DE3217611A1 - Optical branching element - Google Patents

Abstract

In a fibre-optic branching element according to the main application P 3135312.6, one of the optical fibres is replaced by an optical receiver (photodiode). Light of an optical transmitter, e.g. a semiconductor laser, is coupled into another optical fibre. The third optical fibre serves as a connection for an optical telecommunications line. Such a fibre-optic component renders possible, in particular, wavelengths duplex traffic via an optical fibre.

Description

description

Optical branching link (addendum to patent application P 31 35 312.6 from 09/05/1981) The invention relates to an optical branching element according to the Preamble of claim 1.

Such a branching member is in the German patent application P 31 35 312.6.

The object of the invention is to provide such a branching element to develop that this in particular as a transmitting and / or receiving station in one optical communication system is suitable.

This object is achieved by the characterizing part of the claim 1 specified features.

Advantageous refinements can be found in the subclaims.

The invention is based on an exemplary embodiment with reference explained in more detail on a schematic drawing.

In the main application P 31 35 312.6 is a fiber optic structure Branching link described in which three optical waveguides, e.g. optical glass fibers, are arranged in a star shape. One of the optical waveguides has an optically semitransparent one End face that is inclined with respect to the optical axis of the optical waveguide.

This ensures that the incoming in an optical waveguide Light is coupled into the other two optical waveguides with little loss.

In the invention, one of the optical waveguides is replaced by one optical receiver, e.g. a photodiode, and the beam path partially reversed. This creates a branching element, which is used in particular as a transmitting and / or receiving station can be used in an optical communication system that uses the wavelength duplex method is working. This procedure enables two simultaneous two-way communication Transmitting and receiving stations via a message transmission link, e.g. a single fiber.

The figure shows an optical branching member, for example Can be used as a transmitting and / or receiving station for wavelength duplex operation is. In the communication link, the optical fiber 10, incoming Light of wavelength> 1 is at the end face 23 of a second optical waveguide 20 and fed to a receiver 70, for example a photodiode. The end face 23 is inclined at an angle relative to the optical axis 21 of the optical waveguide 20 and coated with at least one optically wavelength-selective layer 24, e.g. an interference filter. This means that the incoming light is low-loss to the receiver 70 supplied and coupling into the optical waveguide 20 avoided. At the other At the end 25 of the optical waveguide 20 is attached an optical transmitter 60, e.g. modulatable semiconductor laser or a light emitting diode. For that from the broadcaster 60 emitted light of wavelength% 2, the layer 24 is essentially transparent. The Winkelbc is chosen so that this light only in the optical waveguide 10, the transmission link, is coupled in and does not reach the receiver 70. This avoids annoying crosstalk. To avoid optical losses it is expedient to round off the end face 131 of the optical waveguide 10, according to FIG the tasks described in the main application. In addition, the receiver 70 and / or the rounded fiber end face 131 can be provided with an anti-reflective coating for the received light of wavelength X Blank page

Claims (4)

Claims (addendum to patent application P 31 35 312.6 from 09/05/1981) 1. Optical branching element in which a) at least two optical waveguides (10, 20) are arranged in such a way that their optical axes roughly intersect in a point which lies on an end face (23) of one of the optical waveguides (20), b) at least one layer (24) is applied to the end face (23) in such a way that light coming from outside an optical waveguide (20) from the layer (24) partially reflected and partially transmitted into the optical waveguide (20) is, c) the end surface (23) at an angle (84 with respect to the optical axis (21) is inclined in such a way that coming from outside the optical waveguide (20) light incident on the end face (23) in the light waveguide (20) is coupled according to DBP ... (Patent application P 31 35 312.6), characterized by the following features: d) at least one optical waveguide (20) carrying the layer (24) is attached Transmitter (60) coupled and the angle (g) is designed such that of the transmitter (60) emitted light is essentially coupled into the other optical waveguide (10) is, e) the layer (24) is essentially permeable to the transmitter (60) emitted light and also designed such that in the other optical waveguide (10) incoming light is reflected, f) at least one optical receiver (70) is arranged in such a way that light reflected on the layer (24) is detected. 2. branching link according to claim 1, characterized in that the transmitter (60) and / or the receiver (70) designed as a semiconductor component is. 3. branching link according to claim 1 or claim 2, characterized in that that at least one anti-reflective layer is present on the receiver (70) for low-loss Detection of the reflected light. 4. branching link according to one of the preceding claims, characterized characterized in that at least one such arrangement as a transmitting and / or receiving station exists in an optical communications system employing a wavelength division multiplexing method used.