DE19700385A1 - Optical filter - Google Patents

Abstract

An optical filter has an optical film 2 sandwiched between two plates 1,3. The plates 1,3 may be optically identical and may be made of resin. The optical film 2 may be a dielectric multilayer film. The plates 1,3 may have an expansion coefficient equal to either that of the film optical film 2 or that of the optical fibre 4 to be attached to one of the plates.

Description

The invention relates to an optical filter for opti communication and in particular an optical filter optical communication that consists of an optical multilayer film is built.

Optical filters serve as components for optical Communication that are used at a wavelength of select or suppress light to be transmitted, and which are generally made of a dielectric multilayer film, etc. are built up.

The optical filter for optical communication is in an optical path by gluing between optical fibers or LWL or arranged on the end face of an LWL to a Select the wavelength of a transmitted signal. Generally mine is the optical filter made of dielectric more Layered film made of SiO₂ / TiO₂, which on a glass sub strat or polyimide resin is formed.

Fig. 1 shows the structure of a conventional optical filter in which an optical film 2 is formed on a first resin 1. Fig. 2 illustrates a case in which is added, the optical filter in an optical fiber. 4 Referring to FIG. 2, the optical fiber 4 is fixed to the center of a connection part 5 under Ver application of a second adhesive 7 is adhered and fixed, and a surface of the optical film 2 of the optical fil ters is added at the optical fiber 4 using a first adhesive. 6 If the boundary condition of the optical film 2 is preset by the first adhesive 6 with a refractive index of about 1.5 without air, the surface of the optical film 2 is not attached to the FO 4 , a predetermined optical characteristic cannot be achieved. Likewise, the surface of the first resin 1 shown in FIG. 3 is reversed attached to the FO 4 , the predetermined optical characteristics cannot be achieved.

So when you add an optical filter, which is made up of an optical film, e.g. B. a di electric multilayer film based on a polyimide resin u. Ä. is designed to achieve a desired Cha characteristic according to a boundary condition of the optical Film may be required on the surface of the optical film to be glued to the FO while the surface of the poly imide resin facing outside.

Japanese Utility Model Application 58-62306 (1983) discloses an optical filter according to Fig. 4 of a glass substrate 9, and an optical film 10 is composed, where in the glass substrate 9 is a cut-off part 8 has to ei ne distinction between the front and To facilitate back of the component.

However, since the optical filter generally has a thickness of several tens of micrometers at most, it is difficult to handle. Since both surfaces of the optical fil ters look the same, it is with the exception of the specialist for Workers difficult to tell which side that Is polyimide resin or the optical film.

It is therefore an object of the invention to provide an op table filter to provide an identical optical Characteristic can have regardless of what surface of the optical filter is attached to the LWL. This task will solved with the features of the claims.

An optical filter of the invention can have the same op tical characteristics regardless of which surface  surface of the optical filter is attached to the fiber, as the first and second plate made of a resin material on both sides of the optical film are arranged. The first and second Plate can be made of the same resin material or under different resin materials, each with the same optical Characteristic exist, and it is necessary that that choosing resin material no problems for continuity characteristic of a light wavelength to be transmitted gently and has a refractive index that comes close to that of an optical fiber, to be added to the first or second plate, so as not to To cause light reflection.

The invention is explained in more detail below with reference to the beige added drawings explained. Show it:

Fig. 1 is a sectional view of a conventional optical filter;

Fig. 2 is a sectional view for explaining a case in which the conventional optical filter of Fig. 1 is properly attached to an optical fiber;

Fig. 3 is a sectional view for explaining a case in which the conventional optical filter of Fig. 1 is incorrectly attached to an optical fiber;

Fig. 4 is a perspective view of a further conventional optical filter;

Fig. 5 is a perspective view of an optical filter in a preferred embodiment according to the invention; and

FIGS. 6 and 7 are sectional views for explaining FAEL len in which the optical filter of FIG. 5 is joined to an optical fiber to.

Referring to FIGS. 5 to 7, in which like parts have the same reference numerals as in FIG. 1 referred to 4, an optical filter in the preferred exporting will now be explained approximate shape.

According to Fig. 5, on the surface of a first resin 1 made of polyimide resin, etc. with a thickness of several Mikrome tern, an optical film 2, z. B. a dielectric multilayer film made of SiO₂ / TiO₂ by the deposition process, etc. Further, on the surface of the optical film 2, a second resin 3 with a thickness of several micrometers is formed by the spin coating method, etc.

If two different types of optical films are used in this construction, a high, low and band pass filter can be formed. For the second resin 3 , the same material as the first adhesive 6 or the first resin 1 or a material with the same optical characteristic can be used, and further, it is required that the material to be selected does not cause any problems for the transmission characteristic of a light wavelength to be transmitted and has a refractive index that comes close to that of the FO 4 so as not to cause any light reflection. Also, if the coefficient of expansion of a material for the second resin 3 comes close to that of the optical film 2 or FO 4 , the temperature characteristics can be improved.

FIGS. 6 and 7 illustrate cases in which the opti cal filter of the embodiment, the optical fiber 4 and holding on the fiber optic connector 4 is glued 6 5 using the first adhesive material and fixed. The optical filter 4 is previously glued into the connector 5 using the second adhesive 7 , and the end surfaces of the connector 5 and fiber 4 are optically polished. Furthermore, to prevent optical reflection on the end faces, the end faces are formed such that they have an inclination of 8 degrees with respect to a plane that is perpendicular to the central axis of the FO 4 . As a result, the optical filter of the embodiment can have the same optical characteristic regardless of which surface of the optical filter sticks to the optical fiber 4 according to FIGS. 6 and 7.

Claims (7)

1. Optical filter with:
a first plate;
an optical film formed on a surface of the first plate; and
a second plate arranged on top of the optical film. 2. Optical filter according to claim 1, wherein the first plate and the second plate are made of a resin. 3. Optical filter according to claim 1 or 2, wherein the first Plate and second plate each have a maximum thickness have at least 100 µm. 4. Optical filter according to claim 1, 2 or 3, wherein the optical film a dielectric multilayer film points. 5. Optical filter according to claim 2, 3 or 4, wherein the first plate and second plate from the same Harzma material exist. 6. Optical filter according to claim 2, 3 or 4, wherein the first plate and second plate each differ Lichen resin materials consist of the same opti have a characteristic. 7. Optical filter according to one of claims 2 to 6, wherein the first plate and second plate made of a resin mat rial with an expansion coefficient that that of the optical film or one on the first plate or second plate to be added optical waveguide na is coming.