SU1179251A1 - Multichannel light guide splitter - Google Patents

Abstract

A MULTI-CHANNEL LIGHTFLOWER SPLITTER containing an input light guide with an end face perpendicular to its axis, and output light guides with chamfers at the ends opening the light guide conductor with extension to the ends of the light guides, while the ends of the output light guides are directed to the end of the input light guide, aligned with the light guides, their ends are located in one plane, and the end of the input fiber is docked with this plane, characterized in that, in order to simplify the design with an increase in the number of channels, the output fibers are installed in one plane and chamfers perpendii molecules angles to it, and the end face of the input fiber is docked with the surface of a torus (P S AEC output waveguides at the center of one of them.

Description

I

The invention is intended for use in optical information transmission lines, in particular for transmitting light radiation from one channel to several others.

The aim of the invention is to simplify the design by increasing the number of channels.

The drawing is a schematic representation of a multichannel fiber optic splitter.

The splitter contains the input light guide 1, the output optical fibers 2 ,. having light guiding veins 3, reflecting shells 4 and made with side chamfers 5, revealing light guiding veins 3. Light guides 2 are placed in the same plane with chamfers perpendicular to this plane. Chamfers extended to the ends of the optical fibers and narrowed when removed from them. The light guides 2 are installed with a contact along their chamfers. The input light guide 1 is mounted on the end face of one of the output, preferably central.

The splitter works as follows.

792512

In the input fiber 1 serves. This radiation then enters the output fiber, in the center of which the input radiation is installed, and also partially in two adjacent ones. Radiation enters the neighboring fibers because the end of the input fiber partially covers the ends of these fibers in segments, 10 of which are equal to the depth of the chamfers at the end.

Due to the presence of 3 chamfers 5 light opening the light guiding veins,

15 propagation along light guides, in

which he initially hit, gradually passes into other light guides, uniformly mixing over the cross section of their light-guiding veins and not output when

20 this is outside the region covered by the reflective sheath 4. With the need to increase the number of channels in the design of the device, the number of optical fibers is increased, as well as the length of the chamfers is increased in order to increase the area in which the light radiation is mixed by the output optical fibers.

Claims (1)

A MULTI-CHANNEL LIGHT-FIXED SPLITTER containing an input fiber with an end face perpendicular to its axis, and output fibers with chamfers at the ends that open the fiber guide with an extension to the ends of the fibers, while the ends of the output fibers are directed to the end of the input fiber, they are aligned with chamfers, one ends thereof plane, and the end of the input fiber is connected to this plane, characterized in that, in order to simplify the design with an increase in the number of channels, the output fibers are installed in one plane bevel and perpendicular to it, and the end face of the input fiber is docked with the surface of the output ends of the optical fibers through the middle of them.