KR20020066666A - Plate type beam splitter and method for manufacturing it and optical pickup apparatus employing it - Google Patents

Abstract

PURPOSE: A plate type beam splitter, a manufacturing method thereof, and an optical pickup device adopting the same are provided to reduce production error scatter, even when relatively low transmittance is applied, so that a sufficient design margin is secured. CONSTITUTION: In a plate type beam splitter(50), a reflective coating surface(51) is formed in one side of a transparent plate(55). A transmission coating surface(53) has transmittance that partially transmits incident light formed in the other opposite side of the transparent plate. The reflective coating surface is formed with metal coating on one surface of the transparent plate. The transmission coating surface is formed with AR(Anti-Reflection) coating on the opposite side of the transparent plate within the transmittance for partially transmitting the incident light. The transmission coating surface is coated with the transmittance approximately from 50% to 90%. And the plate type beam splitter is formed with desired transmittance by controlling the specification in coating of the transmission coating surface, within the transmittance for partially transmitting the incident light.

Description

Plate type beam splitter and method for manufacturing same and optical pickup apparatus employing the same {Plate type beam splitter and method for manufacturing it and optical pickup apparatus employing it}

The present invention relates to a plate-shaped beam splitter having an improved manufacturing specification error for low transmittance, a manufacturing method thereof, and an optical pickup apparatus employing the same.

In general, an optical pickup apparatus is employed in an optical recording / reproducing apparatus, and records information on a recording medium and / or reproduces information recorded on the recording medium. The optical pickup apparatus includes an optical path changing device for reflecting the light incident from the light source toward the recording medium and transmitting the light reflected from the recording medium to change the traveling path of the incident light toward the photodetector.

The plate-shaped beam splitter used as the optical path changing device in the optical pickup device is manufactured with an appropriate transmittance so that the signal level incident on the photodetector can also be brought within a predetermined condition while maintaining the predetermined level of the optical power delivered to the recording medium.

The conventional plate-shaped beam splitter includes a reflective coating surface for reflecting light incident from the light source side toward the recording medium, and a transmissive coating surface on the opposite side thereof. At this time, the transmissive coating surface is AR (anti-reflection) coating to be 100% transmittance, the overall transmittance of the plate-shaped beam splitter is determined by the control of the coating specifications of the reflective coating surface.

As such, the plate-shaped beam splitter according to the conventional method of determining the transmittance only by adjusting the coating specification of the reflective coating surface has a high fabrication specification error for a relatively low transmittance.

In other words, as the speed of the optical recording / reproducing apparatus such as CD-RW increases, the time for irradiating light to the recording medium per unit time becomes shorter. Therefore, the higher the optical recording / reproducing apparatus, the higher the optical power is required, and the optical power received by the photodetector at this time should be properly maintained in consideration of the saturation of the detection signal. Therefore, the optical pickup device for the high speed optical recording / reproducing apparatus requires a plate-shaped beam splitter having a lower transmittance than when it is relatively low speed. Such low transmittance (eg, target transmittance of 8%) can be obtained by changing the coating conditions of the reflective coating surface.

In consideration of manufacturing cost, mass production, and the like, a plate-type beam splitter is conventionally formed with a manufacturing specification of a target value of ± 2%. The manufacturing specification error (± 2%) is sufficient to obtain an appropriate signal level when the target transmittance of the plate-shaped beam splitter is about 11.6%.

However, when the transmittance of the plate-shaped beam splitter is reduced to 8% by changing only the coating conditions of the reflective coating surface under the same conditions as when the relatively high transmittance (11.6% ± 2%) is obtained, the plate-shaped beam splitter is 8%. Since it has a fabrication specification of ± 2%, it has a relatively large fabrication specification error. Therefore, the plate-shaped beam splitter having a relatively low transmittance formed by the conventional method has a disadvantage in that the signal level detected by the photodetector is increased and the design margin of other optical elements constituting the optical pickup device is reduced.

The present invention has been made in view of the above-described point, plate-type beam splitter and its manufacturing method and the optical path that can ensure a sufficient design margin to reduce the production error distribution even when having a relatively low transmittance It is an object of the present invention to provide an optical pickup device employed as a converter.

1 is a view showing a plate-shaped beam splitter according to the present invention,

2 is a view showing an embodiment of an optical pickup apparatus employing a plate-shaped beam splitter according to the present invention.

<Description of the symbols for the main parts of the drawings>

1 ... Recording medium 10 ... Light source

40 ... objective 50 ... plate beam splitter

51 ... reflective coating side 53 ... transparent coating side

55 ... transparent plate 70 ... photodetector

Plate-type beam splitter according to the present invention for achieving the above object,

A reflective coating surface formed on one side of the transparent plate; And a transmissive coating surface formed to have a transmittance for partially transmitting incident light on the opposite side of the transparent plate.

In order to achieve the above object, the present invention provides a method for manufacturing a plate-shaped beam splitter having a reflective coating surface on one side of the transparent plate and a transmission coating surface on the opposite side of the transparent plate, within the transmittance range for partially transmitting the incident light It is characterized by forming a plate-shaped beam splitter having a desired transmittance by controlling the coating specifications of the transmission coating surface.

In order to achieve the above object, the present invention includes a plate-type beam splitter for reflecting the light incident from the light source toward the recording medium, the plate-type beam splitter for transmitting the light incident from the recording medium toward the photodetector The plate-type beam splitter includes: a reflective coating surface on one side of the transparent plate; And a transmissive coating surface having a transmittance for partially transmitting incident light on the opposite side.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, the plate-shaped beam splitter 50 according to the present invention partially reflects a reflection coating surface 51 formed on one side of the transparent plate 55 and incident light formed on an opposite side of the transparent plate 55. A transmissive coating surface 53 having a transmittance to transmit is provided. In Figure 1, d is the overall thickness of the plate-shaped beam splitter 50.

The thinner reflective coating surface 51 is formed by metal coating one surface of the transparent plate 55. The transmissive coating surface 53 is formed by coating an opposite surface of the transparent plate 55 to an anti-reflection (AR) within a transmittance range that partially transmits incident light. At this time, the transparent coating surface 53 is preferably coated to have a transmittance of approximately 50% to 90%.

The plate-shaped beam splitter 50 according to the present invention as described above is formed at a desired transmittance by controlling the coating specifications of the transmissive coating surface 53 within the transmittance range for partially transmitting the incident light. As in the present invention, the plate-shaped beam splitter 50 formed at a desired transmittance by adjusting the coating specification of the transmissive coating surface 53 has a relatively small manufacturing specification error compared to the prior art.

According to the present invention as described above, by adjusting only the AR coating specifications of the transmissive coating surface 53 of the plate-type beam splitter having a conventional transmittance can lower the overall transmittance to a desired value. Thus, by applying the technique of the present invention, it is possible to replace the conventional commercialized plate-shaped beam splitter into a plate-shaped beam splitter having a low transmittance.

The present inventors have used a plate-shaped beam splitter having a conventional 11.6% ± 2% fabrication specification (total thickness d = 1.2 mm ± 0.05 mm), and the transmittance of the reflective coating surface 51 is coated in a conventional manner. When adjusting only the specification and lowering it to 8%, while the plate-shaped beam splitter has a manufacturing specification of 8% ± 2%, as in the present invention, the coating specification of the transmissive coating surface 53 is adjusted to adjust the transmittance by 8%. In the case of lowering, the plate-shaped beam splitter 50 has a production specification of 8% (+ 1.7%, -1.5%) when AR-coated the transmissive coating surface 53 is 70% ± 2%. Confirmed.

As can be seen from the above, according to the present invention, the transparent coating surface 53 is formed to have a transmittance that partially transmits the incident light, so that a relatively low transmittance is achieved without sacrifice of manufacturing cost and mass productivity. A plate-shaped beam splitter 50 having a low fabrication specification error is obtained.

2 is a view showing an embodiment of an optical pickup apparatus employing a plate-shaped beam splitter 50 according to the present invention.

Referring to the drawings, the light emitted from the light source 10 is reflected on the reflective coating surface 51 of the plate-shaped beam splitter 50 according to the present invention. The reflected light is focused by the objective lens 40 to form light spots on the recording surface of the recording medium 1. The light reflected from the recording medium 1 passes through the objective lens 40 and passes through the plate-shaped beam splitter 50 and is received by the photodetector 70.

The optical pickup apparatus according to an embodiment of the present invention further includes a grating 20 for splitting incident light into three beams between the light source 10 and the plate-shaped beam splitter 50, and a tracking error signal by a three-beam method. It can be provided to detect. In addition, the optical pickup device according to an embodiment of the present invention, the collimating lens 30 for converting the divergent light emitted from the light source 10 between the light source 10 and the objective lens 40 to parallel light It may be further provided. As shown in FIG. 2, when the collimating lens 30 is disposed between the plate type beam splitter 50 and the objective lens 40, the light passing through the plate type beam splitter 50 and directed toward the photodetector 70 is Since it is focused light, a separate focusing lens for focusing light toward the photodetector 70 is unnecessary. On the other hand, as shown in Figure 2, the optical pickup device according to an embodiment of the present invention, astigmatism for generating astigmatism in the light directed to the photodetector 70 to detect the focus error signal by the astigmatism range The lens 60 may be further provided. In FIG. 2, reference numeral 11 denotes a front photodetector, which monitors the amount of light emitted from the light source 10.

The optical pickup apparatus constructed as shown in FIG. 2 is employed in a recordable high-speed optical recording / reproducing apparatus such as a CD-RW, and reproduces and / or records information recorded on the recording medium (1) on the recording medium (1). Record the information.

At this time, the optical pickup apparatus according to the present invention as described above, since the plate-type beam splitter 50 according to the present invention having a low manufacturing specification error for a relatively low transmittance as an optical path converter, the photodetector 70 The scattering error of the signal detected in the E2 is significantly higher than in the related art. In addition, the design margin of other optical elements such as the objective lens is larger than in the prior art. Therefore, the optical pickup apparatus employing the plate-shaped beam splitter 50 according to the present invention can greatly contribute to the low cost of the high speed optical recording / reproducing apparatus.

According to the present invention as described above, by forming the transmission coating surface to have a transmittance that partially transmits the incident light, plate-shaped beam having a lower manufacturing specification error than the conventional without sacrificing manufacturing cost and mass production for low transmittance You can get a splitter. In addition, by applying the technique of the present invention, it is possible to replace the conventional commercialized plate-shaped beam splitter into a plate-shaped beam splitter having a low transmittance. Therefore, in the optical pickup apparatus employing the plate-shaped beam splitter to which the technique of the present invention is applied, the dispersion error of the signal detected by the photodetector is significantly reduced as compared with the conventional one, and sufficient design margin of other optical elements can be ensured.

Claims (7)

A reflective coating surface formed on one side of the transparent plate; And a transmissive coating surface formed to have a transmittance for partially transmitting incident light on the opposite side of the transparent plate. The plate-shaped beam splitter according to claim 1, wherein the transparent coating surface has a transmittance of approximately 50% to 90%. In the method of manufacturing a plate-shaped beam splitter having a reflective coating surface on one side of the transparent plate and a transparent coating surface on the opposite side of the transparent plate, A plate-type beam splitter manufacturing method, characterized by forming a plate-shaped beam splitter having a desired transmittance by controlling a coating specification of the transmissive coating surface within a transmittance range that partially transmits incident light. The method of claim 3, wherein the transmissive coating surface is coated with a transmittance of approximately 50% to 90%. An optical pickup apparatus comprising a plate-shaped beam splitter for reflecting light incident from a light source toward the recording medium, and transmitting light incident from the recording medium toward the photodetector. The plate-type beam splitter, the reflective coating surface on one side of the transparent plate; And a transmissive coating surface having a transmissivity for partially transmitting incident light on the opposite side. The optical pickup apparatus of claim 5, wherein the transmissive coating surface of the plate-shaped beam splitter has a transmittance of approximately 50% to 90%. The optical pickup apparatus of claim 5 or 6, wherein the plate-type beam splitter is formed to have a desired transmittance by controlling the coating specification of the transmissive coating surface within a transmittance range that partially transmits incident light.