RU2001119980A - OPTICAL SYSTEM AND METHOD FOR PROVIDING REDUCED LOSS AND SUPPRESSION OF NONLINEAR EFFECTS - Google Patents

Claims (32)

1. Optical communication line containing a first section containing at least one single-mode fiber with a negative dispersion equal in absolute value from about 4 to about 7 ps / (nm ^. Km) at 1560 nm, and a second section attached to the first section and containing at least one single-mode fiber with a positive dispersion at 1560 nm, and the positive dispersion of the second section compensates for the negative dispersion of the first section, whereby the dispersion of the first and second sections is approximately zero, and the length of the first TCA is greater than the length of the second portion. 2. The communication line according to claim 1, in which the wavelength of zero dispersion for the fibers of the first section is from about 1600 to about 1700 nm. 3. The communication line according to claim 1, in which the positive dispersion in the second section is from about 10 to about 20 ps / (nm ^. Km) at 1560 nm. 4. The communication line according to claim 1, in which the ratio of the length of the first section to the length of the second section is less than about 7: 1. 5. The communication line according to claim 4, in which the ratio of the length of the first section to the length of the second section is less than 5: 1. 6. The communication line according to claim 1, in which the fiber of the second section is a fiber with a half-biased dispersion, for which the wavelength of zero dispersion is from about 1350 to 1450 nm. 7. The communication line according to claim 6, in which the positive dispersion in the second section is from about 7.5 to about 15.5 ps / (nm ^. Km) at 1560 nm. 8. The communication line according to claim 7, in which the positive dispersion in the second section is from about 8 to about 13 ps / (nm ^. Km) at 1560 nm. 9. The communication line according to claim 6, in which the ratio of the length of the first section to the length of the second section is less than 6: 1. 10. The communication line according to claim 9, in which the ratio of the length of the first section to the length of the second section is less than 4: 1. 11. The communication line according to claim 6, in which the attenuation coefficient for a fiber with a half-shifted dispersion does not exceed 0.195 dB / km at 1560 nm. 12. High-speed optical communication system containing a communication line consisting of the first and second sections, each of which contains at least one single-mode fiber, and the fiber of the first section has a negative dispersion, which is in absolute value from about 4 to about 7 ps / (nm ^km.) at 1,560 nm, a second fiber portion has positive dispersion at 1560 nm, positive dispersion of the second portion compensates for negative dispersion of the first portion, whereby the total dispersion pervog and second portions of approximately zero, and a length greater than the length of the first portion of the second section, a transmitter for supplying a signal to the communication line connected to one end of the link, the receiving apparatus for receiving a signal transmitted by the transmitting device, connected to the other end of the link. 13. The method of transmitting a signal through a communication line containing the first and second sections of a single-mode optical fiber, which consists in supplying a signal to the communication line, transmitting a signal along the first section of the optical fiber with a negative dispersion, the absolute value of from about 4 to about 7 ps / (nm ^km.) at 1,560 nm, compensate the negative dispersion of the first portion, directing the second signal portion of the optical fiber with positive dispersion at 1560 nm, whereby the link total dispersion becomes zero, moreover, the length of the first section exceeds the length of the second section, divert the signal from the communication line. 14. The method according to item 13, in which the signal is supplied to the communication line by means of a transmitting device. 15. The method according to item 13, in which the signal is diverted from the communication line by means of a receiving device. 16. An optical communication line comprising a first portion comprising at least one single mode fiber with negative dispersion equal in absolute value, from about 2.5 to about 10 ps / (nm ^km.) At 1,560 nm, and a second portion connected to the first section, and containing at least one single-mode fiber with a positive dispersion of 1560 nm, the positive dispersion of the second section compensating for the negative dispersion of the first section, whereby the total dispersion of the first and second sections is zero, and the length of the first TCA is greater than the length of the second portion, the second portion of the fiber is a fiber with a half-dispersion-shifted, having a length of zero dispersion wavelength of about 1350 to about 1450 nm. 17. The communication line according to clause 16, in which the positive dispersion in the second section is from about 7.5 ps / (nm ^. Km) to about 15.5 ps / (nm ^. Km) at 1560 nm. 18. The communication line according to 17, in which the positive dispersion in the second section is from about 8 ps / (nm ^. Km) to about 13 ps / (nm ^. Km) at 1560 nm. 19. The communication line according to clause 16, in which the ratio of the length of the first section to the length of the second section is less than 6: 1. 20. The communication line according to claim 19, in which the ratio of the length of the first section to the length of the second section is less than 4: 1. 21. The communication line according to clause 16, in which the attenuation coefficient for a fiber with a half-shifted dispersion does not exceed 0.195 dB / km at 1560 nm. 22. A single-mode optical transmitting fiber enclosed in a fiber optic cable and containing a core and a sheath, wherein said core contains an inner core having a first refractive index difference, a first glass layer surrounding the inner core and having a second refractive index difference, the fiber having peak refractive index difference value is not greater than 0.0140, a zero-dispersion wavelength less than 1450 nm, the dispersion is from about 7.5 to about 15.5 ps / (nm ^km.) at the operating wavelength ca. lo 1,560 nm and the effective cross section of at least 60 m ² furthermore has a fiber cable cutoff wavelength less than 1500 nm. 23. The fiber according to item 22, in which the first difference in refractive index is approximately zero, and the second difference in refractive index is greater than zero. 24. The fiber according to item 23, in which the second difference in refractive indices is about 0.0120. 25. The fiber according to item 22, which further comprises a second glass layer surrounding the first glass layer and having a third refractive index difference. 26. The fiber according A.25, in which the second difference in refractive index is greater than the first difference in refractive index and the third difference in refractive index, the first, second and third difference in refractive index is greater than zero. 27. The fiber of claim 26, wherein the first difference in refractive index is about 0.0025, the second difference in refractive index is about 0.0070, and the third difference in refractive index is about 0.0017. 28. The fiber according A.25, in which the first difference in refractive index is greater than zero, the second difference in refractive index is about zero, and the third difference in refractive index is greater than zero. 29. The fiber of claim 28, wherein the first difference in refractive index is about 0.0100, and the third difference in refractive index is about 0.0120. 30. The fiber of claim 28, wherein the first difference in refractive index is from about 0.0070 to about 0.0120, and the third difference in refractive index is from about 0.0030 to about 0.0080. 31. A single-mode high negative dispersion optical transmitting fiber containing a core and a sheath, said core comprising an inner core having a first refractive index difference of from about 0.0100 to about 0.0160, a first glass layer surrounding the inner core and having practically a constant difference in refractive indices, the first difference in refractive indices characterizing the inner core being greater than the second difference in refractive indices characterizing the first glass layer, the second glass layer surrounding the first glass layer and having a third refractive index difference of from about 0.0030 to about 0.0080, wherein the fiber cable cut-off wavelength is less than 1500 nm and the dispersion value at a wavelength of about 1560 nm is from about -8.0 to about -3.0 ps / (nm ^. km). 32. The fiber according to p, in which the outer radius of the inner core is from about 1.9 to about 3.0 microns, the first glass layer extends from the outer radius of the inner core to the outer radius equal to from about 3.5 to about 8, 0 μm, and the second glass layer has a thickness of from about 1.5 to about 4.0 microns.