KR200145225Y1 - Compatible optical pickup device - Google Patents

Abstract

Disclosed is a compatible optical pickup apparatus capable of interchangeably adopting a disc having a different thickness as a recording medium.

The compatible optical pickup apparatus includes a light source; Optical path converting means for converting the advancing path of the incident light; A grating disposed on an optical path between the light source and the optical path converting means to diffract and transmit incident light; An objective lens disposed on an optical path between the optical path converting means and the recording medium to converge the incident light to form an optical spot on the recording medium; A light control unit formed on at least one surface of the objective lens to control light of an intermediate region of the objective lens; A compatible optical pickup apparatus, which includes a photodetector which is reflected from a recording medium and receives light through an objective lens and an optical path converting means and detects an error signal and an information signal. It is characterized in that it further comprises a pinhole is disposed on the optical path of the limiting the passing portion of the light incident from the recording medium side.

Description

Compatible Optical Pickup Device

The present invention relates to a compatible optical pickup device that can be used to compatible disks of different thickness as a recording medium, and more particularly to a compatible optical pickup device that can reduce the optical interference of the light received by the photodetector. .

In general, an optical pickup device is employed in a compact disc player (CDP), a digital video disc player (DVDP), or the like to record / reproduce information on a recording medium in a non-contact manner.

DVDP is attracting attention in the field of video / audio as a device capable of high-density recording / playback. The optical pickup apparatus employed in this DVDP should be capable of recording / reproducing information even when a compact disc (CD) or CD-ROM is employed as well as a digital video disc (DVD) as a recording medium.

However, the thickness of the DVD has been standardized to a different specification from the thickness of the CD or CD-ROM due to mechanical disc tilt tolerance and objective lens numerical aperture. In other words, the thickness of the conventional CD is 1.2mm, while the DVD is 0.6mm.

As described above, when the optical pickup device for DVD is applied to a CD because the thicknesses of the CD and the DVD are different from each other, spherical aberration occurs due to the thickness difference. This spherical aberration causes a problem of failing to obtain sufficient light intensity for recording the information signal or deterioration of the signal during reproduction.

In order to solve such a problem, the present applicant has proposed an objective lens device and an optical pickup device employing the objective lens device through Korean Patent Application No. 95-31679.

The objective lens device proposed by the present applicant blocks or shields the light in the intermediate region around the optical progress center axis, that is, between the paraxial region where spherical aberration hardly occurs and the circular region surrounding the paraxial region. A light spot having a small size of ambient light whose interference effect of light in the region is suppressed is formed.

To this end, as shown in FIGS. 1 and 2, the light control means for blocking or scattering the light 122 incident to the intermediate region located between the paraxial region and the circular region among the incident light 120 is provided. FIG. 1 includes a transparent member 110 formed at a position spaced a predetermined distance from the objective lens 100 by the light control means and having a control film 111 for blocking or scattering light 122 incident to an intermediate region. An example is shown. FIG. 2 shows an example in which a light control groove 111 'is formed to scatter light 122 incident on the objective lens 100' into the intermediate region as the light control means.

This is based on the fact that the light 121 incident to the paraxial region hardly affects the central light, and the light 123 incident on the paraxial region affects the central light.

Here, the paraxial region means a region around the lens central axis (optical axis) having spherical aberration that can be practically ignored, and the circular axis region means a region relatively far from the optical axis than the paraxial region, In addition, the intermediate region means a region between the paraxial region and the circular region.

3 is a schematic view showing one embodiment of the optical pickup apparatus proposed by the applicant.

This optical pickup device employs a transparent member 110 having the control film 111 described with reference to FIG. 1. Therefore, the light emitted from the light source 150 passes through the beam splitter 140 and is incident on the objective lens 100 by the collimating lens 130 in parallel with the optical axis. At this time, only light 121 and 123 incident to the paraxial region and the axial region by the light control layer 111 formed on the transparent member 110 are directed to the objective lens 100 and converged by the objective lens 100. Thus, light spots are formed at different positions so that the discs 10 having different thicknesses, for example, CDs and DVDs, are compatible.

Light reflected from the disk 10 and passed through the objective lens 100, the collimating lens 130, and the beam splitter 140 is received by the photodetector 170. The photodetector 170 includes at least four partition plates, and the values received by the partition plates and converted into electrical signals are used as error signals and information signals. Here, the converging lens 160 is provided between the beam splitter 140 and the photodetector 170.

4 is a schematic view showing another form of the optical pickup device proposed by the applicant.

This optical pickup device is characterized in that it employs an objective lens 100 'formed with the light control groove 111' described with reference to FIG. 2 so that the light 122 incident to the intermediate region is blocked or scattered. Members that are not the same or the same as those having the same reference numerals described in FIG.

In the optical pickup device provided as described above, further comprising a grating 180 to diffract and transmit incident light to 0th order light, ± 1st order light, ± 2nd order light ... on the optical path between the light source and the beam splitter. 5 and 6 show light shapes formed on the photodetector 170 in the case of detecting the track error signal by the three-beam method. FIG. 5 shows an optical shape formed on a photodetector when a DVD is used as a recording medium, and FIG. 6 shows an optical shape formed on a photodetector when a CD is used as a recording medium.

As shown in FIG. 5, when the DVD is adopted, there is almost no interference between the zero-order light 181 and the ± first-order light 182 and 183, so that there is almost no signal interference problem.

On the other hand, as shown in FIG. 6, when the CD is adopted, the zero order light 181 used for signal reproduction of the disk interferes with the ± first order light 182 and 183 due to aberration caused by the difference in the thickness of the disk. Receive. As a result, noise is generated during signal reproduction, resulting in deterioration of signal characteristics.

Accordingly, an object of the present invention is to provide a compatible optical pickup device capable of reducing optical interference of light received by a photodetector, in view of the above.

1 is a schematic view showing an optical arrangement according to one aspect of the objective lens device proposed by the applicant.

2 is a schematic view showing an optical arrangement according to another form of the objective lens device proposed by the applicant.

3 is a schematic view showing an optical arrangement of one embodiment of the optical pickup device employing the objective lens device of FIG.

4 is a schematic view showing an optical arrangement according to another form of the optical pickup device employing the objective lens device of FIG.

Fig. 5 is a schematic diagram showing the optical shape formed on the photodetectors shown in Figs. 3 and 4 when DVD is used as the recording medium.

Fig. 6 is a schematic diagram showing the optical shape formed on the photodetectors shown in Figs. 3 and 4 when CD is used as the recording medium.

7 is a schematic diagram showing an optical arrangement of a compatible optical pickup device according to an embodiment of the present invention.

8 is a schematic view showing the optical shape formed on the photodetector of the present invention when DVD is employed as the recording medium.

Fig. 9 is a schematic diagram showing the optical shape formed on the photodetector of the present invention when CD is used as the recording medium.

Explanation of symbols for main parts of the drawings

10 Recording medium 100 Objective lens 120 Optical control unit

130 ... collimating lens 140 ... light path conversion means 150 ... light source

160 ... Focus lens 170 ... Photodetector 180 ... Pinhole

Compatible optical pickup device according to the present invention for achieving the above object, the light source; Optical path converting means for converting the advancing path of the incident light; A grating disposed on an optical path between the light source and the optical path converting means to diffract and transmit incident light; An objective lens disposed on an optical path between the optical path converting means and the recording medium to converge the incident light to form an optical spot on the recording medium; A light control unit formed on at least one surface of the objective lens to control light of an intermediate region of the objective lens; 10. A compatible optical pickup apparatus, comprising a photodetector which is reflected from the recording medium and receives light through the objective lens and the optical path converting means and detects an error signal and an information signal. And a pinhole disposed on an optical path between the photodetector and limiting a passage portion of the light incident from the recording medium.

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

As shown in FIG. 7, the compatible optical pickup apparatus according to an exemplary embodiment of the present invention includes a light source 150, a grating 180 diffracting the light emitted from the light source 150, and a path of incident light. The optical path converting means 140 for changing, the objective lens 100 for focusing the incident light to form a light spot on the recording medium 10, and formed on at least one surface of the objective lens 100. An optical control unit 120 for controlling light of an intermediate region of the light emitting unit; and a photodetector for receiving information reflected from the recording medium 10 and passing through the optical path converting unit 140 to detect an information signal and an error signal ( And a pinhole 190 disposed on the optical path between the optical path converting means 140 and the photodetector 170. A semiconductor laser emitting short wavelength light of approximately 650 nanometers is employed as the light source 150. The grating 180 diffracts incident light into at least three beams, that is, zero-order light and ± 1-order light. Here, 0th order light is used for information signal detection, and ± 1st order light is used for tracking error signal detection by the three beam method.

The light path converting means 140 converts the traveling path of the incident light so that the traveling path of the light incident from the light source 150 is different from the traveling path of the light incident from the recording medium 10. The optical path converting means 140 is preferably a polarizing beam splitter that transmits or reflects according to the polarization component of the incident light. It may be an element.

As described above, since the light control unit 120 is substantially the same as the light control means disclosed in Korean Patent Application No. 95-31679 filed by the present applicant, a detailed description thereof will be omitted. The photodetector 170 includes at least two split plates and receives incident light to detect information signals and error signals.

The pinhole 190 is disposed on an optical path between the optical path converting means 140 and the photodetector 170 to limit a passage portion of light incident from the recording medium 10. The pinhole 190 has a diameter of approximately 1 mm, blocks light of ± 2 degree or more light diffracted by the grating 180, and passes 0 degree light and ± 1 degree light. Therefore, when the CD is used as the recording medium 10, the beam shape due to the optical interference as shown in FIG. 6 can be excluded from the optical signal received by the photodetector 170. Compatible optical pickup device according to an embodiment of the present invention is a collimating lens 130 for converting the divergent light incident on the optical path between the optical path conversion means 140 and the objective lens 100 into parallel light Further, it is preferable to further include a converging lens 160 to cause astigmatism on the optical path between the pinhole 190 and the photodetector 170.

8 shows an optical shape formed on the photodetector 170 when a DVD is played by a compatible optical pickup apparatus according to the present invention, and FIG. 9 illustrates an optical form formed on the photodetector 170 when playing a CD. It is an optical shape. Looking at each of the two figures, the 0-order light 181 and the ± 1-order light 182, 183 is formed to distinguish the photodetector.

Therefore, the compatible optical pickup apparatus according to the present invention configured as described above can effectively exclude optical interference between zero-order light and ± 1-order light received by the photodetector.

Claims (4)

A light source; Optical path converting means for converting the advancing path of the incident light; A grating disposed on an optical path between the light source and the optical path converting means to diffract incident light; An objective lens disposed on an optical path between the optical path converting means and the recording medium to converge the incident light to form an optical spot on the recording medium; A light control unit formed on at least one surface of the objective lens to control light of an intermediate region of the objective lens; A compatible optical pickup apparatus comprising a photodetector which is reflected from the recording medium and receives light through the objective lens and the optical path converting means to detect an error signal and an information signal. And a pinhole disposed on an optical path between the optical path converting means and the photodetector to limit a passage portion of light incident from the recording medium. The compatible optical pickup apparatus of claim 1, further comprising a collimating lens arranged on the optical path between the optical path converting means and the objective lens to convert incident divergent light into parallel light. The compatible optical pickup apparatus of claim 1 or 2, further comprising a sensor lens disposed on an optical path between the pinhole and the photodetector to cause astigmatism. The compatible optical pickup apparatus of claim 1, wherein the optical path converting means is a planar beam splitter configured to transmit light of one polarization linearly and reflect light of another polarization.