RU2011119999A - DEVICE FOR INCREASING THE CAPACITY OF FIBER-OPTICAL TRANSMISSION LINE - Google Patents

Abstract

A device for increasing the capacity of a fiber optic transmission line, comprising construction lengths of an optical cable, the optical fibers of which are connected in series in the couplings, optical amplifiers sequentially included in the optical fibers, so that the distance between the optical amplifiers is divided into elementary sections, and the distance between the optical amplifiers and the length of sections, the power of optical radiation at the output of optical amplifiers, the distance between optical amplifiers and the length of elementary of the second section so that dispersion-controlled solitons propagate in the transmission line, characterized in that the optical fibers in the building lengths of the optical cable have chromatic dispersion of the same sign, optical fibers with increased non-linearity, circulators and diffraction Bragg gratings with a variable period are introduced to compensate for the dispersion, additional cassettes in a case made of heat-insulating material, and additional cassettes in a case made of heat-insulating material are installed in couplings, wholesale fibers with increased nonlinearity, circulators and diffraction Bragg gratings with a variable period for dispersion compensation are stacked in additional cassettes in a body of heat-insulating material, the first input of the circulator is connected to the optical fiber of one building length of the optical cable, its second input through an optical fiber with increased nonlinearity connected to a Bragg grating with a variable period to compensate for dispersion, and its third input is connected to an optical fiber of another

Claims (1)

A device for increasing the capacity of a fiber optic transmission line, comprising construction lengths of an optical cable, the optical fibers of which are connected in series in the couplings, optical amplifiers sequentially included in the optical fibers, so that the distance between the optical amplifiers is divided into elementary sections, and the distance between the optical amplifiers and the length of sections, the power of optical radiation at the output of optical amplifiers, the distance between optical amplifiers and the length of elementary of the second section so that dispersion-controlled solitons propagate in the transmission line, characterized in that the optical fibers in the building lengths of the optical cable have chromatic dispersion of the same sign, optical fibers with increased non-linearity, circulators and diffraction Bragg gratings with a variable period are introduced to compensate for the dispersion, additional cassettes in a case made of heat-insulating material, and additional cassettes in a case made of heat-insulating material are installed in couplings, wholesale fibers with increased nonlinearity, circulators and diffraction Bragg gratings with a variable period for dispersion compensation are stacked in additional cassettes in a body of heat-insulating material, the first input of the circulator is connected to the optical fiber of one building length of the optical cable, its second input through an optical fiber with increased nonlinearity connected to a Bragg grating with a variable period to compensate for dispersion, and its third input is connected to an optical fiber of another the length of the optical cable, while the elementary section includes only one sleeve, in which an additional cassette is installed in the case of a heat-insulating material with an optical fiber with increased nonlinearity, a circulator and a diffraction Bragg grating with a variable period to compensate for the dispersion, and the optical radiation power at the optical output amplifiers, the distance between optical amplifiers and the length of the elementary section, the parameters of the optical fiber with increased nonlinearity and braggo Sgiach diffraction gratings with a variable period to compensate for dispersion are selected depending on the construction parameters of the optical fibers of lengths of optical cable so that the transmission line distributed dispersion managed solitons.