KR20050063933A - Method for compensating laser power in optical disc device - Google Patents

Abstract

The present invention relates to a method for compensating optical power in an optical disk device. The present invention relates to a search for an optimal optical power value, detects and confirms a current temperature, and then calculates an optical power compensation value corresponding to the identified current temperature. Searched through an optimal optical power search (OPC) operation in an optical disc device such as a DVD recorder or a DVD driver by searching for and reading from a memory in the memory and compensating the searched optimal optical power value with the read optical power compensation value. It is a very useful invention that any optimal optical power value can be compensated to an appropriate value according to the temperature change, so that an error occurrence in data reproduction or recording operation can be efficiently prevented.

Description

Compensation method for optical power in optical disc device {Method for compensating laser power in optical disc device}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for compensating optical power in an optical disk device. For example, in an optical disk device such as a DVD-recorder or a DVD-driver, an optimum optical power search (OPC) is provided. The optical power compensation method in the optical disk device for compensating any optimal optical power value searched through the) operation to an appropriate value according to the temperature change.

Recently, optical disc devices, such as DVD recorders or DVD drivers, which can record, store, or read / reproduce high-definition video data and high-quality audio data for a long time, have been developed and commercialized.

On the other hand, in the optical disk apparatus, when an optical disk such as a rewritable DVD-RW is inserted into the apparatus, navigation information in which a lead-in area or the like of the optical disk is recorded is recorded. Will be read and stored in memory.

In the optical disk apparatus, when a user requests a data reproduction or recording operation, the laser diode included in the optical pickup is driven to an optimal laser power value for the data reproduction or recording operation. To perform a series of optimal optical power search (OPC) operation.

Then, the laser diode emits light using any optimal optical power value searched by the optimum optical power search (OPC) operation, so that data recorded on the optical disk is normally read and reproduced, or external input data is read to the optical disk. The record can be saved normally.

However, even when the laser diode emits light using the optimal optical power value searched through the OPC operation as described above, the optical power of the laser diode may vary according to the current temperature change. For example, when the current temperature is lower than the reference temperature range (eg, 5 ° C. to 25 ° C.) when the optical disc device is manufactured, the optical power level substantially emitted from the laser diode is lowered. In the case where the reference temperature is higher than the reference temperature range, since the optical power level substantially emitted from the laser diode is increased, an error occurs in the data reproduction or recording operation of the optical disc.

Accordingly, the present invention was devised to solve the above problems, and after storing the optical power compensation value according to the temperature change in the nonvolatile memory in advance, it corresponds to the current temperature during the optimal optical power search (OPC) operation. It is an object of the present invention to provide an optical power compensation method in an optical disc apparatus for performing optical power compensation according to a temperature change by searching for and reading an arbitrary optical power compensation value, and compensating an optimal optical power value. will be.

The optical power compensation method in the optical disk apparatus according to the present invention for achieving the above object, a step of detecting and confirming the current temperature in combination with the search for the optimum optical power value; Searching and reading an optical power compensation value corresponding to the identified current temperature in a memory in the device; And compensating for the searched optimal optical power value using the read optical power compensation value.

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

First, the optical power compensation method according to the present invention can be applied to various optical disk devices such as a DVD recorder or a DVD driver. For example, an optical pickup device such as a DVD recorder can be used as an optical pickup (see FIG. 1). 11), the reproduction digital signal processing unit 12, the MPEG decoder 13, the recording digital signal processing unit 14, the MPEG encoder 15, the LD driver 16, the microcomputer 17, the memory 18, and the like. Can be configured.

As the memory 18, a nonvolatile memory such as EEPROM may be used, and as shown in FIG. 2, a plurality of optical power compensation values (Laser) according to a temperature change may be used as the nonvolatile memory. Power Compensation Values can be stored as percentages.

In addition, the optical power compensation values may be pre-stored through an experimental result in the process of manufacturing the optical disk device, for example, detected from a temperature detection sensor (not shown) included in the optical pickup 11. When the present temperature is within the third temperature range (Temperature Range 3 = 5 ° C to 25 ° C) set to the reference temperature range, the optical power compensation value is 0%.

When the current temperature is within a preset second temperature range (Temperature Range 2 = 0 ° C to 4 ° C), the optical power compensation value becomes + 5%, and the current temperature is the first preset temperature. When within the temperature range (Temperature Range 1 = -10 ° C to -1 ° C), the optical power compensation value becomes + 10%.

On the other hand, when the current temperature is within the preset fourth temperature range (Temperature Range 4 = 26 ° C to 30 ° C), the optical power compensation value is -5%, and the current temperature is the fifth set in advance. When within the temperature range (Temperature Range 5 = 31 ° C to 40 ° C), the optical power compensation value is -10%.

In addition, when the user requests a data reproducing or recording operation, the microcomputer 17 uses the laser diode LD included in the optical pickup 11 to optimize optical power for laser data reproducing or writing operation. A series of optimal optical power search (OPC) operations are performed to drive at

After the microcomputer 17 detects and confirms the current temperature, the microcomputer 17 searches and reads any optical power compensation value pre-stored in the memory 18 and searches by the optimum optical power search (OPC) operation. Any optimal optical power value is compensated for, which will be described in detail below.

3 is a flowchart illustrating an operation of an optical power compensation method in the optical disk apparatus according to the present invention. As described above, when the microcomputer 17 requests a data reproduction or recording operation, A series of optimal optical power search (OPC) operations are performed to drive the laser diode LD included in the optical pickup 11 to an optimal laser power value for data reproduction or recording operation (S10). ).

When the search is completed at any one optimal optical power value through the optimal optical power search (OPC) operation (S11), the current output from the temperature detection sensor (not shown) included in the optical pickup 11 is performed. After detecting and confirming the temperature (S12), it is determined whether the checked current temperature is within a preset reference temperature range (S13).

For example, in the microcomputer 17, when the checked current temperature is '1 ° C', the microcomputer 17 deviates from '5 ° C to 25 ° C' which is the third temperature range set as the reference temperature range in the memory 18. In addition, the optical power compensation value (-5%) stored in association with the second temperature range '0 ° C to 4 ° C' stored in the memory 18 is searched and read (S14).

In addition, the microcomputer 17 compensates the searched optimal optical power value with the optical power compensation value (-5%) searched and read through the above-described process (S15). When the optimal optical power value is '100', the optical power compensation value (-5%) is applied to compensate the optimal optical power value according to the temperature change to '95', and then the optimal optical power value is adjusted. In operation S16, the laser diode is driven.

Further, since the user performs a data recording or reproducing operation desired (S17), even if a temperature change occurs, the optimum optical power value can be compensated accordingly, so that an error occurs in the data reproducing or recording operation. You can prevent it.

Or more, preferred embodiments of the present invention described above, for the purpose of illustration, those skilled in the art, within the technical spirit and the technical scope of the present invention disclosed in the appended claims below, to further improve various other embodiments Changes, substitutions or additions will be possible.

The optical power compensation method in the optical disk device according to the present invention constructed and constructed as described above, in combination with searching for an optimum optical power value, detects and confirms the present temperature, and then compensates the optical power corresponding to the identified current temperature. Optimal optical power search (OPC) operation in an optical disc device such as a DVD recorder or DVD driver by retrieving a value from a memory in the device and compensating the searched optimal optical power value with the read optical power compensation value. It is a very useful invention that any optimum optical power value searched through can be compensated to an appropriate value according to the temperature change, thereby effectively preventing the occurrence of an error in data reproduction or recording operation.

1 illustrates a configuration of an optical disk device to which the present invention is applied.

2 illustrates an optical power compensation value stored and managed in a memory of an optical disk apparatus to which the present invention is applied.

3 is a flowchart illustrating an operation of an optical power compensation method in the optical disk apparatus according to the present invention.

※ Explanation of code for main part of drawing

10: optical disc 11: optical pickup

12: reproduction digital signal processing unit 13: MPEG decoder

14: recording digital signal processor 15: MPEG encoder

16: LD driver 17: microcomputer

18: memory

Claims (5)

A step of detecting and confirming a current temperature in combination with searching an optimum optical power value; Searching and reading an optical power compensation value corresponding to the identified current temperature in a memory in the device; And And compensating for the searched optimal optical power value by using the read optical power compensation value. The method of claim 1, In the first step, the optical power compensation method of the optical disc apparatus, wherein the optimum optical power value is searched and the current temperature output from the optical pickup provided in the apparatus is detected. The method of claim 1, The memory, the optical power compensation method of the optical disk device, characterized in that the plurality of optical power compensation values according to the temperature change is stored as a percentage (%). The method of claim 1, The optical power compensation value is pre-stored in a nonvolatile memory based on an experimental result in the process of manufacturing the optical disk device. The method of claim 1, And applying the searched optimal optical power value as it is, when the detected current temperature is within a preset reference temperature range.