KR20020019638A - Optimum Power Control Method of optical recorder - Google Patents

Abstract

PURPOSE: A method for setting optimum power of an optical recorder and a method of recording data using the setting method are provided to detect a power calibration area of a recordable disk for setting optimum power accurately. CONSTITUTION: An unused region of a power calibration area for detecting optimum power is searched according to a recording command(401). It is judged if a reflection signal of the power calibration area is higher than a specific level value(402). A region from which a reflection signal higher than the specific level is detected is judged to be an available power calibration area and a processor for finding the optimum power is executed(404). After the execution of the processor, a test section used with specific recording power is over-written(405). Recording is performed using the optimum power.

Description

Optimal Power Setting Method and Recording Method for Optical Recorder {Optimum Power Control Method of optical recorder}

The present invention relates to a method for setting an optimum recording power in a recordable optical disc and a recording method using the same.

The development of storage media using optical discs has been very fast as the recordable discs are recently released. At present, recordable optical discs have been released or are being discussed, such as compact disc type CD-R / RW, DVD type DVD-R / RW and DVD-RAM.

Unlike record-only discs, such recordable discs require complex algorithms and configurations for recording and are considered as a higher technology. In particular, in order to record on an optical disc, recording power must be defined. Which recording power is used is closely related to the recording quality and the reproduction quality to reproduce the data. However, in order for the recording power to be optimal, it is related to the performance of the disc and the recording device to be recorded. Therefore, it cannot be set as a uniform value, and the recording device itself finds the optimal recording power and uses it for recording. I'm trying to. Therefore, we have standardized the method of finding the optimal recording power and this is generally called Optimun Power Control (OPC).

In the OPC method, the reference recording power is presented in a specific area (mostly lead-in) in a disc, and a specific recording device uses the reference recording power for recording. A test is performed to find the optimal recording power in a specific area of the disc. This inspection process is called a power calibration (PC), and the area or section in which the inspection is performed is called a test interval (Power Caliberation Area, PCA). Therefore, the recording device can obtain the optimum recording power between the disc and the recording device through recording several times. This test method is most commonly used to record the recording power from the low to high in the PCA sequentially (or vice versa) and play it back to set the test power to the optimum recording power to obtain the desired playback quality. It is used to do.

FIG. 1 is a view showing a region where such an OPC is performed on a CD-RW disc, where a PCA exists before the lead-in of the inner line starts, and the PCA is again a PCA test area. And PCA count area. Before the recording device executes the recording command, the recording device checks the PCA count area to identify the PCA test area to be used. In order to find the optimal power in the identified PCA test area, a PC test is performed at a certain size (e.g. 15 sectors), and when the execution is completed, the fact is marked in the PCA count area. For reference. This makes it easy to find the PCA test area for future recording.

FIG. 2 shows an OPC performing area of a DVD-R or DVD-RW disc having a higher density than a CD-RW. That is, there is an unused area in the inner circumference of the PCA area, the use size is not uniform, and can be utilized from at least one sector to several tens of sectors.

However, unlike the case of the CD-RW disc of FIG. 1, there is no PCA count area and the test size is not constant. Therefore, it is not easy to determine where to perform the PCA test. In other words, the test recording power used for the PC varies from low to high, and even if a reflected signal (RF) below a certain level is detected, it cannot be confirmed as a 100% unused test area. To find the test area that was most recently performed, the disc's tracks must be back-jumped, thus spending a lot of time on initial recording mode settings. In addition, there is a problem in that when the PC is run in a test area that is found incorrectly, a fatal error that is recorded as an incorrectly calculated optimal power may be caused.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a method for setting an optimum power by accurately detecting a test section for setting an optimum power in a recordable disc and a recording method using the same to solve the above problems.

1 is a view showing a test interval for setting the optimum power in the CD-RW disc

2 is a view showing a test interval for setting the optimum power in the high-density disk of an embodiment to which the present invention is applicable

Figure 3 is a waveform diagram for detecting a test interval for setting the optimum power according to the present invention

4 is a flowchart showing a method for setting and recording an optimum power of the present invention.

The present invention is to search for the unused area of the test section for detecting the optimum power according to the recording command for setting the optimal power of the optical recorder, and in this step to determine whether the reflected signal of the test section is higher than a specific level value And determining a region in which a reflection signal higher than the specific level is detected as a usable test section, and performing a processor to find an optimum power.

In addition, the recording method of the optical recorder of the present invention comprises the steps of: searching for an unused area of the test section for detecting the optimum power according to the recording command, and performing a processor for finding the optimum power by detecting the unused area in the step; The method may include overwriting a test section used as a specific recording power after performing the optimum power setting processor, and performing recording at the set optimal power.

In addition, the recording power overwrite is characterized in that the power capable of detecting a reflected signal of a specific level or more.

In addition, the recording power to overwrite is characterized in that the optimum power set.

The purpose and configuration of the present invention will be described in detail with reference to FIGS.

For convenience of explanation, the case of the disk (DVD-R / RW) as shown in FIG. 2 will be described as an example. Considering the first recording time in FIG. 2, the PC is executed from the 17th section of the PCA (this is mandatory in the disc standard as shown in FIG. 2). The size is not uniform. Therefore, for example, if the 30th sector is used as the test area, since the test should be performed from the 31st sector in the next recording, it should be able to accurately detect that the 17th to 30th sectors are used. In order to facilitate such detection, the present invention overwrites the area with a specific recording power after completing the PC execution in the area used as the test area. In other words, when the test recording power is low, it is not easy to detect that the area is used, and thus the area is overwritten so that a reflection signal below a specific slice level can be detected.

Fig. 3 shows the waveform diagram of the area used in the next recording after overwriting the test area used. (A) The relationship between the reflection signal RF detected at the time of traversing the track and the specific slice level. As a result, since the used area is overwritten, a specific reflection signal will be detected, but the unused area can be easily identified as the unused test area because the reflection signal is not loaded. In other words, the overwritten area has a low reflection signal (reflection characteristic of the optical disk), and the unrecorded area has a high reflection signal detected. 3 b) is a high-low signal detected according to the slice level in a) to determine a time point corresponding to a case where a high reflection signal is detected at a predetermined interval during traverse as an unused test area, From this point on, the PC can be run. That is, even in the case of a disk in which the PCA count area does not exist separately, the position at which the PC is to be performed can be detected accurately. At this time, the recording power to overwrite may use the recording power for detecting the reflection signal below a certain level according to the purpose of the invention, but it is most preferable to use the optimal power obtained through the test as the overwrite recording power. Is considered.

4 is a flowchart illustrating a method of performing the present invention, comprising: searching a PCA area according to a recording command (401), determining whether a reflected signal (RF) is higher than a specific slice level (Th), and (402). In the case of low, the final step of determining whether the corresponding area is the first unused area (403), performing the PC in the determined unused test area (404), and records the test area used after the completion of PC execution And overwriting with power and performing a write command with the set optimal write power (405).

According to the present invention, the test area can be accurately detected regardless of the presence or absence of the PCA count area when OPC is performed, and the time required for the detection of the initial test area can be reduced, and the optimal recording power detection is performed. Even at the time, it is possible to eliminate the error of performing the PC in the previously used area, thereby increasing the reliability of the entire recording.

Claims (5)

Searching for an unused area of a test section for detecting optimum power according to a recording command; Determining whether the reflected signal in the test section is higher than a specific level in the step; Determining a region in which a reflection signal higher than the specific level is detected as a usable test section, and performing a processor to find an optimal power. Searching for an unused area of a test section for detecting optimum power according to a recording command; Performing a processor for finding an optimum power by detecting an unused area in the step; Overwriting a test section used as a specific recording power after performing the optimum power setting processor; The recording method of the optical recorder, characterized in that the step of performing the recording at the set optimal power The recording method according to claim 2, wherein the recording power to overwrite is a power capable of detecting a reflected signal below a specific level. 3. The recording method of the optical recorder according to claim 2, wherein the recording power to overwrite is a set optimum power. Searching for a PCA area according to a recording command (401); Determining whether the reflected signal RF is higher than a specific slice level Th (402); If it is determined that the reflected signal is high, finally determining whether the corresponding area is the first unused area (403); Performing a PC in the determined unused test area (404); And overwriting the test area used after the completion of the PC execution with a specific recording power and performing a recording command with the set optimal recording power (405).