KR100312616B1 - How to adjust optical power of optical recorder - Google Patents

Abstract

The present invention not only variably adjusts the reproduction optical power so that the level value of the reproduced high frequency signal coincides with a predetermined reference value when reproducing the recording signal recorded on the optical recording medium, and adjusts the reference value according to the type of the optical recording medium. An optical power adjusting method of an optical recording / reproducing apparatus for variable setting, comprising: a first step of reproducing a recording signal recorded on an optical recording medium; And a second step of variably adjusting the reproducing optical power of the first step according to the level of the reproduced signal, so that an optimal optical power is applied when reproducing the inserted optical record carrier. .

Description

Optical power control method of optical recorder

The present invention relates to a method for adjusting reproduction optical power when reproducing a recording signal from an optical recording medium, and more particularly, a level value of the high frequency signal to be reproduced when reproducing a recording signal recorded on an optical recording medium is a predetermined reference value. The optical recording and reproducing apparatus not only variably adjusts the reproducing optical power to coincide with, but also adjusts the reference value according to the type of the optical recording medium so that the reproducing optical power applied to the optical recording medium can be adjusted to an optimal size. It relates to an optical power control method of.

The conventional optical record carrier includes: an LD driver 10 for driving a laser diode (LD) as shown in FIG. 1; An optical pick-up (11) for reading a recording signal by injecting a light beam output from the photodiode (LD) driven by the LD driver (10) onto the recording surface of the optical recording medium; An R / F unit 30 for filtering the high frequency analog signal read out and input; An A / D converter 40 for converting a focus error signal output from the optical pickup 11 into digital data; A memory (60) for storing the converted digital data; A microcomputer 50 for determining the type of the optical recording medium based on the stored digital data; And a servo unit 20 for moving the optical pickup 11 under the control of the microcomputer 50 and adjusting the tracking and focusing of the optical pickup 11 from the tracking error TE and the focus error FE. ) Is configured to include.

In the conventional optical recording medium player configured as described above, the optical power adjusting method of the optical recording and reproducing apparatus is performed as follows.

First, the microcomputer 50 controls the servo unit 20 so that the objective lens (focusing lens) of the optical pickup 11 can detect any type of optical recording medium recording pit. A focusing actuator (not shown) installed in the optical pickup 11 is driven to move vertically upward to L3). Accordingly, the optical pickup 11 injects the light generated by the photodiode LD into the optical recording medium through the objective lens while the objective lens moves to the proximal position L3, thereby pitting the optical recording medium. Detects the optical signal reflected from the plane where the pit is arranged and converts it into an electrical signal. The R / F unit 30 filters the electrical high frequency signal and outputs it as a clean signal.

The A / D converter 40 converts a focus error signal output from the optical pickup 11 into digital data while the objective lens of the optical pickup 11 approaches the disk surface, and the microcomputer 50 converts the digital error into the digital data. The converted digital data is stored in the memory 60. After the objective lens of the optical pickup 11 is moved to the proximal position L3, the microcomputer 50 reads digital data stored in the memory 60 to calculate the peak-to-peak voltage of the focus error signal. The type of the optical record carrier is determined based on the calculated value.

Since the peak-to-peak voltage of the focus error signal detected from the actual DVD and the CD is about 2.0V _pp and the CD is about 1.0V _pp , the difference is about twice, so the microcomputer 50 calculates the calculated peak-to-peak voltage. If the value is 1.5V _pp or more, the seated optical recording medium is discriminated to be DVD, and if it is 1.5V _pp or less, it is discriminated to be CD.

After the determination of the optical recording medium as described above, the microcomputer 50 reads the optical driving voltage value corresponding to the determined type from the internal memory and applies it to the LD driver 10. Accordingly, the LD driver 10 applies 1.9V when the determined optical record medium is CD, and 2.0V when it is a DVD, to the photodiode LD, thereby providing the type of optical record medium (CD or DVD). As a result, the reproduction optical power by the photodiode LD is variably adjusted.

As described above, the reproduction optical power of the photodiode LD is variably set according to the type (CD or DVD) of the optical recording medium, and the peak-to-peak voltage value of the high frequency signal reproduced by the optical pickup 11 is an appropriate value (optical The type of the recording medium is maintained at 1.2V _pp for CD and 2V _{pp for} DVD to enable normal signal processing of the reproduction signal.

However, as the technology related to the optical recording medium has recently diversified, the types of optical recording media classified into the CD series and the DVD series have been further subdivided as shown in FIG. 2, and even among optical recording media of the same series The optical characteristics of each of the record carriers are different.

Therefore, as described above, if the reproduction optical power of the photodiode LD is variably set depending on whether the type of the optical recording medium is a CD or a DVD, the optical pickup 11 according to the optical recording media shown in FIG. Has caused a problem that the reproduction signal outputted by the "

Accordingly, the present invention has been made to solve the above problems, and to provide an optical power adjusting method of an optical recording and reproducing apparatus to adjust the reproducing optical power according to a level value of a high frequency signal reproduced from an optical recording medium. The purpose is.

1 is a block diagram of a device to which an optical power adjusting method of a conventional optical recording / reproducing apparatus is applied.

2 is a diagram showing the types of optical recording media currently being commercialized.

3 is a block diagram of an apparatus to which an optical power adjusting method of an optical recording and reproducing apparatus according to the present invention is applied.

4 is a flowchart of an embodiment of an optical power adjusting method of an optical recording and reproducing apparatus according to the present invention;

5 is a flowchart of another embodiment of an optical power adjusting method of the optical recording and reproducing apparatus according to the present invention.

※ Explanation of code for main part of drawing

10: LD (Laser Diode) Driver 11: Optical Pickup

20: servo unit 30: RF unit

40,41: A / D converter 50: MICOM

60,61: memory 70: drive part

An optical power adjusting method of an optical recording and reproducing apparatus according to the present invention for achieving the above object comprises the steps of: reproducing a recording signal recorded on an optical recording medium; And a second step of variably adjusting the reproduction optical power of the first step according to the level of the reproduced signal.

In addition, the optical power adjusting method of the optical recording and reproducing apparatus according to the present invention comprises: a first step of determining the type of the inserted optical recording medium; Reproducing a recording signal recorded on the optical recording medium; A third step of checking whether or not the level of the reproduced signal matches the reproduced signal reference level that is variably set based on the type of optical recording medium determined in the first step; And a fourth step of variably adjusting the reproduction optical power of the second step according to the confirmation result.

The optical power adjusting method of the optical recording / reproducing apparatus according to the present invention as described above detects the level of the signal to be reproduced while reproducing a signal recorded on an inserted optical recording medium by optical pickup, and detects the detected signal. According to the level, the optical power of the reproduction optical pickup is variably adjusted.

Further, first, the type of the inserted optical recording medium is determined, and the reproduction signal reference level is variably set according to the determined result. Subsequently, when the recording signal is reproduced from the inserted optical recording medium, it is checked whether or not the level of the reproduction signal matches the reproduction signal reference level set differently according to the type of the optical recording medium. The optical power of the optical pickup is variably adjusted.

Best Mode for Carrying Out the Invention A preferred embodiment of the optical power adjusting method of the optical recording and reproducing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of a device to which a preferred embodiment of the optical power adjusting method of the optical recording and reproducing apparatus according to the present invention is applied. In addition to the same components as in FIG. 1, the high frequency signal filtered by the RF unit 30 is applied. A second A / D converter 41 for converting into digital data; And a second memory 61 in which the reproduction signal reference level set by the microcomputer 500 is stored, and the microcomputer 500 of the present embodiment is converted through the second A / D converter 41. The level of the input high frequency data is compared with the reproduction signal reference level stored in the second memory 61, and the reproduction optical power data applied to the LD driver 10 is variably adjusted according to the comparison result.

Hereinafter, with reference to the apparatus of FIG. 3 configured as described above, FIG. 4 which is a flow of an embodiment of the optical power adjusting method of the optical recording and reproducing apparatus according to the present invention will be described in detail.

First, when the optical recording medium is seated (S41), the microcomputer 500 applies the reference optical power data to the LD driver 10 to drive the photodiode LD of the optical pickup 11 by the LD driver 10. (S42). The light beam generated by the photodiode LD is reflected by the optical recording medium and then converted into an electrical signal by the optical pickup 11 (S43).

The RF signal, which is the electrical signal output by the photoelectric conversion, is inputted to the RF unit 30 and then filtered through the second A / D converter 41 to form digital data (S44). 500 detects the peak-to-peak voltage value of the high-frequency data converted into the digital data (S45), and then reads the detected peak-to-peak voltage value from the second memory 61 (for example, the reproduction signal reference level). , 2V _pp ) (S46).

As a result of the comparison, when the peak-to-peak voltage value of the high frequency data detected and converted from the optical recording medium is smaller than the reproduction signal reference level (for example, 2V _pp ) (S47), the microcomputer 500 may be configured to operate the LD driver 10. ) By increasing the optical power data value applied to the photodiode by a predetermined value to the LD driver 10 to increase the driving voltage value applied by the LD driver 10 to the photodiode LD. The regenerated optical power value generated in the R <'> On the contrary, when the peak-to-peak voltage value of the high frequency data is greater than the reference level (for example, 2V _pp ), the microcomputer 500 lowers the optical power data value applied to the LD driver 10 by a predetermined value. The regenerative optical power value generated in the photodiode LD is adjusted by lowering and adjusting the voltage by applying it to the LD driver 10 and increasing the driving voltage value applied to the photodiode LD by the LD driver 10. (S48). Subsequently, the process returns to step S42 described above and the control of step S42 or less until the peak-to-peak voltage value of the RF signal input from the RF unit 30 becomes equal to the reproduction signal reference level (for example, 2V _pp ). The operation will be repeated.

Next, a flowchart of FIG. 5 which is another embodiment of the optical power adjusting method of the optical recording / reproducing apparatus according to the present invention will be described in detail.

First, when the optical recording medium is inserted and seated (S51), the microcomputer 500 sequentially reads data corresponding to the positions of L1, L2, and L3 previously stored in the internal memory, and outputs the data to the servo unit 20. The servo unit 20 converts the input data into a focusing actuator driving voltage and applies the focusing actuator to an unshown focusing actuator of the optical pickup 11. Accordingly, the objective lens (focusing lens) of the optical pickup 11 is moved to the corresponding positions L1, L2, and L3 according to the applied voltage value, and the optical pickup 11 is mounted on the optical recording medium. The reflected optical signal is converted into a high frequency electric signal and output. In addition, the focus error signal output from the optical pickup 11 is converted into digital data through the same process as described above, and then sequentially stored in the memory 60.

The microcomputer 500 searches for digital data stored in the memory 60 according to the corresponding positions L1, L2, and L3, and when the value of the noise level or more is detected only at the position of L1, the optical record settled at this time. The type of medium is determined as a normal DVD, and when a signal having an effective size is detected only at the position of L2, the CD is detected. And DVD dual layer) (S52).

Subsequently, when the optical recording medium currently inserted is determined as a DVD dual layer by the above-described process, the microcomputer 500 stores a reproduction signal reference level value corresponding to the type of the determined optical recording medium as a memory ( In step 61, the reproduction signal reference level value corresponding to the case where the optical recording medium is a DVD dual layer is 1.89V _pp (S53).

After reading and setting the reproduction signal reference level value from the memory 61 based on the type of the optical recording medium inserted as described above, the microcomputer 500 performs the optical pickup 11 in the same manner as in the above-described example. The reproducing optical power of the photodiode LD is optimized by varying the driving voltage value to the LD driver 10 until the peak-to-peak voltage value of the high frequency data detected from the digital signal is converted to the set reproduction signal reference level. It will be adjusted to the size of.

In the above step S52, only the example of discriminating the CD, the normal DVD and the DVD dual layer as the type of the optical recording medium for the purpose of simplicity of explanation is explained. However, the method of discriminating the types of all the optical recording media shown in FIG. Is already known. Therefore, in another embodiment of the present invention, the reproduction signal reference level values for all the optical recording media are stored in the memory, the type of the optical recording medium is discriminated, and the reproduction signal reference level values corresponding to the type of the optical recording medium which have been determined. Is read out from the memory and set, and the reproduction optical power of the photodiode LD is variably adjusted until the RF signal output from the RF unit 30 becomes equal to the set reproduction signal reference level value.

In the optical power adjusting method of the optical recording and reproducing apparatus according to the present invention, the reproducing optical power is automatically adjusted based on the level value of the high frequency signal reproduced from the optical recording medium, and the type of the optical recording medium inserted is According to the discriminated and determined result, the optimum reproduction signal reference level is variably set so that the reproduction optical power is automatically adjusted according to the type of optical recording medium, so that the optimum optical power is applied when the inserted optical recording medium is reproduced. It is a useful invention.

Claims (1)

A first step of determining the type of optical recording medium based on the level of the reproduction signal reproduced from the inserted optical recording medium; A second step of reproducing a recording signal recorded on the optical recording medium by setting a reproduction optical power corresponding to the determined type of the optical recording medium; A third step of checking whether or not the level of the reproduced signal matches the reproduction signal reference level set on the basis of the type of optical recording medium determined in the first step; And a fourth step of variably adjusting the reproduction optical power of the second step according to the confirmation result.