ. The optimum recording power Pwo and the optimum erasing power Poo are respectively detected by the following equation.

Pwo = ρ × P _target1

Peo = ρ × P _target2

On the other hand, the optimum erase power (Peo) can also be detected by the following equation using the erase ratio (Erase Ratio), that is, epsilon (epsilon) previously defined in the EEPROM (71).

Peo = ε × Pwo

When the optimum recording power Pwo and the optimum erasing power Poo are detected through the OPC operation as described above, the microcomputer 70 requests a request using the obtained optimal recording power Pwo and the optimum erasing power Poe. Overwrite operation is performed.

As described above, conventionally, reference recording power for each recording speed for each optical disc manufacturer is stored in a memory, and a predetermined number of test recording powers are set based on the stored reference recording power for an OPC operation, and then the set The test erase power is set by dividing the test write power by a predetermined erase ratio. Since the write power is generally larger than the erase power, the difference between the test write powers is larger than the set test erase power. Therefore, even in the case of OPC operation for optimum power detection, it is possible to obtain more optimal power by setting the test recording power from the test erasing power rather than setting the test erasing power from the test recording power set from the reference recording power. There was a problem that it is difficult to improve the recording quality by overlooking this.

In addition, due to the resolution of the A / D converter of the optical disk device and the deviation of the optical pickup, in some cases, the power value detected from the OPC operation may not be an optimal value. There was a problem that the recording quality could be degraded by using the optimum power value as it is.

Accordingly, the present invention was created by solving the above problems, and when setting the test power for the OPC operation, by setting the test erase power and the corresponding test write power based on the previously stored reference erase power, The optimum power value can be obtained and the optimal recording power and optimum erasing power detected through OPC operation are compensated to the optimal value considering the resolution of the A / D converter and the deviation of the optical pickup. It is an object of the present invention to provide an optimal power detection method for an optical disk device that can obtain quality.

In accordance with another aspect of the present invention, there is provided a method for detecting an optimum power of an optical disk apparatus, the method including: detecting first stored reference erase power suitable for an inserted optical disk; Setting a plurality of test write powers corresponding to each of the plurality of test erase powers set based on the selected reference erase power; And a third step of detecting an optimum recording power and an optimum erasing power corresponding thereto through an OPC operation to which the set plurality of test erase powers and test write powers are applied.

Hereinafter, a preferred embodiment of an optimal power detection method of an optical disk apparatus according to the present invention will be described with reference to the accompanying drawings.

2A and 2B show an operation flow of a preferred embodiment of the method for detecting an optimum power of an optical disk device according to the present invention. Hereinafter, with reference to the configuration of Fig. 1, the optimum of Figs. 2A and 2B according to the present invention will be described. The power detection method will be described in detail.

In general, on the optical disc 10, together with reference recording power (and / or reference erasing power) for each recording speed for each disc code, γ _target , rho (rho), ε (epsilon) values, etc. are defined in the Absolute Time In Pre-groove (ATIP) information. Since the defined values are experimentally detected by a specific device, the ATIP information is used in most devices. Experimentally detects the values that are appropriate for the device characteristics of each recording speed for each disk code by referring to the values defined in, and stores them in the EEPROM 71, so that the optimal recording operation can be performed later using the stored values. To be done.

On the other hand, for a rewritable optical disc (for example, CD-RW), erase power is required along with the recording power during overwrite (overwrite). Thus, for an rewritable optical disc, optimal erasing is performed with optimal recording power through an OPC operation. Power is detected, which will be described in detail below.

First, the microcomputer 70 determines the manufacturer (disc code) of the optical disc 10 inserted (S10, S11), for example, the microcomputer 70 is located in the lead-in area of the optical disc 10. The start time of the lead-out area is detected from the recorded Table Of Contents (TOC) information, and the manufacturer of the optical disc 10 is determined therefrom. The lead-out area is a signal area indicating the end of the program. Since the start time of the lead-out area is different for each disc manufacturer, the microcomputer 70 can easily determine the manufacturer of the optical disc 10 from this.

When the manufacturer of the optical disc 10 is determined, the microcomputer 70 detects the reference erase power at the determined manufacturer and the corresponding recording speed (recording speed in the OPC) from the EEPROM 71 (S12). In operation S13, seven test erase powers are set by changing a power value by a predetermined size based on the detected reference erase power.

Next, the microcomputer 70 divides the seven test erase powers set by the ε value previously defined in the EEPROM 71 to detect and set test write powers corresponding to the respective test erase powers. S14).

When seven test erase powers and seven test write powers for test recording are set, the microcomputer 70 performs test data recording of seven frames using the test powers as described above. 70) records one frame by using erase power and recording power one by one among the set test power. That is, the microcomputer 70 uses the test recording power for the recording mark area and the test erasing power for the space area to which the recording pulse is not applied during the test recording.

When the recording of the test data is completed, the microcomputer 70 reproduces the recorded test data so that the characteristics of the reproduced RF signal and the target gamma value γ _{target previously} defined in the EEPROM 71 as described above. The target recording power P _target1 and the target erasing power P _target2 are detected from, and the optimum recording power Pwo as described above from the detected target recording power P _target1 and the target erasing power P _target2 . And optimum erasing power Peo is detected. In this case, the optimum erasing power Peo can also be detected by the value of epsilon defined in the EEPROM 71 (S15 and S16).

When the optimal recording power Pwo and the optimal erasing power Peo are detected as described above, the microcomputer 70 compares the detected optimal erasing power Peo with the previously detected reference erasing power (S17). The detected optimal erase power (Peo) is selectively compensated according to the comparison result (S18), which is as follows.

As a result of the comparison, when the optimal erase power (Peo) value is less than or equal to the reference erase power value, the microcomputer 70 compensates for the optimal erase power with the reference erase power, and the compensated erase power and the detected optimal record. Store Pwo in internal memory.

As a result of the comparison, if the detected optimum erase power (Peo) is larger than the reference recording power and at the same time within a predetermined allowable range including the reference recording power, the microcomputer 70 performs the detected optimal without a separate compensation operation. The recording power Pwo and the optimum erasing power Peo are stored in the internal memory.

However, if the detected optimum erase power (Peo) is not a value within the predetermined allowable range, the microcomputer 70 obtains the erase power to compensate according to a predefined compensation equation, The calculation is as follows.

That is, compensating erase power = O + (XO) / (LO) (L is a predetermined limit erase power, O is the erase power within the predetermined allowable range, X is the detected optimal erase power), Compensation cancellation power is calculated only when the detected optimal erase power (Peo) is greater than zero.

In this manner, when the erase power to be compensated for is obtained, the microcomputer 70 stores the compensated erase power and the optimal write power Pwo in the internal memory.

On the other hand, if the detected optimum erase power (Peo) is greater than the predetermined limit erase power (L), the microcomputer 70 compensates the optimum erase power (Peo) with the limit erase power (L), The compensated erase power and the detected optimal write power Pwo are stored in an internal memory.

As such, when the optimal erase power and the optimal recording power are stored in the internal memory of the microcomputer 70 (S19), the microcomputer 70 performs the overwrite operation later by applying the stored power value.

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 substitute various other embodiments within the technical spirit and scope of the present invention disclosed in the appended claims below. Or addition may be possible.

The optimal power detection method of the optical disk device according to the present invention as described above, OPC using the test erase power is set from the reference erase power stored in each recording speed for each optical disc manufacturer, and the test recording power is set correspondingly It is a very useful invention that can detect the optimal erasing power and the optimal recording power through the operation, and compensates the detected optimal erasing power in consideration of the characteristics of the device, thereby improving the recording quality due to the recording operation by the optimum power. .

1 shows a configuration of an embodiment of a general optical disk device,

2A and 2B show an operation flow of a method for detecting an optimum power of an optical disk apparatus according to the present invention.

※ Explanation of code for main part of drawing

10: optical disc 11: spindle motor

20: optical pickup 30a: digital recording signal processing unit

30b: digital reproduction signal processor 40: channel bit encoder

41: optical drive 50: R / F section

60: servo unit 61: drive unit

70: Micom 71: EEPROM

Claims (9)

Detecting a pre-stored reference erase power suitable for an inserted optical disc; Setting a plurality of test write powers corresponding to each of the plurality of test erase powers set based on the selected reference erase power; And And detecting the optimum recording power and the corresponding erasing power by performing the OPC operation to which the plurality of set test erase power and test write power are applied. The method of claim 1, In the first step, an optical disc comprising detecting a manufacturer of an inserted optical disc and reference erase power at a corresponding recording speed from a nonvolatile memory in which reference erasing power for each recording speed for each optical disc manufacturer is prestored. Optimal power detection method of the device. The method of claim 1, In the second step, the plurality of test erase powers are divided by a predetermined erase ratio to set a plurality of test write powers corresponding to each of the plurality of test erase powers. . The method of claim 1, In the third step, the optimum erase power corresponding to the optimum write power is detected by multiplying the optimum erase power detected by the OPC operation to a predetermined erase ratio. The method of claim 1, And comparing the detected optimum erase power with the reference erase power and selectively compensating the optimum erase power therefrom. 4. The method of claim 5, The fourth step may include comparing the detected optimal erase power with the reference erase power and compensating for the optimum erase power with the reference erase power if the optimum erase power is less than or equal to the reference erase power value. Optimal power detection method. The method of claim 5, In the fourth step, the optimum erase power is compared with the reference erase power, and the optimum erase power is determined when the optimum erase power is larger than the reference write power and at the same time within a predetermined allowable range including the reference write power. Optimal power detection method for an optical disc device, characterized in that it does not compensate. The method of claim 7, wherein If the detected optimal erase power is not within the predetermined allowable range, a predetermined compensation equation, that is, compensated erase power = O + (XO) / (LO) (L is a predetermined limit erase power, O is within the predetermined allowable range) Erase power, X is the erase power to be compensated according to the detected optimal erase power, and compensates the optimal erase power with the obtained compensated erase power, wherein the calculation of the compensated erase power according to the An optimal power detection method for an optical disc apparatus, characterized in that only when erase power is larger than erase power (O) within the predetermined allowable range. The method of claim 8, And if the detected optimum erase power is larger than the preset limit erase power (L), the optimum erase power is compensated by the limit erase power (L).