KR0137246B1 - Optical pick-up device of compact disc player - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pick-up device of a compact disc player, and more particularly, by using astigmatism by beam splitting having a predetermined refractive index in the 0th order, ± 1st order light (3 beam) through a diffraction grating, and a prism. The present invention relates to an optical pickup device of a compact disc player that can compensate for the disadvantage of an unstable settled state.

To this end, a laser diode is installed on an upper side of a second silicon substrate formed on one side of the first silicon substrate having a predetermined shape to generate a laser beam, and has a predetermined inclination surface and is installed at a predetermined distance from the laser diode. An optical pickup device of a compact disc player having a prism for reflecting and reading information on a disc, comprising: a beam split formed on an inclined surface of the prism to generate astigmatism, and arranged between the beam split and a laser diode to block zero light A diffraction grating for generating three beams of ± 1 order light, a reflecting surface formed at the interface between the first silicon substrate and the prism having a predetermined refractive index, and installed on an upper portion of the prism to convert light information through the reflecting surface into an electrical signal It includes a photo detector for converting.

Description

Optical pickup in compact disc players.

1 is a block diagram of an optical pickup device of a conventional compact disc player.

2 is a block diagram of an optical pickup device for a compact disc player according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: laser diode 2: prism

3: photodetector 4: first silicon substrate

4a: second silicon substrate 5: objective lens

6 disc 7 diffraction grating

8: beam split 9: reflection surface

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pick-up device of a compact disc player, and more particularly, by using astigmatism by beam splitting having a predetermined refractive index in the 0th order, ± 1st order light (3 beam) through a diffraction grating, and a prism. The present invention relates to an optical pickup device of a compact disc player that can compensate for the disadvantage of an unstable settled state.

In general, the optical pick-up structure of the compact disc player used is a second silicon substrate 4a is placed on one side of the first silicon substrate 4 having a predetermined shape as shown in FIG. The laser diode 1 which generates a laser beam is provided in the center part of the said 2nd silicon substrate 4a.

In addition, a prism 2 having a predetermined inclined surface 2a and a refractive index is provided on an upper side of the first silicon substrate 4 at a predetermined distance from the laser diode 1, and the prism 2 and the first silicon substrate are provided. On the inclined surface of (4) is arranged a photo detector 3 for converting light information reflected from the disk into an electrical signal. In addition, an objective lens 5 is provided on the inclined surface 2a of the prism 2 to condense a laser beam on the disk 6 surface at a predetermined interval to read recorded optical information.

In the conventional optical pickup, the laser beam 1 emits a laser beam having an oscillation wavelength of 780 nm ± 20 nm, and the laser beam is reflected at a predetermined angle by the inclined surface 2a of the prism 2. The reflected beam is focused through the objective lens 5 to focus on the disk 6 for about 1 μm to read optical information.

In other words, the object lens 5 collects light in the form of an airy disk of about 1 μm and irradiates the signal surface of the disk 6, and the bill returns almost as it is in the absence of the recorded pit 6a. Where there is 6a, the light is diffracted by the pit 6a and out of the field of view of the objective lens 5, which causes only part of the incident light to be returned, thereby generating a light quantity difference in the photodetector 3.

On the other hand, the intensity of light reflected from the disk 6 and returned is modulated by the pit 6a, and the modulated light information is returned through the objective lens 5, which is inclined surface 2a of the prism 2. Is converted into an electrical signal and then demodulated into an original signal by a control circuit (not shown), thereby reproducing the signal recorded on the disc (6). .

The optical pickup device of the conventional compact disc player thus constructed has two sets of optical detectors, which not only increases the price, but also the One Beam method, when the disc is misplaced and tilt occurs. Since the recorded information cannot be read correctly, the reliability of the optical pickup device is deteriorated.

The present invention forms a beam split that generates astigmatism on the inclined surface of the prism to solve the above problems, and between the beam split and the laser diode three beams of zero-order light, ± 1-order light beam (THREE BEAM) By installing a diffraction grating, using astigmatism and 3 beams, the structure of the photo detector can be simplified, and reliability can be improved by accurately reading the information recorded on the disc even when the disc is misplaced and tilt occurs. It is an object of the present invention to provide an optical pickup device for a compact disc player.

The present invention for realizing the above object is a laser diode which is provided on an upper part of a second silicon substrate formed on one side of the first silicon substrate having a predetermined shape and generates a laser beam; An optical pick-up device of a compact disc player having a prism provided at predetermined intervals to reflect a laser beam to read information on a disc, comprising: a beam split formed on an inclined surface of the prism to generate astigmatism, the beam split And a diffraction grating between the laser diode and generating three beams of zero-order light and ± 1-order light, a reflecting surface formed at the interface between the first silicon substrate and the prism, and having a predetermined refractive index. It includes a photo detector for converting light information through the slope into an electrical signal.

Hereinafter, described in detail by the accompanying drawings as follows.

2 is a configuration diagram of an optical pickup device for a compact disc player according to the present invention, in which a second silicon substrate 4a is placed on one side of a first silicon substrate 4 having a predetermined shape, and the second silicon substrate On one side of 4a, a laser diode 1 for generating a laser beam is provided.

In addition, a prism 2 having a predetermined inclined surface 2a is provided at an upper side of the first silicon substrate 4 at a predetermined distance from the laser diode 1, and a disk (at the upper predetermined position of the prism 2). The photodetector 3 which converts the light information reflected from 6) into an electrical signal is arrange | positioned.

In addition, an objective lens 5 is provided on the inclined surface 2a of the prism 2 to condense a laser beam on the disk 6 surface at a predetermined interval to read recorded optical information.

A beam split 8 having a predetermined refractive index and generating astigmatism is formed on the inclined surface 2a of the prism 2, and a laser beam is zero between the beam split 8 and the laser diode 1. A diffraction grating 7 for generating three beams of light shielding and ± 1 light shielding is arranged.

In addition, a reflective surface 9 having a predetermined refractive index is formed at an interface between the first silicon substrate 4 and the prism 2, and light information through the reflective surface 9 is provided on the prism 2. The photodetector 3 which converts into an electrical signal is provided.

According to the present invention, the laser diode 1 is operated by the operation of the optical pickup servo system to emit a laser beam, and the laser beam has a 0, ± 1 order of magnitude through the diffraction grating 7. Separated into light, 0th order light is used for focusing, and ± 1st order light is used for tracking.

Therefore, the light separated for focusing and tracking by the diffraction grating 7 is emitted to the beam split 8 having a constant ratio of reflectance and transmittance, thereby separating incident light into reflected light and transmitted light. By being sent to the objective lens 5, the objective lens 5 focuses the beam, focuses on the disc 6 about 1 μm, and reads the information recorded on the disc.

That is, the objective lens 5 collects in the form of an airy disk of about 1 μm and irradiates the signal surface, which is the pit 6a of the disk 6, and this light is almost intact where there is no pit 6a in which data is recorded. Where there is a pit 6a, the light is diffracted by the pit 6a and out of the field of view of the objective lens 5, so that only a part of the incident light is returned, so that the amount of light in the photodetector 3 is returned. Cause a difference.

Therefore, the modulated light information reflected from the disk 6 and returned through the objective lens 5 generates astigmatism by detecting a focus error by the beam split 8 having a predetermined refractive index n2. This astigmatism is known to be refracted by the reflecting surface 9 having a predetermined refractive index n1 formed at the interface between the first silicon substrate 4 and the prism 2 and sent to the photodetector 3. The RF signal, the focus signal, and the tracking signal are converted into currents, and the converted currents are demodulated and reproduced by the control circuits not shown.

As described above, the present invention forms a beam split that generates astigmatism on the inclined surface of the prism, and generates three beams of zero-order light and ± 1-order light between the beam split and the laser diode. A diffraction grating is installed to simplify the structure of the photodetector by using astigmatism and 3 beams, and to increase the reliability by accurately reading the information recorded on the disc even when the disc is misplaced and tilt occurs. will be.

Claims (2)

A laser diode (1) installed on an upper side of the second silicon substrate (4a) formed on one side of the first silicon substrate (4) having a predetermined shape and generating a laser beam, the laser diode (1) having an inclined surface In the optical pickup device of a compact disc player provided with a prism (2) arranged at predetermined intervals and reflecting a laser beam to read information on the disc (6), A beam split 8 formed on the inclined surface of the prism 2 to generate astigmatism and having a predetermined refractive index n2; A diffraction grating 7 disposed between the beam split 8 and the laser diode 1 for generating three beams of zero order light and ± 1 order light, A reflective surface 9 having a predetermined refractive index n1 formed at the interface between the first silicon substrate 4 and the prism 2, And an optical detector (3) installed above the prism (2) for converting optical information through the reflecting surface (9) into an electrical signal. The method of claim 1, The optical pickup device for a compact disc player, characterized in that the refractive index (n1) of the reflecting surface (9) is set to be larger than the refractive index (n2) of the beam split (8).