JPH06292206A - Solid-state image pickup element type color camera - Google Patents

Abstract

PURPOSE:To reduce a reflected light of a received color light and to facilitate the manufacture by providing a reflection preventing optical element reducing a reflected light of a received color light more than that of other color lights to each of plural solid-state image pickup elements. CONSTITUTION:A reflection prevention optical system is formed by coating a reflecting prevention film 10 to the surface of a seal glass 9 of a package 6 in which a CCD chip 7 of each CCD is contained. The reflection prevention film 10 is made up of a 1st coating layer 12 whose refractive index is n1 and whose thickness is d1 coated and formed on the seal glass 9 and a 2nd coating layer 13 whose refractive index is n2 and whose thickness is d2 coated and formed on the 1st coating layer 12. Then the thickness of the coating layers 12, 13 is obtained according to a predetermined relation formula, where epsilon is a wavelength of a received light, n8 is a refractive index of the seal glass and n0 is a refractive index of air.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solid-state image sensor type color camera, and more particularly to an antireflection means for the same.

[0002]

2. Description of the Related Art A conventional solid-state image sensor color camera will be described below with reference to FIGS. Figure 3
Is a three-plate type C which is an example of a conventional solid-state image sensor type color camera.
1 illustrates a CD (charge coupled device) color camera. The incident light from the imaging lens 5 enters the dichroic prism 4 and is decomposed into red light, green light and blue light, and the red light, green light and blue light are respectively CCD.
It is incident on 1, 2 and 3 to receive light.

Next, the structure of these CCDs 1 to 3 will be described with reference to FIG. C in the metal package 6
The CD chip 7 is housed and fixed, and the opening of the package 6 into which monochromatic light enters is sealed with a seal glass (window glass) 9. Then, antireflection films 10 and 11 each made of a multilayer film are adhered and formed on both surfaces of the seal glass 9. The antireflection films 10 and 11 have the above-mentioned CCDs 1 to 1, respectively.
The seal glass 9 of each of the packages 3 of 3 has the same characteristics of reflecting the entire visible light. An oxide film / insulating film 8 is formed on the light receiving side of the CCD chip 7.

[0004]

As described above, the antireflection means used in the conventional solid-state image sensor type color camera reflects on the seal glass 9 of the package 6 in which the CCD chips 7 of the CCDs 1 to 3 are housed. The antireflection films 10 and 11 are formed, and the antireflection films 10 and 11 are
Seal glass 9 of each package 6 of the above CCDs 1-3
On the other hand, since it has the same property of reflecting the entire visible light, it must be composed of a multilayer film having a large number of layers. For this reason, the reflectance of such an antireflection means cannot be lowered so much, and the manufacturing process becomes unnecessarily complicated. If the reflectance of the antireflection means cannot be lowered, flare and cell ghost are likely to occur.

In view of the above point, the present invention intends to propose a solid-state image sensor type color camera having a low reflectance and an antireflection means which is easy to manufacture.

[0006]

The present invention receives color separation optical means 4 for separating incident light into light of a plurality of colors, and light of a plurality of colors separated by the color separation optical means 4. In a solid-state image pickup device type color camera having a plurality of solid-state image pickup devices 1, 2, and 3, a plurality of solid-state image pickup devices 1, 2, and 3 are supplied with light of a color to be received in accordance with light of a color to be received. An optical element provided with an antireflection film 10 that reduces the reflected light as compared with light of other colors is provided.

In the optical element having the antireflection film, the antireflection films 12 and 13 are formed on the glass window 9 of the package 6 in which the solid-state image pickup device chips 7 of the plurality of solid-state image pickup devices 1, 2 and 3 are housed. The antireflection films 21 and 22 are formed on the solid-state imaging device chips 7 of the plurality of solid-state imaging devices 1, 2 and 3, respectively, or a combination of both.

[0008]

According to the present invention, the plurality of solid-state image pickup devices 1, 2 and 3 respectively respond to the light of the color to be received and reflect the light of the color to be received in comparison with the light of other colors. Since the antireflection optical element for reducing the above is provided, the antireflection optical element can reduce the reflected light of the light of the color received by each of the plurality of solid-state imaging devices 1, 2, and 3 as compared with the conventional one. In addition, its manufacture becomes easy.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A second embodiment of the present invention will be described below with reference to FIGS.
Although one embodiment will be described, the overall structure of the solid-state image sensor color camera and the structures of the CCDs 1, 2, and 3 are substantially the same as those of the conventional example, and therefore, their duplicated description will be omitted.

First, the embodiment shown in FIG. 1 will be described. The antireflection optical element of this embodiment is the CCD of each CCD 1, 2, and 3.
An antireflection film 10 is adhered and formed on the surface (upper surface) of the seal glass (window glass) 9 of the package 6 in which the chip 7 is housed. This antireflection film 10 is
A first coating layer (e.g. made of magnesium oxide) 12 deposited on the sealing glass 9 and a second coating layer (e.g. fluorinated) deposited on the first coating layer 12. Consisting of calcium) 1
It consists of 3.

First and second coating layers 12, 13
Let n ₁ and n ₂ be the refractive indices of n ₁ (magnesium oxide) = 1.73 n ₂ (calcium fluoride) = 1.38, respectively. The refractive index of the seal glass 9 is n _g and the refractive index of air is n ₀ . Further, the thicknesses of the first and second coating layers 12 and 13 are d ₁ and d ₂ , respectively. The wavelength λ of red light, green light and blue light is 650 nm,
It is 500 nm and 450 nm.

In this way, it is known that the following two expressions should be satisfied in order to minimize the reflected light when the monochromatic light having the wavelength λ is incident on the second coating layer 13 side. .

N ₀ n ₁ ² = n ₂ ² _ng (1) n ₁ d ₁ = n ₂ d ₂ = λ / 4 (2)

By substituting the above numerical values into these equations (1) and (2), calculation is performed. First and second coating layers 12, 13
The thicknesses d ₁ and d ₂ of the film have the following values.

Red light Green light Blue light d ₁ (magnesium oxide) 93.9 nm 72.3 nm 65 nm d ₂ (calcium fluoride) 118 nm 90.6 nm 81.5 nm

In the above-mentioned embodiment, the antireflection film 10 is formed on the upper surface of the seal glass 9, but it may be formed on the lower surface or both surfaces of the seal glass 9.

The antireflection film 10 is not limited to two layers, but one
It may be a layer or three or more layers.

Next, the embodiment shown in FIG. 2 will be described. The antireflection optical element of this embodiment is the CCD of each CCD 1, 2, and 3.
This is the case where the antireflection film 10 is formed in the chip 7.
The structure of the CCD chip 7 will be described. Reference numeral 15 is a light receiving portion formed of pixels formed in a matrix, and 16 is a vertical transfer register provided on one side of the row of each light receiving portion 15.
The vertical transfer register 16 includes a transfer electrode 1 via an insulating layer.
7 is formed. A light shielding film 19 made of an aluminum film or the like is deposited on the vertical transfer register 16 with an interlayer insulating layer 18 interposed therebetween. An organic film 20 is formed on the light shielding film 19 and the light receiving unit 15. The organic layer 20 is formed on the organic film 20.
A first coating layer (SiO 2 deposited on the top)
₂ <PSG, BPSG) 21 and an antireflection film 10 made of a second coating layer (passivation made of plasma SiN) 22 deposited thereon are deposited. A flattening layer 23 is deposited on the antireflection film 10, and an on-chip microlens 24 is formed thereon.
Has been formed.

Then, the first and second coating layers 21 and 2 are provided so as to satisfy the above equations (1) and (2).
The thicknesses of the first and second coating layers 21 and 22 are selected according to the wavelengths of red light, green light, and blue light received by the CCDs 1, 2, and 3 according to the respective refractive indices of 2. To do.

In the above-mentioned embodiment, the case where the solid-state image pickup device type color camera is a three-plate type CCD color camera has been described. 2 sheets of C
The present invention can also be applied to a two-plate CCD color camera that is made to enter a CD. Further, the solid-state image pickup device is not limited to the CCD, but is also a BBD (bucket brigade device), CID (charge injection device), CPD (charge priming device), acceleration transfer MOS type device, CSD (charge sweep device), SIT (stack device). Tick induction transistor) or the like may be used.

[0021]

According to the present invention described above, color separation optical means for separating incident light into light of a plurality of colors, and a plurality of light receiving elements for receiving a plurality of colors of light separated by the color separation optical means are provided. In a solid-state image sensor type color camera having a solid-state image sensor, each of the plurality of solid-state image sensors responds to the light of the received color by comparing the reflected light with the light of the received color compared to the light of other colors. Since the antireflection optical element provided with the antireflection film to be reduced is provided, it is possible to obtain the solid-state imaging device type color camera having the antireflection means which reduces the reflected light and is easy to manufacture. In this way, since the reflected light of the antireflection means is reduced, it is possible to reduce the occurrence of flare and cell ghost.

[Brief description of drawings]

FIG. 1 is a sectional view showing an antireflection optical element (1) of an example of the invention.

FIG. 2 is a sectional view showing an antireflection optical element (2) of Example.

FIG. 3 is a layout view showing a three-plate solid-state image sensor (CCD) color camera.

FIG. 4 is a sectional view showing a CCD of the color camera.

[Explanation of symbols]

 1 CCD 2 CCD 3 CCD 4 dichroic prism 5 imaging lens 6 package 7 CCD chip 9 seal glass 10 antireflection film 12 coating layer 13 coating layer 21 coating layer 22 coating layer

Claims (3)

[Claims] 1. A solid-state imaging device having color-separation optical means for separating incident light into light of a plurality of colors and a plurality of solid-state image pickup elements for respectively receiving light of a plurality of colors separated by the color-separation optical means. In the element type color camera, each of the plurality of solid-state image pickup devices is provided with an antireflection film that reduces the reflected light of the received color light compared to the other color light in accordance with the received color light. A solid-state image sensor type color camera characterized by being provided with an antireflection optical element. 2. The antireflection optical element is characterized in that an antireflection film is formed on a glass window of a package accommodating a solid-state image pickup device chip of each of the plurality of solid-state image pickup devices. 1. The solid-state image sensor color camera according to 1. 3. The solid-state image sensor type color according to claim 1, wherein the anti-reflection optical element has an anti-reflection film formed on a solid-state image sensor chip of each of the plurality of solid-state image sensors. camera.