KR20040019791A - Compatible optical pick-up and recording and reproducing method of disk - Google Patents

Abstract

PURPOSE: A compatible optical pickup and a method for recording and reproducing a disk are provided to reduce the manufacturing cost of an optical pickup by setting up only a first laser diode to be used for both CD and DVD in writing data. CONSTITUTION: A first laser diode(100) of high output and a second laser diode(110) of low output emit beams different in wavelength. A first optical path converter(120) and a second optical path converter(123) convert a path of each beam emitted from the first laser diode and the second laser diode. An objective lens(129) focuses the beam emitted from the first laser diode or the second laser diode on a CD(Compact Disk)(117) or a DVD(Digital Versatile Disk)(107). A photo detector(130) detects the beam reflected from the CD or the DVD. A compatible optical pickup writes data on the CD and the DVD by the first laser diode, reproduces the data written of the DVD by the first laser diode, and reproduces the data written on the CD by the second laser diode.

Description

Compatible optical pick-up and recording and reproducing method of disk

The present invention relates to a low-cost compatible optical pickup designed to record DVDs and CDs together using a laser diode that irradiates light of a wavelength for DVD, and a method of recording and reproducing data using the optical pickups.

In general, optical discs are widely used as information carriers of optical pickup devices for recording / reproducing information in a non-contact manner, and compact discs (CDs) and digital versatile discs (DVDs) according to information recording capacities. Disc, hereinafter referred to as DVD). Optical discs capable of recording, erasing and playing data include CD-Rs, CD-RWs, DVD-Rs, DVD-RWs, DVD-RAMs, DVD + RWs, and the like. And DVD-ROM.

A compatible optical pickup capable of recording and / or playing back such DVDs and CDs is provided with a DVD laser diode (LD) and a CD laser diode (LD), respectively. However, in order to record data on the disk, a higher power laser diode is required than when the data is reproduced. Therefore, in the recording compatible optical pickup, both high power laser diodes are used as the laser diode for DVD and the laser diode for CD. This is summarized as follows.

When playing When recording DVD LD for DVD High output LD for DVD CD LD for CD High output LD for CD

However, the high output laser diode has a high price, which is a factor in the rise of the manufacturing cost of the optical pickup. In addition, when the monitoring photodetector is provided for each of the DVD and the CD, the manufacturing cost thereof is further increased.

The present invention has been devised in view of the above-mentioned problems, and is manufactured by recording data using a single high-power laser diode for DVD and CD, and reproducing data recorded on CD using a relatively low-power laser diode. It is an object of the present invention to provide a compatible optical pickup having reduced cost and a recording and reproducing method of a disc using the compatible optical pickup.

1 illustrates a compatible optical pickup according to the present invention.

Fig. 2A shows a simulation result of recording a CD-R disc using a laser diode for DVD.

FIG. 2B shows simulation results of recording a CD-R disc using a laser diode for CD.

<Explanation of symbols for main parts of the drawings>

100 ... first laser diode, 110 ... second laser diode

120,123 ... light path converter, 121 ... monitoring photodetector

129.Objective, 107.DVD

117 ... CD, 130 ... photodetector

In order to achieve the above object, a compatible optical pickup according to the present invention comprises: a high power first laser diode and a low power second laser diode for irradiating light of different wavelengths; A first optical path converter and a second optical path converter for converting paths of light emitted from the first and second laser diodes; An objective lens for focusing light emitted from the first laser diode or the second laser diode onto a CD or DVD; A photodetector for detecting light reflected from the CD or DVD; recording data on the CD and DVD by the first laser diode, reproducing the data recorded on the DVD, and outputting the data to the second laser diode. Characterized in that the data recorded on the CD is reproduced.

The first laser diode irradiates light of approximately 650 nm wavelength, and the second laser diode irradiates light of approximately 780 nm wavelength.

Disc recording and reproducing method according to the present invention to achieve the above object, by focusing the light irradiated from the first laser diode of the high power and the second laser diode of low power to irradiate light of different wavelengths to the CD or DVD A method of recording or playing back data on a CD or DVD,

Recording data on the CD or DVD or reproducing the data recorded on the DVD by the high power first laser diode; And reproducing data recorded on the CD by the low power second laser diode.

Hereinafter, a compatible optical pickup according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, a compatible optical pickup apparatus according to the present invention includes a first laser diode 100 of high power and a second laser diode 110 of low power. The first laser diode 100 emits light having a wavelength of approximately 650 nm, and the second laser diode 110 emits light having a wavelength of approximately 780 nm. The light emitted from the first laser diode 100 is partially reflected by the first optical path converter 120, and the remaining light is transmitted. The light reflected by the first optical path converter 120 passes through the second optical path converter 123 and is focused on the DVD 107 or the CD 117 by the objective lens 129. In addition, the light transmitted through the first optical path converter 120 is received by the monitoring photodetector 121. The optical power emitted from the first laser diode 100 is adjusted by the amount of light detected by the monitoring photodetector 121.

The light emitted from the second laser diode 110 is reflected by the second optical path converter 123 and focused on the CD 117 by the objective lens 129. The first and second optical path converters 120 and 123 change a light propagation path by reflecting partial light of the incident light and transmitting the remaining light, for example, a cube beam splitter or a flat beam splitter. Can be. In addition, a reflection mirror 125 and a collimating lens 127 may be further provided on the optical path between the second optical path converter 123 and the disks 107 and 117. The total thickness of the pickup can be reduced by bending the optical path by the reflective mirror 125, and the collimating lens 127 makes incident light into parallel light.

The light emitted from the first laser diode 100 or the second laser diode 110 travels along the optical path as described above and is reflected by the corresponding disks 107 and 117, and then the objective lens 129, first and second optical path converters 120 and 123 are received by the photodetector 130. A converging lens 132 may be further provided between the first optical path converter 120 and the photodetector 130.

In the present invention, the first laser diode 100 is used to record or play data on a disk 107 having a relatively thin thickness, such as a DVD, and data on a disk 117 having a relatively thick thickness, such as a CD. It is set to be used to record. In addition, the second laser diode 110 is set to be used only when playing the CD 117. Therefore, the recording on the DVD 107 and the CD 117 are performed in common by the first laser diode 100, and the second laser diode 110 is used only when reproducing the CD.

In this case, since the first laser diode 100 is designed to be optimally recorded on the DVD, detailed description of the recording performance of the data on the DVD is omitted. However, in recording a CD using the first laser diode 100, the CD may be affected by the wavelength of the first laser diode 100. For example, the case of CD-R that is most sensitive to laser wavelength is as follows. In the case of CD-RW, since data is recorded using a phase change film, the influence of laser wavelength is relatively small, whereas CD-R records using an organic dye film.

For example, the refractive index n and the attenuation coefficient k of the phthalocyanine dye film, which is a dye of CD-R, are as follows. The effect is large, as the wavelength for CD, for example, is changed to n = 2.2, k = 1.1 for the 780 nm wavelength, and for the wavelength for DVD, for example, n = 1.2 and k = 0.5 for the 650 nm wavelength. In addition, the reflectance of the CD-R decreases from 75% in the wavelength for CD to about 5% in the wavelength for DVD. As described above, when data is recorded on the CD using the first laser diode 100, the change in reflectance is large. However, since the reflectance is reduced, the output power of the first laser diode 100 is high, and thus the power of the light passing through the objective lens 129 is high, so that a servo signal capable of writing data to the disk can be obtained. Therefore, it becomes possible to perform recording on the CD using the first laser diode 100.

The simulation result of recording on the CD-R disc using the first laser diode 100 is shown in FIG. 2A. The simulation result of recording on the CD-R disc using the CD laser diode is shown in FIG. 2B. Is shown. In each figure, the upper one shows the on-off pattern as the recording power of the laser diode, and the lower one shows the pit p formed on the disk substrate.

2B shows that data was recorded normally by using a CD laser diode. Comparing FIG. 2B with FIG. 2A, the two simulation results are similar to each other. Thus, the recording can be reliably performed even if the CD-R is written using the first laser diode 100. In addition, it is also possible to record data using the first laser diode 100 on a CD-RW which is relatively less affected by the laser wavelength.

Next, when the CD and DVD are recorded or played back using the DVD laser diode and the CD and DVD are recorded or played back using the CD laser diode 110, the simulation results are summarized as follows. Here, the DVD laser diode represents a laser diode that emits light of the wavelength for DVD, and the CD laser diode represents a laser diode that emits light of the wavelength of CD.

Disc LD for DVD LD for CD play CD ROM △ ◎ R × ◎ RW △ ◎ DVD ROM ◎ O R ◎ × RW / RAM ◎ O record CD R O ◎ RW 0 ◎ DVD R ◎ × RW / RAM ◎ △

※ ( )

According to the table, not only the DVD but also the CD can be recorded by the first laser diode 100 irradiating light having a wavelength for DVD, for example, a 650 nm wavelength, while the CD is reproduced using the first laser diode 100. It can be seen that it is impossible to do. For example, the CD-R reflectance at the wavelength for CD is about 75%, but the CD-R reflectance at the wavelength for DVD is sharply reduced to 5% as described above. In this way, even if the reflectance is abruptly reduced in the disk, recording is possible when the output power is high. On the other hand, when the reflectance is reduced, the amount of light that enters the photodetector is too small to reproduce.

On the other hand, the case where CD is recorded using the 2nd laser diode 110 which irradiates the wavelength for CD, for example, light of 780 nm wavelength can be considered. In this case, however, it is impossible because of the size of the light spot formed on the disk. That is, the DVD disc has a track pitch of 0.74 μm, the CD disc has a 1.6 μm, and the spot size of the second laser diode is larger than the spot size of the first laser diode. It is impossible to record.

In the present invention, since both the CD and the DVD are recorded using the first laser diode 100, only one monitoring photodetector required for the recording laser diode is required. Referring to FIG. 1, a monitoring photodetector 121 for detecting a portion of light emitted from the first laser diode 100 is provided. The optical power of the laser diode can be controlled by adjusting a gain corresponding to the light amount of the first laser diode 100 detected from the monitoring photodetector 121. Thus, in the present invention, by reducing the recording laser diode to one, there is an advantage that the monitoring photodetector can be reduced to one.

As described above, the compatible optical pickup and the method of recording and reproducing a disk using the same according to the present invention include first and second laser diodes for irradiating light of different wavelengths, and the first laser diode is used as a CD and a DVD. It is set to record the data using. Accordingly, only the first laser diode is prepared as the laser diode of high output power, and the remaining second laser diode is prepared as the laser diode of low output power, thereby reducing the manufacturing cost of the optical pickup.

Claims (7)

A high power first laser diode and a low power second laser diode for irradiating light of different wavelengths; A first optical path converter and a second optical path converter for converting paths of light emitted from the first and second laser diodes; An objective lens for focusing light emitted from the first laser diode or the second laser diode onto a CD or DVD; And a photodetector for detecting light reflected from the CD or DVD. And recording data on the CD and DVD by the first laser diode, reproducing the data recorded on the DVD, and reproducing the data recorded on the CD by the second laser diode. The method of claim 1, And a collimating lens is provided on the optical path between the objective lens and the first optical path converter. The method of claim 1, And a monitoring photodetector for detecting the light emitted from the first laser diode and incident through the first optical path converter to control the optical power of the first laser diode. The method according to any one of claims 1 to 3, The first laser diode is irradiated with light of approximately 650nm wavelength, the second laser diode is irradiated with light of approximately 780nm wavelength, compatible optical pickup. A method of concentrating light emitted from a high power first laser diode and a low power second laser diode to irradiate light of different wavelengths onto a CD or DVD to record and reproduce data on a CD or DVD, Recording data on the CD or DVD or reproducing the data recorded on the DVD by the high power first laser diode; Reproducing data recorded on the CD by the low power second laser diode. The method of claim 5, Detecting a portion of the light emitted from the first laser diode by a monitoring photodetector to control the optical power of the first laser diode. The method according to claim 5 or 6, The first laser diode irradiates light of approximately 650 nm wavelength, and the second laser diode irradiates light of approximately 780 nm wavelength.