RU97105378A - SWITCHABLE FIBER OPTICAL DEVICE FOR FIBER TRANSMISSION SYSTEM AND ITS COMPONENTS - Google Patents

Claims (16)

1. Optical fiber device with switchable performance, comprising a first fiber for propagating a light wave and a loop portion of a fiber for propagating a light wave connected to said first fiber between the first and second ends of the first fiber through an optical switch to form an optical path from the first fiber to the specified the loop portion of the fiber and again along the first fiber, when the specified switch is in the "on" position, and to form an optical paths along the first fiber, without passing the loop portion of the fiber when the switch is in the off position.  2. The optical fiber device according to claim 1, characterized in that said loop fiber section includes a plurality of fiber sections separated from each other, each section being connected to said first fiber between its first and second ends through an optical switch connected to each section fiber, to provide an optical path from the first fiber along each specified loop section of the fiber and again along the first fiber, when each specified switch associated with each section of the fiber finds I in the "on" and for providing an optical path along the first fiber without passing through each respective fiber loop portion, when each said switch is in the "off" position.  3. The optical fiber device according to claim 1, characterized in that it comprises first and second additional optical switches connected respectively to said first and second ends of the first fiber for connecting said device to another fiber.  4. Device for amplifying and / or filtering an optical signal, comprising a fiber carrying a pump signal, a fiber carrying a data signal, a fiber stage for amplifying a data signal doped with a substance fluorescent in the presence of a pump signal, an optical communication device for connecting a fiber carrying a signal pumping, and the fiber carrying the data signal with the first end of the fiber amplification stage and a unit including the first fiber, the first end of which is connected to the second end of the fiber amplification stage, and loop learning a fiber current connected to said first fiber between the first and second ends of the first fiber through an optical switch to provide an optical path from the first fiber to the loop portion of the fiber and again along the first fiber when the switch is in the on position and to provide an optical path along the first fiber, without passing through the loop portion of the fiber when said switch is in the off position.  5. The device according to any preceding paragraph, characterized in that said loop section is a dispersion-compensating fiber or fiber doped with a substance capable of amplifying or absorbing light of a given wavelength, respectively, in the presence or absence of a pump signal in said loop fiber.  6. The device according to claim 5, characterized in that the dopant is a suitable form of the rare earth element.  7. The device according to any one of the preceding paragraphs, characterized in that said first fiber and said loop portion of a fiber contain fibers having a critical wavelength of about 900 - 1400 nm.  8. The device according to claim 4, characterized in that said loopback fiber section contains a plurality of fiber sections separated from each other, each of which is connected to said first fiber between its first and second ends by means of an optical switch connected respectively to each fiber section , to form an optical path from the first fiber to each corresponding loop section of the fiber and again along the first fiber, when each specified switch associated with each section, respectively olokna is in the "on" position, and for forming an optical path along the first fiber without passing through the loop of each fiber section when each said switch is in the "off" position.  9. The device according to claim 4, characterized in that it contains a first and second additional optical switches connecting respectively the first end of the first fiber to the second end of the fiber amplification stage, and the second end of the first fiber to another portion of the transmitting fiber, parallel to the portion of the transmitting fiber, connecting the second end of the fiber amplification stage and the specified other section of the transmitting fiber.  10. The device according to claim 4, characterized in that it further comprises a second fiber stage for amplifying the data signal, doped with a substance fluorescent in the presence of a pump signal, and connected with its first end to the second end of the first fiber.  11. The device according to claim 10, characterized in that the loop portion of the fiber contains fiber that compensates for the dispersion.  12. The device according to claim 8, characterized in that said sections of loop fibers are selected from a) sections of fiber of the same length, having the same dispersion values, b) sections of fiber of the same length, having different dispersion values, c) sections of fiber of different lengths.  13. The device according to claim 11, characterized in that it comprises a first and second additional optical switches connecting respectively the first end of the first fiber to the specified second end of the fiber amplification stage, and the second end of the first fiber with the first end of the second fiber amplifying data signal stage parallel to the portion of the transmitting fiber connecting the second end of the fiber amplification stage and the first end of the second fiber amplification stage of the data signal.  14. Optical fiber device with switchable performance, comprising an input fiber, 1xN optical switch, the common connection point of which is optically connected to the second end of the input fiber, the first route fiber with known characteristic parameters, optically connected to the first switch connection point, Nth route fiber with known characteristic parameters that differ from the parameters of any other routing fiber connected to the Nth connection point breakers, wherein a signal propagating in the input fiber towards the route fibers can be selectively switched so that it is spread on one of the N route fibers, and output fiber means for optically coupling N route fibers with a first end of the output fiber.  15. The optical fiber device according to 14, characterized in that N route fibers are doped with a substance that fluoresces in the presence of pump energy.  16. The optical fiber device according to 14, characterized in that it contains an additional 1xN optical switch, the first connection point of which is optically connected to any one of the N routing fibers between the 1xN optical switch and optical connecting means, additional N routing fibers connected to other N points of connection of the additional switch and means for connecting additional N route fibers to the specified one of the N route fibers after the additional optical switch Recipient 1xN.