KR20020096641A - Recording power setting method for optical disc reader/writer - Google Patents

Abstract

PURPOSE: A method for setting up write power of an optical record regenerator is provided to stably write data at a new disk by using a plurality of write strategies set up at the optical record regenerator. CONSTITUTION: A method for setting up write power of an optical record regenerator includes the steps of recognizing an inserted new disk in which write strategies are not defined at the optical record regenerator(201-203); writing data at the new disk by using a plurality of defined write strategies and measuring error values with regenerating the data written by each write strategy(204-207); setting up the write strategy generating the minimum error value as the write strategy suitable for the new disk referring to the measured error values(213).

Description

Recording power setting method for optical record player

The present invention relates to an optical recording and reproducing apparatus. In particular, when a new disk having no recording strategy is set, n is inserted into a disk inserted using a plurality of recording strategies set in the optical recording and reproducing apparatus. Optical recorder that can stably record data on a new disk by recording while increasing the recording power during ATIP (Absolute Time In Pre-groove), and measuring the error amount to set the optimal recording strategy for the new disk. It relates to a recording power setting method of.

In general, optical recording media have a read only memory (ROM) type, a write once read many (WORM) type, and a rewritable recording type, depending on whether repeat recording is possible. It is classified into three types such as possible type.

Here, the ROM type optical recording medium includes a compact disc (CD) ROM and a digital versatile disc (DVD) ROM, and the WORM type optical recording medium is a write once compact disc (CD-R). Recodable Compact Discs and Recordable Digital Versatile Discs (DVD-R).

In addition, freely rewritable discs include a rewritable compact disc (CD-RW) and a rewritable digital versatile disc (DVD-RAM).

On the other hand, as an example, arrangement of recording areas of a CD-RW disc may include a power calibration area (PCA), a program memory area (PMA), a lead-in area, a program area, and a lead-out area. -out Area).

Here, the PCA is an area for calibrating the laser recording power for recording data on the disk, and the PMA has head address information of the track on which data is recorded in the program area. Further, data record information and the like stored in the program area are recorded in the lead-in area and the lead-out area, and actual data to be recorded on the disc is recorded in the program area.

On the other hand, when data is recorded on the disc, it is necessary to correct the laser recording power due to the difference in the recording sensitivity of the disc film, the temperature, the recording sensitivity caused by the laser wavelength variation, and so on. Setting or calibrating is called Optimal Power Control (OPC).

In addition, in order to set the optimal recording power on the inserted disc, a write strategy as shown in FIG. 1 must be defined first. 1 is a diagram showing an example of a recording pulse set according to a general recording strategy. That is, as shown in Fig. 1, the recording pulse for the pit, the width of the overdrive, and the like should be defined.

According to this write strategy, when data is applied by a data write command, the applied data is modulated by EFM and light modulated, and then by a laser diode that emits a laser beam according to a constantly generated clock pulse. Are recorded on the optical disc. At this time, when the power of the laser beam radiated from the laser diode rises to a peak level that may cause deformation in the information recording surface of the optical disk, pit starts to be formed in the optical disk.

Then, when the pit starts to form on the optical disk by the laser beam power of the laser diode raised to the peak level, the laser diode driver gradually decreases to a level at which the deformation on the information recording surface of the optical disk can be maintained. To maintain that state. In addition, when the period in which the pits are formed passes, the laser diode driver stops driving the laser diode, thereby reducing the laser beam power radiated from the laser diode so as not to cause deformation of the information recording surface of the optical disk.

However, when a new disc that does not have a write strategy defined is inserted, a recording strategy suitable for the new disc is not established. Therefore, when attempting to record using only a fixed write strategy, jitter Becomes bad. Accordingly, there is a problem that the playability of the recorded disc is severely degraded.

Therefore, from the user's point of view of using the optical recorder, the firmware (FirmWare) of the optical recorder must be updated in order to set a write strategy suitable for a new disk. In addition, the supplier who manufactures / sells the optical recorder also has a burden of continuously updating the firmware of the sold optical recorder.

In this way, each time a new disk is generated with no defined recording strategy, a maintenance operation to update with new firmware has to be performed, and there is an additional cost.

The present invention has been created in view of the above conditions, and when a new disc having a write strategy is not inserted, a disc inserted using a plurality of recording strategies set in the optical record player is inserted. The recording power setting method of the optical recorder that can stably record data on the new disk by recording while increasing the recording power during n ATIP and measuring the error amount to set the optimal recording strategy for the new disk. The purpose is to provide.

1 is a diagram showing an example of a recording pulse set in accordance with a general recording strategy.

2 is a flowchart illustrating a process of setting a recording strategy for an inserted disc by the recording power setting method of the optical recorder according to the present invention.

3 is a view showing an error signal measured according to each recording strategy by the recording power setting method of the optical recorder according to the present invention.

In order to achieve the above object, the recording power setting method of the optical recorder according to the present invention,

(a) recognizing a new disc for which a recording strategy is not defined;

(b) performing recording on the new disc using a plurality of defined recording strategies, reproducing data recorded by each recording strategy, and measuring an error value; And

and (c) setting a recording strategy that generates a minimum error value with reference to the measured error value as a recording strategy suitable for the new disc.

In this case, in the recording on the new disc using the recording strategy defined in step (b), the recording power is changed by changing the recording power for each recording strategy.

Further, in comparing the error values measured in step (c), the error value is characterized in that the error value is obtained from the number of data blocks in which an error is detected by an error correction code at the time of reproduction.

According to the present invention as described above, in the case where a new disc having no write strategy set is inserted, recording power for n ATIP is recorded for a disc inserted using a plurality of recording strategies set in the optical record player. By increasing the recording rate and measuring the error amount, an optimal recording strategy for the new disk can be set, thereby stably recording data on the new disk.

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

2 is a flowchart illustrating a process of setting a recording strategy for an inserted disc by the recording power setting method of the optical recorder according to the present invention.

First, when the disc is inserted (step 201), the optical recorder judges whether the inserted disc is a disc having a write strategy set (step 202). This can determine whether or not a recording strategy for the inserted disc is set by acquiring information such as company codes recorded on the disc. For example, when a new code is recognized from the disc, it is determined that a new disc having no recording strategy set is inserted.

As a result of the determination in step 202, when a disc for which a recording strategy has not been set is inserted, it is determined whether or not a recording strategy to be tested exists (step 203). The recording strategy to be tested here is a predefined recording strategy that has been set up for other discs. In general, an optical recorder stores information on a plurality of recording strategies according to the type of each disc according to the manufacturer.

At this time, if the recording strategy to be tested exists as a result of the determination in step 203, the recording strategy to be tested is set in the recording signal generating chip (step 204). 3, the optical record player sets the laser power P1 and the recording power step DELTA P to start recording. 3 is a view showing an error signal measured according to each recording strategy by the recording power setting method of the optical recorder according to the present invention. Here, the case of performing recording for three recording strategies and five ATIPs is shown. However, it is obvious that such test conditions may vary depending on the setting conditions of the optical recorder.

Then, in accordance with the setting in step 204, the optical recorder performs test recording on the PCA of the inserted disc by n ATIP and measures B-level (step 205). Then, the beta and C1 / C2 errors of the recorded area are measured in the playback mode (step 206).

Furthermore, the recording power P _k , B-level B _k , and C1 / C2 error E _k are stored at ATIP with the minimum C1 / C2 error (step 207). Referring to FIG. 3, the minimum values of C1 / C2 errors for each write strategy 1, 2, and 3 are E ₁ , E ₂ , and E ₃ , where E ₂ has the minimum value. . Here, the magnitude of the C1 / C2 error refers to the number of data blocks with errors detected by the error correction code during reproduction.

Then, go back to step 203 to see if there is a recording strategy to test, and if there are no more recording strategies to test, the minimum of stored E _k (k = 1, 2, ..., m) A recording strategy that becomes a value is set in the recording signal chip (step 213). In the example of FIG. 3, since E ₂ has a minimum value, data recording is performed by using a second write strategy (Write Strategy 2).

On the other hand, when the disc in which the recording strategy is set is inserted as a result of the determination in step 202, the recording strategy defined in the disc is set in the recording signal generating chip (step 222).

Then, the optical recorder performs test recording on the PCA by n ATIP, and measures the B-level (step 223). In addition, the recording power P _k and B-level B _k in the desired beta are stored (step 224). The optical recorder then records data on the inserted disc using the set value.

As described above, according to the recording power setting method of the optical recorder according to the present invention, a plurality of recording strategies set in the optical recorder are used when a new disc having no write strategy is set. It is possible to stably record data on a new disk by increasing the recording power during n ATIP and setting the optimal recording strategy for the new disk by measuring the error amount. have.

Claims (3)

(a) recognizing a new disc for which a Write Strategy is not defined; (b) performing recording on the new disc using a plurality of defined recording strategies, reproducing data recorded by each recording strategy, and measuring an error value; And and (c) setting a recording strategy for generating a minimum error value with reference to the measured error value as a recording strategy suitable for a new disk. The method of claim 1, In performing recording on the new disc by using the recording strategy defined in step (b), recording power setting of the optical recording and reproducing apparatus is performed by changing the recording power for each recording strategy. Way. The method of claim 1, In comparing the error values measured in the step (c), the error value is obtained from the number of data blocks in which an error is detected by an error correction code at the time of reproduction.