SU736841A1 - Device for transferring information by optronic communication line - Google Patents

Abstract

DEVICE FOR THE TRANSFER OF IPFORMASHCH BY Volpkopopoptic. , LINES of communication, containing an optical radiation HCTO4HiiK, on the path of the propagation of radiant energy of which a serially established field modular module is connected, which through a bi-pulse converter is connected to the source of the driving signal and connected to the fiber through the lens by an optical fiber line and connected to a fiber-optic converter through a bi-pulse converter and connected to a source of a driving signal and connected to the fiber through a lens by an optical fiber line and connected to it through a lens via a fiber-optic converter a signal is connected to the source of the driving signal and connected to the fiber through the objective through a fiber optical line by means of a bi-pulse converter connected to the source of the driving signal and connected to the fiber through the lens by a fiber optical line and connected to a fiber-optic converter with a source of the driving signal and connected to it through a lens by a fiber optical line and connected to a fiber through a lens a fiber-optic transducer is connected to the source of the driving signal and connected to it via a fiber optic line through an optical fiber line of the optical signal and connected to the source of the driving signal and connected to the fiber through the lens through a fiber optical line the optical signal is connected to the source of the driving signal and connected to a fiber optic module through optical fiber the lens and the radiation receiver, which are all; what is the uCo Lia channels are selected (L on your own, providing Syn4 | azn6sty signals on their ycode.

Description

The invention relates to optical communications and is intended for transmitting discrete messages in the form of bi-pulsed signals,., :::: A known device for transmitting signals. On an optical carrier that has been sequentially distributed; A source of optical radiation; a shey; a polarization modulator; a lens and an optical fiber, at the output of which a photodetector is placed. The modulating bi-impedance signal to the Electro-Optical crystal of the modulator is supplied from a converter connected to a signal source. -

Such a device allows large power losses of radiation.

The prototype of this technical solution is a device for transmitting information through a volatile optical communication line, containing a wireless communication cable, on the way

Electromagnetic distribution

00 floor iKOToporb successively spreading iFET iy ektra optich our field of the field modulator, mod- ury, uryuyschy input which is connected with the source of the setting sigal; ,

Such a line also provides significant losses in power. The purpose of the invention is to reduce the energy losses in the communication line during the transmission of information.

To this end, an electro-optical deflector is installed in the path of the propagation of radiant energy between the controlled polarization modulator and the objective lens, the control input of which is connected to the source of the master signal. In this case, the flJiHha communication channel is selected from the basis of ensuring the synphase of the output signals. The functional block diagram of the device is shown in the drawing. The device contains a sequence of placed 1 optical source 6 radiation, controlled by an electrical optical polarizer modulator 2, an electro-optical deflector 3, a lens 4 connected to it by a fiber-optic communication line 5, the radiation emitter 6. To the modular input of modulator 2 is connected via bi-pulse converter 7, source 8 sets the signal, which is connected in such a way as electrical deflector 3, the length of the optical fibers, which are connected to the link line 5, is chosen based on the figure, and a distance from the figure on the picture, in this figure, n draw draw in drawing, in the drawing, in the drawing, in the drawing, 5, is chosen from the figure, in the figure, in the drawing, in the drawing, in the drawing, in the drawing, in the drawing, in the communication line 5, is chosen based on the voltage of the switch, in the middle of the picture, in the figure, in the drawing, in the drawing, in the drawing, in the cable 5, is calculated on the basis of the figure in the figure, in the middle of the picture, in the middle of the fifth drawing, in the drawing, in the drawing, in the link 5, is based on the optical fiber deflection of the cable, in the link, in the drawing, in the drawing, in the link, in the drawing, in the drawing, 5 can be chosen based on the voltage of the switch, in the drawing, in the drawing, in the drawing, on the link 5, depending on the optical fiber deflector 3, based on the optical fiber, 5 An electroplating deflector 3 deflects radiation with vertical alignment, and radiating with horizontal polarization through it without deviating through channel 9 of the link 5 as an electro-optical deflector Jet be uc, .43fci- -it- - i J -, I,, used, for example, 45Z cpe3 KDR crystal. The device works as follows. The electrical signal from source 8 is fed to a bi-pulse converter. It modulates by polarization the radiation from source 1 in accordance with a bi-pulse signal. At the same time, the electrical signal from source 8 is fed to an electro-optical deflector 3, which rejects radiation with vertical polarization upwards with a positive voltage on it and outwardly - at a negative voltage. The amplitude of the driving signal is chosen such that the radiation with vertical polarization falls into channels 10 and 11 of link 5. In this case, in channels 10 and 11, radiation pulses will experience a negative and positive delay, respectively, and the magnitude of the delay will be equal to half the duration of the clock interval of the driving signal. In connection with this, the radiation impulses at the outputs of channels 9-11 will be in-phase, and the total radiation entering the receiver 6 will have an increased power. This increases the reliability of the device, as well as the output of one of the channels from the fiber optic line does not lead to the termination of communication. ,

Claims (1)

DEVICE FOR TRANSMISSION OF INFORMATION ON FIBER OPTICAL, 'COMMUNICATION LINES, containing a source of optical radiation, on the path of propagation of radiant energy of which a polarization modulator is installed in series, the modulating input of which is through a bi-pulse pre. the educator is connected to the source of the driving signal and connected to it through the lens by a fiber optic communication line, a lens and a radiation receiver, with the aim that, in order to reduce energy losses in the communication line during transmission of information, on the path of radiant energy propagation between the controlled polarization modulator · and the lens, an electro-optical deflector is installed, the control input of which is connected to the source of the master signal, while the optical length of the channels of the communication line is selected ensure phase matching of the signals at their output. 'a'