Claims
- 1. An optical amplifier site connected to a distributed Raman amplifier fiber, said optical amplifier site comprising:
(vi) a distributed Raman amplifier pump module, connected to said distributed Raman amplifier fiber, such that said Raman amplifier fiber and said pump module form a distributed Raman amplifier that provides a first signal gain level, said first gain level being greater than 10 dB; (vii) an optical amplifier located downstream from said distributed Raman amplifier, said optical amplifier being indirectly coupled to said distributed Raman amplifier, said optical amplifier including a first amplification medium, providing a second signal gain level; (viii) at least one active optical signal loss element located between said distributed Raman amplifier and said optical amplifier, said at least one loss element contributing to optical loss of said amplifier site and providing at least 0.5 dB loss; (ix) a second amplification medium located down stream from said first amplification medium; (x) at least another one active optical signal loss element, said at least another one optical signal loss element being located between said first amplification medium and said second amplification medium.
- 2. The optical amplifier site according to claim 1, wherein said first amplification medium Er doped fiber coil and second amplification medium is Er doped fiber coil.
- 3. The optical amplifier site according to claim 1, wherein said optical amplifier is a multi stage Er doped amplifier, said first amplification medium is included in a first stage of said optical amplifier and said second amplification medium is included in a second stage of said optical amplifier.
- 4. The optical amplifier site according to claim 1, wherein said amplifier site includes a second optical amplifier, said second optical amplifier including said second amplification medium.
- 5. The optical amplifier site according to claim 1, wherein said at least one active optical signal loss element located between said distributed Raman amplifier and said optical amplifier provides at least 1 dB loss.
- 6. The optical amplifier site according to claim 5, wherein said loss is between 1 dB and 10 dB.
- 7. The optical amplifier site according to claim 5, wherein said loss is between 1 dB and 7 dB.
- 8. The optical amplifier site according to claim 5, wherein said loss is between 1 dB and 5 dB.
- 9. The optical amplifier site according to claim 1, wherein said first signal gain level is larger than 10 dB.
- 10. The optical amplifier site according to claim 1, wherein span loss associated with the distributed Raman amplifier fiber is less than 21 dB.
- 11. The optical amplifier site according to claim 1, wherein said optical signals amplified are within 1525 nm and 1625 nm wavelength band.
- 12. The optical amplifier site according to claim 1, wherein said Raman amplifier utilizes optical transmission fiber as gain fiber.
- 13. The optical amplifier site according to claim 12, wherein said optical transmission fiber is not doped with a rare earth element.
- 14. The optical amplifier site according to claim 12, wherein said Raman amplifier utilizes dispersion flattened fiber.
- 15. An optical amplifier site connected to a distributed Raman amplifier fiber, said optical amplifier site comprising: (i) a distributed Raman amplifier pump module, connected to said distributed Raman amplifier fiber, such that said Raman amplifier fiber and said pump module form a distributed Raman amplifier that provides a first signal gain level; (ii) an optical amplifier located downstream from said distributed Raman amplifier, said optical amplifier being indirectly coupled to said distributed Raman amplifier, said optical amplifier including a first amplification medium, providing a second signal gain level; (iii) at least one active optical signal loss element located between said distributed Raman amplifier and said optical amplifier, said at least one active optical signal loss element contributing to optical loss of said amplifier site and providing a first amount of optical signal loss, said first amount of optical signal loss being at least 0.5 dB; (iv) a second amplification medium located down stream from said first amplification medium; (v) at least another one active optical signal loss element providing a second amount of optical signal loss, said at least another one active optical signal loss element being located between said first amplification medium and said second amplification medium; and (vi) wherein said amplifier site has an improved Noise Figure NF when compared to an amplifier site without said at least one active optical signal loss element located between said distributed Raman amplifier and said optical amplifier, so that all optical signal loss elements are situated between said first amplification medium and said second amplification medium, such that said the active optical signal loss elements that are being located between said first amplification medium and said second amplification medium provide an amount of loss that equals to the sum of the first amount of optical signal loss and the second amount of optical signal loss.
- 16. A transmission system comprising: (i) a distributed Raman amplifier that provides a first signal gain level of more than 10 dB; (ii) a discrete optical amplifier located downstream from said distributed Raman amplifier, said discrete optical amplifier being indirectly coupled to said distributed Raman amplifier, said discrete optical amplifier including a first amplification medium, providing a second signal gain level; (iii) at least one active optical signal loss element located between said distributed Raman amplifier and said optical amplifier, said at least one loss element contributing to optical loss of said amplifier site and providing at least 0.5 dB loss; (iv) a second amplification medium located down stream from said first amplification medium; (v) at least another one active optical signal loss element, said at least another one optical signal loss element being located between said first amplification medium and said second amplification medium.
- 17. The optical amplifier site according to claim 16, wherein said discrete optical amplifier is a multi stage Er doped amplifier, said first amplification medium is included in a first stage of said discrete optical amplifier and said second amplification medium is included in a second stage of said optical amplifier.
- 18. The optical amplifier site according to claim 1, wherein said amplifier site includes a second discrete optical amplifier, said second discrete optical amplifier including said second amplification medium.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit of U.S. Provisional Application Serial No. 60/310,662, filed Aug. 7, 2001 entitled Method To Improve Noise Accumulation At An Amplifier Site, by V Srikant and Martin R. Williams.
Provisional Applications (1)
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Number |
Date |
Country |
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60310662 |
Aug 2001 |
US |