KR20050023798A - Method for calibrating optimal power in optical disc driver - Google Patents

Abstract

PURPOSE: An OPC(Optimal Power Calibration) performing method of an optical disk device is provided to selectively skip over an OPC operation if the OPC operation is conducted in the same set, and to record the OPC operation in reference to a previous record history, thereby more quickly carrying out a recording process. CONSTITUTION: When an optical disk is inserted(S10), a microcomputer decides a manufacturer of the optical disk(S11). The microcomputer decides whether an optimal power exists(S12). If so(S20), the microcomputer finally determines whether to carry out an OPC(S21). If the OPC is not necessary, the microcomputer skips over the OPC operation for the optical disk(S22). The microcomputer applies an optimal power detected through the OPC operation, and carries out a requested recording operation(S32).

Description

Method for calibrating optimal power in optical disc driver

The present invention relates to a method of performing an OPC of an optical disc apparatus which selectively skips an OPC operation and performs a recording operation immediately by applying a previously detected and stored optimum power when performing a recording operation.

In general, the most important thing in the optical disc recording apparatus is the reduction of the recording time.

However, the shortening of the recording time through the recording speed is almost limited, and it is time to reduce the recording time by other algorithms.

On the other hand, one of the important algorithms in the optical disc recording apparatus is an OPC (Optimal Power Calibration) algorithm, which records predetermined test data with different recording power in the test area of the optical disc in which the disc is inserted, and then reproduces the recorded test data. And using the target beta (Target β, CD-R) or target gamma (Target γ, CD-RW) for each recording speed defined by EEPROM. As one OPC operation is performed, it takes about 12 seconds for the CD-R and about 30 seconds for the CD-RW.

Although OPC operation takes a long time as described above, OPC operation has been performed unconditionally every time a disc is inserted. As described above, the target beta (/ target gamma) value used for detecting the optimum power by OPC operation is determined by each disc. Since the values are detected and defined by the disk manufacturer (by disk code), not by, the optimum power values detected by the OPC operation in the same set are almost similar for disks having the same disk code.

In addition, since most users purchase a large amount of discs of their preferred disc maker (the same disc maker has the same disc code) and use them in the same set, conventional recording operation is unnecessary due to frequent OPC operations. There was a delay.

Accordingly, the present invention was created to solve the above problems, and if the OPC operation was previously performed in the same set for the optical disc having the same disc code, selectively skips the OPC operation and refers to the previous recording history information. It is an object of the present invention to provide a method of performing an OPC of an optical disc apparatus, in which a recording operation can be performed more quickly.

OPC performing method of the optical disk apparatus according to the present invention for achieving the above object, the first step of determining the manufacturer of the optical disk mounted; A second step of determining whether an OPC operation has been previously performed on the determined optical disc of the manufacturer; A third step of determining whether to skip the OPC operation with reference to previously recorded and stored record history information whenever the OPC operation is performed as a result of the determination; And a fourth step of skipping an OPC operation according to the determination result and performing a requested recording operation with reference to the previously stored recording history information.

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

1 is a block diagram of an embodiment of an optical disk apparatus in which an OPC performing method according to the present invention is implemented. The digital recording signal processing unit converts an input digital data into a recording format by adding an error correction code (ECC) or the like ( 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) according to the light quantity driving signal and for detecting a recording signal; An R / F unit 50 for shaping the signal detected by the optical pickup 20 and outputting it as a binary signal; A digital reproduction signal processor (30b) for restoring and outputting the binary signal as original data with its clock synchronized with the binary signal; A drive unit 61 for driving the spindle motor M for rotationally driving the optical pickup 20 and the optical disc 10; A servo unit 60 controlling driving of the drive unit 61 from a tracking error signal T.E and a focus error signal F.E of the optical pickup 20 and a rotation speed of the optical disc 10; Recording history information such as target beta (/ target gamma) and target power by each disc manufacturer (by disc code), each recording speed, and optimum power detected by OPC operation, reflectance, temperature, recording speed, and recording frequency EEPROM 71 is stored; And determining whether to perform OPC from the information stored in the EEPROM 71, performing an OPC operation according to the determination result, and storing the microcomputer 70 storing information according to the OPC operation in the EEPROM 71. It is configured to include.

FIG. 2 is a flowchart illustrating a method of performing an OPC of an optical disk apparatus according to the present invention. Hereinafter, the method of performing the OPC of FIG. 2 according to the present invention will be described in detail with reference to the configuration of the apparatus of FIG. 1. do.

First, in the EEPROM 71, a target beta (/ target gamma) value and a target power (Ptarget) for optimal power detection through OPC operation are stored for each manufacturer (by disc code), and recorded according to the present invention. History information, that is, each time OPC operation is performed, the optimum power detected through the OPC operation, the reflectance on the blank, the recording environment (temperature, humidity, etc.), the recording speed, the recording frequency (= OPC number of times, Each time the OPC operation is performed, the value is increased by 1), and the like is additionally stored in association with the corresponding disk code. The microcomputer 70 records a predetermined number of times (for example, five times) from the recording history information. If the capacity of the EEPROM 71 is insufficient due to the storage of the recording history information, the microcomputer 70 deletes predetermined information from the stored information in the oldest order. To be Used, it will be described in detail below for the storage and use of the write history information.

In this state, when the optical disc 10 is inserted and mounted (S10), the microcomputer 70 determines the manufacturer (disk code) of the optical disk 10 (S11). ) Detects the start time of the lead-out area from the TOC (Table Of Contents) information recorded in the lead-in area of the optical disc 10, and determines the manufacturer of the optical disc 10 therefrom. In this case, since the start time of the lead-out area is different for each disc manufacturer as the lead-out area is a signal area indicating the end of the program, the microcomputer 70 can easily determine the manufacturer of the optical disc 10 from this. Will be.

When the disc manufacturer is determined, the microcomputer 70 searches the EEPROM 71 to determine whether there is an optimal power previously detected and stored for the determined disc manufacturer (S12). To determine whether the OPC operation has been previously performed for the disc manufacturer, that is, the optical disc having the same code as the disc code.

As a result of the check, if there is no previously detected and stored optimal power, the microcomputer 70 determines that the OPC operation has not been previously performed on the optical disc having the same code as the determined disc code, and performs the OPC operation. The OPC operation will be described below.

On the other hand, if there is an optimum power detected and stored (S20), the microcomputer 70 determines whether to perform OPC with reference to the recording history information stored in association with the determined disk code (S21). Although the optimal power is detected and stored for the disc code, there is a problem in the previous recording, or the optimal power stored in the recording is changed due to the change of the recording environment or the medium. If not can be considered.

In order to finally determine whether or not to perform OPC, the microcomputer 70 first checks the number of recordings from the recording history information and checks whether the number of recordings is equal to or more than a predetermined number (five times) and three values are equal among the optimum powers. If the same, the reflectance detected from the blank surface of the optical disk 10 and the set temperature, humidity, recording speed, etc., the reflectance in the recording history information, the set temperature, humidity, recording speed, etc. In the same case, the microcomputer 70 determines that the OPC operation is not necessary.

In this way, if it is determined that the OPC operation is not necessary, the microcomputer 70 skips the OPC operation for the optical disc 10 (S22), and optimizes the optimum power stored in association with the determined disc code. In this case, the requested recording operation is performed. In this case, the optimal power is selected by applying the same three power values among the optimum powers detected and stored by the same disk code.

On the other hand, if it is determined that the OPC operation is required, the microcomputer 70 performs the OPC operation in the test area in the PCA (Power Calibration Area) area of the optical disc 10, the following OPC operation process with reference to FIG. It will be described in detail.

First, the microcomputer 70 detects target power stored in association with the determined optical disc code and OPC recording speed from the EEPROM 71, and based on the detected target power Ptarget (for example, 8 mW). An adjustment signal for changing the recording power by a predetermined predetermined magnitude ΔP is applied to the optical driver 41.

Accordingly, the optical driver 41 outputs a recording signal for test data at an optical driving power corresponding to the applied control signal, and accordingly, the optical pickup 20 records the test data in the test area. The recording signal for the test data is an EFM modulation 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 as a standard speed (1x speed)). In general, 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 form 15 partitions for 15 frames. Record with the recording power of step.

When recording of the test data is completed, the microcomputer 70 controls the optical pickup 20 to sequentially read the recorded test data, and sequentially reads the test data from the R / F unit 50. The beta (β) value is detected from the outputted reproduction RF signal. The beta value is a value representing asymmetry of the reproduction RF signal.

When the beta value detection is completed, the microcomputer 70 fits a function of the curve by each recording power obtained the detected beta value, and then the curve obtained as described above and the corresponding target detected from the EEPROM 71. The optimal power is detected from the beta value (S30).

When the optimum power is detected through the OPC operation as described above, the microcomputer 70 stores the detected optimal power together with the determined disk code in the EEPROM 71 (S31). In this case, the recording history information As a result, the current set temperature and humidity, recording speed, recording frequency, reflectance, etc. are stored together so that they can be used as a criterion when determining whether to perform OPC later.

After completion of the OPC operation, the microcomputer 70 performs the requested recording operation by applying the optimum power detected through the OPC operation (S32).

Meanwhile, the above-described method of performing OPC according to the present invention can also be applied to a multisession disc.

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.

In the OPC performing method of the optical disk device according to the present invention as described above, the optimal power detected according to the OPC performance, the corresponding disk code, and recording history information such as recording speed and recording frequency, and selectively skips the OPC operation. By performing the recording operation with reference to the previous recording history information, it is a very useful invention that the recording operation is made more quickly.

1 is a block diagram of an optical disk apparatus in which an OPC performing method according to the present invention is implemented.

2 is a flowchart illustrating an embodiment of a method of performing an OPC of an optical disk device according to the present invention;

3 shows an example of a power scan according to the OPC operation.

※ Explanation of code for main part of drawing

10: optical disc 20: optical pickup

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

40: channel bit encoder 41: optical driver

50: R / F section 60: servo section

61 drive unit 70 microcomputer

71: EEPROM

Claims (8)

A first step of determining a manufacturer of an inserted optical disc; A second step of determining whether an OPC operation has been previously performed on the determined optical disc of the manufacturer; And And a third step of determining whether or not to skip the OPC operation with reference to previously detected and stored record history information whenever the OPC operation is performed as a result of the determination. The method of claim 1, And a fourth step of skipping an OPC operation according to the determination result and performing a requested recording operation with reference to the previously stored recording history information. The method of claim 1, The second step is performed by confirming whether or not the optimum power for the determined manufacturer is stored in advance. The method of claim 1, The recording history information includes the number of OPCs performed by each disc manufacturer and the optimum power detected thereby. The method of claim 4, wherein In the third step, the OPC operation method of the optical disc apparatus, characterized in that to check the number of times of recording from the record history information and to skip the OPC operation when the number of times of recording is more than a predetermined number of times. The method of claim 1, Performing an OPC operation according to the determination result, and performing OPC operation of the optical disc apparatus including a fourth step of storing, in association with the disc manufacturer, recording history information including the optimum power detected according to the OPC operation. Way. The method of claim 1, The recording history information includes a recording speed, recording frequency, recording environment, and reflectance from a blank surface for each disc manufacturer. The method of claim 1, And the optical disc is a multisession optical disc.