JPS6150101A - Production of condensing filter - Google Patents

Abstract

PURPOSE:To obtain a uniform condensing filter without using a mask by forming a light shielding film by vapor deposition on one main surface of a light transmittable glass substrate then etching the film to form many apertures, providing a photosetting light transmittable resin film on the apertures and remaining light shielding film and exposing the same from the other side. CONSTITUTION:The light shielding material 2 such as chromium oxide is deposited by evaporation on the light transmittable glass substrate 1 and thereafter the many apertures 6 are formed thereto by etching. The photo-reactive light transmittable resin 7 is covered thereon so as to cover the apertures 6 and the remaining material 2. UV rays are then irradiated from the other side of the substrate 1 and the uncured resin 7 in the non-exposed part on the material 2 is dissolved away by using a solvent such as trichloroethylene. A protective film 4 is formed thereto to cover the resin 7 and the material 2. The need for a stage for using a mask is thus eliminated and the condensing filter having the uniform performance, high sensitivity and high resolution for a solid state image pickup element is thus obtd.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a method for manufacturing a light-collecting filter that can be used in solid-state camera barrels.

Conventional configuration and its problems In recent years, the sensitivity of solid-state cameras 4. In order to improve resolution, etc., a light-condensing filter is attached to the front of the solid-state image sensor to improve these features.

Hereinafter, with reference to the drawings, a conventional method for manufacturing the above-mentioned light-condensing filter will be explained.

FIG. 1 shows a cross-sectional structural diagram of a conventional light collecting filter. In the figure, 1 is a light-transmitting glass substrate, 2 is a light-shielding material, 3 is a convex light-transmitting material for condensing incident light β, 4 is a protective film, and 6 is incident light.

Note that the light condensing filter is designed so that the light condensing location of each light condensing structure corresponds to the center of each party sensing part of the solid-state image sensor, as shown in FIG.

A method for manufacturing the light collecting filter configured as above will be described below.

First, chromium oxide 2, which is a light-shielding substance, is deposited on a transparent glass substrate 1, and etched to form a large number of openings therein. First, a transparent material 3 is applied on the entire surface, and a pattern is printed using a mass 42 to match the shape of the opening. When it is developed, its cross section will not be rectangular, but will have a convex shape with a gentle surface. Further, by coating the protective layer 1 and 4 on top of it, it becomes a convex lens-shaped light condensing structure. FIG. 2 is a diagram showing the relationship between incident light and a light-condensing filter produced by a conventional manufacturing method. Components that are the same as those in FIG. 1 are given the same numbers and their explanations will be omitted.

However, in the above-mentioned manufacturing method, since the light-concentrating structure is created by mask alignment, if the alignment accuracy of mask alignment is poor, the light-condensing performance will decrease as shown in Figure 2, and the mask will further deteriorate. At the time of alignment, a rotational shift occurs, and the alignment state differs depending on the location, resulting in a problem in that the light-gathering ability of the light-concentrating structure differs depending on the location.

OBJECTS OF THE INVENTION In view of the above drawbacks, the present invention provides a method for manufacturing a light-concentrating filter that can uniformly produce a light-concentrating structure without using a mask.

Structure of the Invention In order to achieve this object, the method for manufacturing a light-condensing filter of the present invention includes the steps of: depositing a light-blocking substance on the entire surface of a translucent glass substrate; and the light-blocking substance has a large number of openings. a step of etching a photoreactive resin on the opening and the light-shielding material; and a step of etching the light-transmitting resin on the other main surface of the light-transmitting glass substrate. The method consists of a step of irradiating and exposing the light, and a step of forming a protective film on the light-shielding material and the light-transmitting resin, which eliminates the step of using a mask and makes it possible to uniformly manufacture the light-collecting structure. becomes.

DESCRIPTION OF EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

FIG. 3 shows a manufacturing process diagram of a light collecting filter in an example of the present invention.

Components that are the same as those in FIGS. 1 and 2 are designated by the same reference numerals, and their explanations will be omitted.

First, chromium oxide 2, which is a light-shielding material, is deposited on one main surface of the transparent glass substrate 1 (FIG. 1A).

Next, etching is performed to form the opening 6 (see figure b).
). Next, a translucent ultraviolet curing resin 7 (components: olisalt/thiol = 170.8
6) to a thickness of 10 μm (see C in the same figure) and 3 mw/(yj
When ultraviolet light having an illuminance of 10 seconds is applied for 10 seconds and cleaning is performed with trichlorethylene, the ultraviolet curing resin 7 is formed only in the opening 6 (see d in the figure).

Finally, the entire surface is coated with a protective film (e).

The light-gathering properties of the light-gathering filter produced by the method described above will be explained below.

When a parallel beam of light was perpendicularly incident on the glass substrate side, it was possible to focus the beam at a distance of 5 μm from the light collection structure. Next, the solid-state image sensor was fixed so that the center of each pixel of the solid-state image sensor was located at the focal position of each light-collecting structure, and the sensitivity was examined. There was no unevenness in sensitivity due to location.

As described above, according to this embodiment, a light-shielding material having a large number of two-dimensionally arranged openings is formed on the entire surface of a transparent glass substrate, and furthermore, the light-shielding material is cured by ultraviolet rays on the openings and the light-shielding material. By applying the resin, exposing the other side to ultraviolet light, and developing it, it is possible to omit the mask exposure step needed to create the light-collecting structure, and to form the light-collecting structure more uniformly than in the past. It can be made.

Effects of the Invention As described above, the present invention includes a step of vapor depositing a light-shielding substance on one principal surface of a light-transmitting glass substrate, a step of etching the light-shielding substance having a large number of openings, and a step of etching the light-shielding substance so that it has a large number of openings. a step of forming a photoreactive light-transmitting resin on the part and the light-shielding material; a step of exposing the light-transmitting resin by irradiating it with light from the other main surface side of the light-transmitting glass substrate; This is a method for manufacturing a light-collecting filter, which includes a step of forming a protective film on a light-shielding substance and the light-transmitting resin, which eliminates the step of using a mask, and allows light-collecting H.! This has the effect of making it possible to uniformly produce a corpse.

[Brief explanation of drawings]

Fig. 1 is a cross-sectional view of a light-collecting filter manufactured by a conventional manufacturing method, Fig. 2 is a cross-sectional view showing the relationship between the filter and emitted light, and Fig. 3 is a light-collecting filter according to an embodiment of the present invention. FIG. 1... Translucent glass substrate, 2... Light-shielding material, 3... Light-transmitting material with i structure, 4...
... Protective film, 6... Opening, 7... Ultraviolet curing resin. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure 2 Figure 1' (

Claims (1)

[Claims] a step of depositing a light-shielding substance on one main surface of a translucent glass substrate; a step of etching the light-shielding substance so that it has a large number of openings; and a step of depositing a light-shielding substance on one main surface of a light-transmitting glass substrate; a step of exposing the light-transmitting resin by irradiating the light-transmitting resin with light from the other main surface side of the light-transmitting glass substrate; A method for producing a light-condensing filter, comprising the step of forming a protective film.