SU1118943A1 - Method of assembling fiber-optical splitter - Google Patents

Abstract

A METHOD FOR ASSEMBLING A FIBER-OPTICAL BRANCHER with a beam-splitting and focusing elements, consisting in fixing the input fiber to the input of the beam-splitting element, and each output fiber in the focus of a separate light beam at the output of the focusing element, which differs with. so that, in order to reduce losses and speed up the assembly, after attaching the input fiber, they insert and reinforce a plate of solid material in the focal plane of the focusing element, enter optical radiation into the input fiber, which is burned at the focal points of individual light beams and in the openings formed the exit fibers. 00 CO 00

Description

The invention relates to fiber optics, and in particular to fiber optic systems for transmitting information, and can be used in electronic, instrument-making, industry for the production of communications equipment.

A known method of assembling a fiber optic splitter, according to which one or more input fibers are brought to one end of the mixer, made of light-conducting material. A group of tightly laid fibers is brought to the other end. The fibers are glued and fixed mechanically (5 mechanically in the splitter housing. Lenses are installed between the input fibers and the mixer and between the output fibers and the mixer. The light from the input fibers uniformly illuminates the area on which the ends of the output fibers are located [j J.

However, this method does not allow to obtain splitters with a high branching coefficient, since 25.

most of the radiation energy enters the fiber sheath and the interfiber space. The energy loss in such a fiber optic splitter is of the order of 2 dB. zo

A known method of assembling a fiber optic splitter with beam splitting and focusing elements, which consists in attaching the input fiber to the input of the beam splitter element, and each output fiber in the ® focusing area of the rays of each individual light beam, which is made from the beam splitter element and passed the focusing element ^ 2}.

The disadvantage of this method is the duration of the assembly, especially multi-channel splitters, for. how much the position of each output fiber needs to be found as a result of alignment. In addition, unavoidable alignment errors result in loss.

The purpose of the invention is to reduce losses and accelerate the assembly of the branch. The goal is achieved by the fact that according to the method of assembly of a fiber optic splitter with beam splitting and focusing elements, which consists in attaching the input fiber to the input of the light-emitting diode VNIIIPI Order 7447/33

Branch PDP Patent ^th ^, element-inflammatory, and each output fiber - the focus separately • th light beam exiting the focusing element, after mounting the input fiber 5 is introduced and reinforcing plate of solid material in the focal plane of the focusing element, the input "fiber supplied high-power optical radiation, which burns through the plate in places of focusing of individual light beams, and in the formed holes strengthen the output fibers.

The drawing shows a fiber optic splitter assembled according to the proposed method. 'The input fiber 1 is attached to the end-beam splitter element 2, the role of which can be performed by 20 glass parallelepipeds, dividing the radiation beam from the input fiber into several beams. Beam splitter is followed by a focusing element 3, for example a lens. In the focal · plane 4 of the lens, a plate 5, for example, made of copper 0.5 mm thick, is fixed. At the input end of the fiber 1 is guided powerful laser radiation with a density of the order of ^{1 °} 10 W / cm ^2. Under the action of laser radiation, holes 6 are burned in the places where the rays are focused on the plate, in which the output fibers are fixed (not shown in the drawing).

Additional alignment of the output fibers is not required, since the holes in the plate are in the places where the rays fall, and the diameter of the holes is consistent with the dimensions of the fibers to be installed by the lens parameters._ I

Stitched holes are directed along the axes of the incident rays, so the ends of the output fibers are perpendicular to the incident rays, which reduces the loss of light energy due to reflection from the ends of the output fibers. Hole flashing and gluing of the output fibers is carried out after the main mechanical assembly, this compensates for inaccuracies in the manufacture of parts of the fiber optic splitter. Verification The operation of such a fiber optic splitter showed that the intrinsic loss of light energy in it is in the state of the order of 0.5 dB.

10%

Subscription

Uzhhorod, Project 4,

Claims (1)

METHOD FOR ASSEMBLING A FIBER-OPTICAL SPLITTER with a beam splitter and focusing elements, consisting in attaching the input fiber to the input of the beam splitter element, and each output fiber in the focus of a separate light beam at the output, focusing element, characterized in that, in order to reduce losses and acceleration assembly, after fixing the input fiber is introduced and. they strengthen the plate of solid material in the focal plane of the focusing element, optical radiation is fed into the input fiber, which burns the plate at the focal points of individual light beams, and the output fibers are strengthened in the holes formed. J ψ SU_ _(W 1118943 11 18943