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BSI PD IEC/TR 61292-6:2010

BSI PD IEC/TR 61292-6:2010

$142.49

Optical amplifiers – Distributed Raman amplification

Published By Publication Date Number of Pages
BSI 2010 30
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This part of IEC 61292, which is a technical report, deals with distributed Raman amplification (DRA). The main purpose of the report is to provide background material for future standards (specifications, test methods and operating procedures) relating to DRA. The report covers the following aspects:

  • general overview of Raman amplification;

  • applications of DRA;

  • performance characteristics and test methods related to DRA;

  • operational issues relating to the deployment of DRA.

As DRA is a relatively young technology, and still rapidly evolving, some of the material in this report may become obsolete or irrelevant in a relatively short period. This technical report will be frequently updated in order to minimize this possibility.

PDF Catalog

PDF Pages PDF Title
4 CONTENTS
6 FOREWORD
8 INTRODUCTION
9 1 Scope
2 Normative references
10 3 Abbreviated terms
4 Background
4.1 General
4.2 Raman amplification process
11 Figures
Figure 1 – Stimulated Raman scattering process (left) and Raman gain spectrum for silica fibres (right)
12 4.3 Distributed vs. lumped amplification
4.4 Tailoring the Raman gain spectrum
Figure 2 – Distributed vs. lumped amplification
13 4.5 Forward and backward pumping configuration
Figure 3 – The use of multiple pump wavelengths to achieve flat broadband gain
Figure 4 – Simulation results showing pump and signal propagation along an SMF span in forward (right plot) and backward (left plot) pumping configurations
14 4.6 Typical performance of DRA
15 5 Applications of distributed Raman amplification
5.1 General
5.2 All-Raman systems
Figure 5 – On-off gain and equivalent NF for SMF using a dual pump backward DRA with pumps at 1 424 nm and 1 452 nm
16 5.3 Hybrid EDFA Raman systems
Figure 6 – Typical configuration of an amplification site in an all-Raman system
17 6 Performance characteristics and test methods
6.1 General
18 6.2 Performance of the Raman pump module
Figure 7 – Typical configuration of a Raman pump module used for counter-propagating DRA
20 6.3 System level performance
Figure 8 – Model for signal insertion loss (IL) of a Raman pump module used for counter-propagating DRA
21 Figure 9 – Typical configuration used to measure on of gain (a) for co-propagating DRA and (b) for counter-propagating DRA
23 7 Operational issues
7.1 General
7.2 Dependence of Raman gain on transmission fibre
24 7.3 Fibre line quality
7.4 High pump power issues
Figure 10 – Variations of Raman on-off gain for different transmission fibres
26 8 Conclusions
27 Bibliography

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BSI PD IEC/TR 61292-6:2010
$142.49