KR20040076918A - Writing method in an writing apparatus of optical disk - Google Patents

Abstract

PURPOSE: A recording method of an optical disk recording device is provided to calculate an optimum recording power value according to disk characteristics, and to record data while calibrating an optimum recording power, thereby improving recording quality. CONSTITUTION: A device starts recording by an outer event(31). The device reads ATIP(Absolute Time In Pre-groove) information from an optical disk(33). An optical pickup moves to a PCA(Power Calibration Area) of the optical disk(35). The device determines an optimum recording power by performing an OPC(Optimum Power Calibration) operation for the PCA(37), and stores the determined optimum recording power(39). The device decides whether a substantial data capacity is bigger than a target data capacity(41). If so, the device moves the optical pickup to a lead-out area(45). The device determines plural outer optimum recording powers for the lead-out area(47). The device calibrates the optimum recording power(49). The device performs a recording process by using the optimum recording powers at each point(51).

Description

Writing method in an writing apparatus of optical disk

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical disc recording apparatus, and more particularly, to a method capable of improving recording characteristics by using an optimum recording power reflecting disc characteristics.

In order to obtain good recording quality in an optical disc drive recorder, an Optimum Power Calibration (OPC) process is required to determine an optimal recording power for a recording device or disc having different optical characteristics. In general, such an OPC process is performed in a pre-allocated area (PCA: Power Calibration Area) in accordance with a predetermined standard (Orange Book).

According to the related standard, the disk structure is divided into five areas according to the purpose of use, as shown in FIG. 1, namely, PCA area, PMA (Programmable Memory Area) area, lead-in area, data area and lead-out. -out) is allocated to the area. The PCA area is a part of a trial recording where the intensity of the laser beam of the appropriate intensity is best suited to the disc before recording is started. Information on the products of major CD manufacturers is available. Already included in most recorders. The PMA area is a part that temporarily stores information about the data being recorded before closing the disc. In the lead-in area, information on a recorded item (TOC: Table of Content) is stored. The lead-out area also contains information for indicating the end of recording. Here, the area on the left, that is, the PCA area, the PMA area, and the lead-in area on the basis of the data area is called an inner circumferential area, and the lead-out area on the right area is called an outer circumferential area.

In order to determine the optimal recording power, various power values are recorded in the PCA area where 99 recordings are possible, and the optimal recording power is found out of these multiple power values, and then used to record the optimal recording power in the actual data area. do.

2 is a block diagram illustrating an operation process of a conventional OPC. As shown in Fig. 2, the test record data is recorded in the PCA area of the disc 14 in accordance with a plurality of test power values predetermined in the write strategy 12.

Then, the beta calculating means 16 sequentially reads the test record data recorded in the PCA area of the disc 14, where the asymmetry value of the reproduction signal with respect to the test record data, i.e., beta value (beta) = [(A1-A2) / (A1 + A2)]) is calculated.

The OPC 10 compares the beta value β calculated as described above with the target value beta value βt to determine the test power value corresponding to the case where the OPC 10 matches with the optimum recording power.

Subsequently, actual data is recorded on the disc 14 using the optimal recording power determined as described above.

Since the OPC operation, which normally operates as described above, is performed only once for one double speed in the PCA area for all disks, the optimum recording power is found only for one double speed (for example, 16 times speed). At this time, for other speeds (e.g., 24 times, 32 times, 40 times, 48 times, etc.), the optimum recording power is found using the value determined by the tuning operation suitable for each system or the predicted value.

On the other hand, there is a limit in recording data using the conventional OPC method due to the demand for high speed recording and the appearance of various recording media in the optical media market. In other words, the PCA region that performs OPC in the existing media has a large linear velocity due to the presence of the inner periphery of the media, and thus, it is difficult to perform OPC at a speed of 16 times or more. In order to solve this problem, in the case of 16 times speed, the optimal recording power is determined by adding the power value determined by the tuning for the write strategy to the power value of the OPC. However, in such a method, there is a need to separately tune the write stratification in order to determine the optimal recording power.

Also, recording media such as CD-R / RW are usually produced by spraying organic dye on a thermoplastic resin called polycarbonate. By the way, in the recording media produced in this way, an optical disk is often deformed into an umbrella shape around the disk axis due to storage or production mistakes. In this case, when a certain amount of light is given in the CLV (Constant Linear Velocity) recording method using the optimal recording power determined through the OPC in the inner circumference, the amount of the light is insufficient in the outer circumference and thus the RF signal is damaged during reproduction. Thus, a problem arises in that certain data cannot be read or recognized.

Ultimately, using the optimal recording power obtained by the conventional OPC method using only the PCA area, satisfactory recording quality could not be obtained on the outer periphery of the disc due to the difference in the double speed between the inner and outer peripheries of the optical disc and the change in the physical characteristics of the disc.

Disclosure of Invention The present invention has been made to solve the above problems, and an optical disc capable of improving recording quality by calculating an optimal recording power value at both inner and outer circumferences according to the characteristics of the disk and recording data while interpolating such optimal recording power. It is an object of the present invention to provide a recording method of the recording apparatus.

Another object of the present invention is to provide a recording method of an optical disc recording apparatus capable of overcoming a difference in the amount of recording light generated between an inner and an outer circumference by recording data using an optimum recording power value calculated for each double speed in an outer circumference.

1 is a diagram showing a recording structure of a general optical disc.

2 is a block diagram illustrating an operation process of a conventional OPC.

3 is a flowchart for explaining a recording method of the optical disc recording apparatus according to the preferred embodiment of the present invention.

4 is a view for explaining a method of interpolating a difference in amount of recording light between the inner and outer circumferences of a disc according to a preferred embodiment of the present invention.

According to a preferred embodiment of the present invention for achieving the above object, a recording method of an optical disc recording apparatus comprises the steps of: determining an optimum inner recording power from an inner peripheral area of the disc; Determining whether to determine the outer optimal recording power in accordance with the size of the actual data capacity; Determining an outer circumferential recording power from the outer circumference area of the disc when it is determined to determine the outer circumferential recording power; Interpolating the optimum recording power according to the recording position of the disc using the inner and outer optimal recording powers; And performing recording according to the interpolated optimum recording power.

The recording method of the optical disc recording apparatus is determined to determine the outer circumferential optimal recording power when the actual data capacity is larger than the target data capacity.

In the recording method of the optical disc recording apparatus, when the actual data capacity is smaller than the target data capacity, recording is performed using the inner circumferential optimal recording power.

According to the recording method of the optical disc recording apparatus, the target data capacity is set in consideration of the total data capacity obtained from the ATIP information of the optical disc.

According to the recording method of the optical disc recording apparatus, the target data capacity may be a reference position where the amount of recording light is insufficient in the circumferential direction.

According to the recording method of the optical disc recording apparatus, the peripheral recording power is determined for each double speed.

According to the recording method of the optical disc recording apparatus, the recording is performed by using the internal optimum recording power at the first recording position of the optical disc, and then recorded according to the optimal recording power interpolated from the next recording position, and the last recording position. In the case of recording using the external optimum recording power.

In the recording method of the optical disc recording apparatus, the optimal recording power interpolated is linearly increased from the initial recording position of the optical disc.

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

3 is a flowchart for explaining a recording method of the optical disc recording apparatus according to the preferred embodiment of the present invention. Referring to Fig. 3, recording is started by an external event (step 31). Then, ATIP information is read from the optical disc (step 33). Here, the ATIP includes characteristic information such as capacity of the entire disk, relative speed, use (for data or audio), production company, and the like.

A target data capacity is set in consideration of the capacity of all data read from the ATIP information. In the present invention, setting the target data capacity as described above is for determining whether to record using only the optimal recording power of the inner circumference or to record in consideration of the optimal recording power of the inner circumference and the outer circumference. Therefore, the target data capacity set as described above is used as a reference that the amount of recording light is insufficient. For example, when the point where the amount of recording light is insufficient when the optical disc has a curved data capacity capable of recording for 80 minutes is a data capacity capable of recording for 75 minutes, the target data capacity is set to a point capable of recording for 75 minutes. At this time, if the actual capacity to be recorded is smaller than the target data capacity, only the inner optimal recording power is recorded. On the contrary, if the actual capacity to be larger than the target data capacity is recorded, both the inner and outer optimal recording power are used. Recording is performed to improve the recording quality in the outer peripheral area.

On the other hand, when the ATIP information is read, the optical pickup is moved to the PCA area of the optical disc (step 35).

The OPC operation is performed on the PCA region thus moved to determine the optimal inner recording power (step 37). The determined inner circumferential optimal recording power is then stored (step 39).

At this time, it is determined whether the actual data capacity is larger than the target data capacity (step 41). Here, the target data capacity refers to the capacity up to the point where the recording light amount becomes insufficient in consideration of the total disk capacity obtained from the ATIP information, and the actual data capacity refers to the capacity to be actually recorded.

If the actual data capacity is smaller than the target data capacity by the above determination, the data is recorded on the optical disc using the inner optimal recording power stored (step 43).

In contrast, when the actual data capacity is larger than the target data capacity, the optical pickup is moved to the lead-out area (step 45). When the target data capacity is larger than the target data capacity, good recording characteristics do not appear using only the innermost optimal recording power. Accordingly, the outermost optimal recording power is determined and the recording is performed using both the inner and outer optimal recording power. It can be performed.

At this time, OPC is performed at each double speed for the lead-out area to determine a plurality of outer peripheral optimal recording powers (step 47). As described above, the determination of the plurality of outer circumferential optimal recording powers is for solving the difference in the amount of light between the region below the target data capacity and the region above when the data is recorded in the region exceeding the target data capacity. For example, when the optimum recording power is determined in the PCA area at the 16x speed, and the optimum recording power is determined at the 24x, 32x, and 40x speeds in the lead-out area, respectively, one data is recorded. By applying the optimum recording power according to different double speeds between the inner circumference and the outer circumference, it is possible to prevent the amount of recording light from running out in the outer circumference region.

Here, which of the plurality of outer peripheral optimal recording powers is to be used for recording may be determined through experiments or the like.

The optimal recording power is interpolated in accordance with the recording position by using the determined outer recording power and the pre-stored inner recording power determined in this way (step 49).

At this time, the optimal recording power to be interpolated is performed by Equation 1 below.

Xpower = [(Bpower-Apower) * (X _ATIP _A _ATIP ) / (B _ATIP -A _ATIP )] + Apower

Here, Xpower is the interpolated optimal recording power at point X, and Apower and Bpower represent the inner and outer optimal recording power at points A and B, respectively. In addition, A _ATIP , B _ATIP, and X _ATIP represent ATIP values at points A, B, and X, respectively. Here, the ATIP value means a timing code.

It can be seen from Equation 1 that the optimal recording power to be interpolated increases linearly from the initial recording position of the optical disc.

As shown in Fig. 4, the optimal recording power at a specific point is calculated using the inner and outer optimal recording powers determined in steps 37 and 47 and ATIP values at points A and B.

Recording is performed using the optimal recording power at each point thus interpolated (step 51).

Therefore, if recording is performed using the internal optimal recording power at the point A at which recording is first started, and recording is performed using the optimal recording power interpolated in step 49 from the next point, the external optimal recording power is recorded at the last recording. Record using

Therefore, the present invention determines both the inner and outer recording powers when recording data beyond the point where the amount of light is insufficient, and records the data while interpolating these inner and outer optimal powers, thereby making it possible to record data in an area exceeding the target data capacity. It is possible to prevent the deterioration of recording quality caused by the lack of light amount.

In addition, the present invention can overcome the difference in double speed between the inner circumference and the outer circumference by determining a plurality of outer recording powers for each double speed.

As described above, according to the recording method of the optical disc recording apparatus according to the present invention, when the actual data capacity to be recorded exceeds the target data amount, recording is performed according to the interpolated result using the inner and outer recording power. By this, the recording quality of the optical disc can be improved.

In addition, stable recording quality can be maintained even at high speed by using a plurality of outer peripheral optimum powers.

In addition, the recording quality can be improved by a simple algorithm without adding or modifying additional hardware.

Claims (10)

In the optical disk recording apparatus, a method for recording on a disc by using an optimum recording power according to OPC, Determining an optimal inner recording power from the inner peripheral area of the disc; Determining whether to determine the outer optimal recording power in accordance with the size of the actual data capacity; Determining an outer circumferential recording power from the outer circumference area of the disc when it is determined to determine the outer circumferential recording power; Interpolating the optimum recording power according to the recording position of the disc using the inner and outer optimal recording powers; And Performing recording according to the interpolated optimal recording power The recording method of the optical disc recording device comprising a. The recording method of the optical disc recording apparatus according to claim 1, wherein when the actual data capacity is larger than a target data capacity, it is determined to determine the outer circumferential optimal recording power. The recording method of the optical disc recording apparatus according to claim 1, wherein when the actual data capacity is smaller than a target data capacity, recording is performed using the inner circumferential optimal recording power. The recording method of the optical disc recording apparatus according to claim 1, wherein the target data capacity is set in consideration of the total data capacity obtained from the ATIP information of the optical disc. The recording method of the optical disc recording apparatus according to claim 1, wherein the target data capacity is a reference position at which the amount of recording light is insufficient in the circumferential direction. The recording method of the optical disc recording apparatus according to claim 1, wherein the peripheral recording power is determined for each speed. The recording operation of claim 1, wherein the recording operation is performed by using the internal optimum recording power at the first recording position of the optical disc, and then recorded according to the optimal recording power interpolated from the next recording position, and the external optimal at the last recording position. A recording method of an optical disc recording apparatus, characterized by recording using recording power. The recording method of claim 1, wherein the interpolated optimal recording power is linearly increased from an initial recording position of the optical disc. The recording method of the optical disc recording apparatus according to claim 1, wherein the interpolation of the optimum recording power is performed by the following equation. Xpower = [(Bpower-Apower) * (X _ATIP _A _ATIP ) / (B _ATIP -A _ATIP )] + Apower Where Xpower is the interpolated optimal recording power at point X, Apower and Bpower are the optimal recording power for the inner and outer at points A and B, respectively. A _ATIP , B _ATIP and X _ATIP are ATIP values at A, B and X points respectively. The recording method of the optical disc recording apparatus according to claim 1, wherein the ATIP value is a timing code.