DE3419733A1 - Adjustable optical fibre attenuator - Google Patents

Abstract

An adjustable optical fibre attenuator consists of an optical fibre plug, at least one of the two optical fibres (9, 10) that are aligned with one another by their end faces in a plug (3, 4) being arranged displaceably in the axial direction. <IMAGE>

Description

Adjustable fiber optic attenuator

Fiber optic attenuators are sometimes required to to specifically increase the attenuation of a fiber optic link so that the transmitter and Receiver of the route are matched to one another.

The invention is therefore based on the object of a simple Means to indicate realized optical waveguide attenuator, its attenuation value is adjustable.

According to the invention this object is achieved in that at least one of two optical waveguides aligned face to face in a connector is arranged displaceably in the axial direction.

Appropriate embodiments of the invention can be found in the subclaims emerged.

An advantage of the invention is that a conventional optical fiber connector, like it e.g. in receiver or transmitter housings for connecting the fiber optic cables is used, is used as an adjustable attenuator.

Based on an embodiment shown in the drawing now the invention is explained in more detail. 1 shows the side view of an optical waveguide attenuator, FIG. 2 shows the plan view of a lever and FIG. 3 shows the front view of a leaf spring of the fiber optic attenuator.

1 shows an optical fiber plug inserted in a housing wall 1, consisting of two connector parts coupled to one another by means of a union nut 2 3 and 4, shown. Each plug part 3 or 4 consists of a socket 5 or 6, in which a receptacle 7 or 8 is used, in which an optical waveguide 9 or 10 is fixed.

In the connector part 3, the receptacle 7 with its optical waveguide is in the socket 5 9 fixed. On the other hand, in the case of the plug part 4, the receptacle 8 is in the socket 6 held with their optical waveguide 10 displaceable in the axial direction. Such a Optical fiber connector fulfills the function of an adjustable attenuator; because the through-loss of this connector depends on the distance d between the end faces of the two optical waveguides 9 and 10, which with the one described below Average can be set to any value.

Between a stop 11 on the socket 6 and a stop 12 on from the socket 6 looking out end of the optical waveguide receptacle 8 is a Compression spring 13 is arranged. A lever 14 acts against this spring force on the receptacle 8 exerts a pressure in the axial direction, from which the immersion depth of the receptacle 8 in the socket 6 depends.

With one guided through the fixed housing wall 1 and on one Lever 15 engaging screw 15, the lever 14 can be moved up and down. At the The end of the lever is rotatable about an axis 16 running transversely to the screw mounted nut 17, in which the screw 15 is screwed. At the other end of the lever is the fulcrum of lever 14. There the lever is on one of the housing wall 1 attached leaf spring 18 hooked. This leaf spring 18 is arranged so that it can bend transversely to the axis of the optical waveguide receptacle 8 to avoid deviations between the circular lever movement and the rectilinear movement of the optical fiber holder 8 and the screw 15 to be able to compensate.

As shown in FIG. 1, the pivot point of the lever 14 is close at hand at the point of the lever acting on the optical waveguide receptacle 8, and the point of application of the screw 15 is further away from this point. This results in a large pivoting movement at the screw-side end of the lever 14 implemented in a small pivoting movement at the location of the optical waveguide receptacle 8. So even with a screw 15, the threads of which are relatively steep are very fine movements of the fiber optic recording in the micrometer range 8 perform.

Fig. 2 shows a plan view of the lever 14. It has a the nut 17 rotatably mounted about the axis 16, fork-shaped end. The area of the lever 14, which on the projection 12 of the The optical waveguide receptacle presses and is hooked onto the leaf spring 18.

The front view of the leaf spring 18 shown in FIG. 3 gives two laterally angled noses 19 and 20 can be seen.

Behind these lugs 19 and 20, the arms of the fork-shaped end grip Lever 14.

The lever 14 can be unhooked from the leaf spring 18 and then around the Axle 16 can be folded up on the nut 17, so that then a loosening of the plug is possible.

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Claims (6)

Claims: 1. Adjustable fiber optic attenuator, characterized in that at least one of two in a plug (3, 4) is at the end face mutually aligned optical waveguides (9, 10) displaceable in the axial direction is arranged. 2. Adjustable fiber optic attenuator according to claim 1, characterized in that the displaceable optical waveguide (10) is in a receptacle (8) fixed and this receptacle (8) can be moved in a bushing (6) in the axial direction is stored. 3. Adjustable fiber optic attenuator according to claim 1 or 2, characterized in that a lever is attached to the optical waveguide receptacle (8) (14) attacks, which they depending on the setting of one at one end of the lever acting screw (15), which controls the pivotable lever (14) moves up or down, brings into a desired position within the socket (6). 4. Adjustable fiber optic attenuator according to claim 1 or 2, characterized in that between a stop (11) on the stationary Socket (6) and a stop (12) on the movable optical fiber receptacle (8) a spring (13) is arranged. 5. Adjustable fiber optic attenuator according to claim 3, characterized in that the pivot point of the lever (14) is on that of the adjusting screw (15) opposite end of the lever is located and that the on the optical fiber holder (8) acting point of the lever (14) is in the vicinity of the pivot point. 6. Adjustable fiber optic attenuator according to claim 3, characterized in that the lever (14) is rotatably attached to a leaf spring (18) is, which can be bent transversely to the axis of the optical waveguide receptacle (8).