SU853828A1 - Microphone for fiber-optical communication line - Google Patents

Description

The invention relates to communication technology, in particular to microphone designs used in fiber-optic communication lines. A microphone consisting of a membrane with a reflective inner surface and an input and output fibers located in the same plane at an angle to each other is known. G13 The disadvantage of this microphone is the Max modulation depth and the large power losses of optical radiation. The closest in its technical essence to the described is a microphone for a fiber-optic communication line, which contains a membrane associated with a sensitive element, made in the form of a section of a light guide rigidly fixed at two points L21. When an acoustic wave is incident on the membrane, it begins to oscillate together with a portion of the fiber-optic fiber associated with it. The bending of the fiber leads to an increase in the energy loss of the optical radiation passing through it. Thus, the modulation of the optical radiation is carried out by intensive - t.ch. The disadvantage of this microphone is low sensitivity due to the high rigidity of the membrane-light guide system. The aim of the invention is to increase the sensitivity of the microphone. This goal is achieved by the fact that in a microphone for a fiber-optic communication line containing a membrane associated with a sensing element made as a part of a light guide rigidly fixed at two points, the part of the light guide between fixing points is made in the form of a column of immersion liquid. The length of the bar is from 6 to 10 of its radii. The drawing shows the device described. The microphone contains a membrane 1 connected to the sensing element 2 by means of a rod 3 with a ring 4 at the end. The luminous flux is brought in and retracted from the sensing element through a light guide 5, rigidly fixed at points 6 and 7. The sensing element is formed as follows. First, the supports with the optical fibers fixed at them at points 6 and 7 come close to

ring 4 at the end of the rod 3. Then an immersion liquid is applied to the interface, after which the legs are moved apart so that the length of the column of immersion liquid is from 6 to 10 of its radii.

When the pressure of the acoustic wave is increased on the membrane 1, it moves the rod 3, this movement is transmitted to the column from the immersion liquid, the bending of which increases. As a result, the conditions for total internal reflection in a column of immersion liquid vary, which causes an increase in the loss of energy of optical radiation passing through it in intensity.

The described microphone can achieve high sensitivity.

An increase in sensitivity results in an increase in the modulation depth at a fixed acoustic signal, which allows either to reduce the power of the optical radiation source or to increase the length of the fiber-optic link.

Claims (2)

1. A microphone for a fiber-optic communication line containing a membrane associated with a sensitive element made as a part of a light guide fixed at two points, characterized in that, in order to increase the sensitivity, the part of the light guide between fixing points is made of a bar of immersion liquid. 2. A microphone according to Claim 1, characterized in that the length of the column of immersion liquid is from 6 to 10 of its lengths. Sources of information taken into account in the examination 1. France patent 2247032, CP H 04 R 9/00, published 03.10.73. 2. US patent No. 4071753, cl. 250-227, publ. 03/31/75 (prototype).