SU832723A1 - Transmitting optronic device - Google Patents

Description

The invention relates to the processing of transmission and channeling of light and can be used, for example, in fiber optic information transmission lines. Limes) devices for transmitting information via optical fibers, which contain an electric signal to luminous flux converter and an optical fiber lJ. The closest in technical essence to the invention is a device that contains a light guide, diffraction gratings, a luminous flux emitter and a pathogen of an electric field connected to two flat electrodes located in the area of the diffraction grating 2. A disadvantage of the known devices is that the luminous flux (signal) transmitted by them is not protected from fluctuations in ambient temperature, aging of elements, etc. The purpose of the invention is to increase the stability of the light flux. The target is achieved by the fact that in a transmitting optoelectronic device containing a converter of an electrical signal into a light flux with an output LED and a negative feedback circuit and a light guide on which the grating lines are applied, the grating lines are made of photoconductive material parallel-series and included in the negative feedback circuit of the converter of an electrical signal into a light flux. The drawing shows a block diagram of a transmitting opto-electronic device. A light guide 1 is made of a material having a photoconductivity property, the lines 2 of a diffraction grating 3, interconnected by conductor bridges 4.

The resulting resistance of the diffraction grating 3 is included in the negative feedback circuit of the converter 5 of the electrical signal to the light flux, the output LED 6 of which is wrong on the diffraction grating 3.

The operation of the device is carried out in a skinny manner. .

When an electric signal into the luminous flux is applied to the input of the converter 5, the LED 6 emits a luminous flux directed to the diffraction grating 3 of the light guide 1, which influences the sewage of this luminous flux.

In the course of operation of an optoelectronic device, in the case of fluctuations in the ambient air temperature, the intensity of the light flux of the LED b also fluctuates at a constant unchanged level of the input signal.

The intensity of the emitted luminous flux to a large extent also depends on the fluctuations of the supply voltage, aging of the converter elements, etc.

When the light flux passes through the diffraction grating 3, a part of it (approximately 50% / is delayed by the lines of this grating, but is not lost is useless, but is used to estimate the incident light flux and control the electrical resistance of the diffraction grating.

By incorporating the adjustable resistance of the diffraction grating 3 into the negative feedback circuit of the converter 5, its gain (transmission) is controlled in accordance with fluctuations in the intensity of the light flux.

When the light flux decreases, the resistance of the diffraction grating 3 increases, the depth of the negative feedback decreases, the gain of the transducer 5 increases (the light flux increases and the light flux increases. With increasing flux, the resistance of the diffraction grating 3 decreases, the depth of the negative feedback increases, the gain of the transducer 5 decreases and the luminous flux decreases. Thus, the luminous flux level at a constant level of the input electric signal is kept constant nym, stable.

The combination of parallel and serial connection of the lines of the diffraction grating allows to obtain the resultant resistance of the optimal value with sufficient power dissipation of this resistance.

The diffraction grating ensures the input of the luminous flux into the fiber and participate in the stabilization of the transmitted luminous flux.

The application of the invention in fiber-optic data transmission lines allows improving the quality and reliability of information transmission.

Claims (2)

1. US Patent No. 4039249, incl. 350-96, 1977. 2. US patent number 4047795, cl. 350/96, 1977.