High Speed, High Performance Laser Module

We will present the performance data and discuss a few pertinent design details of a cooled directly modulated laser (DML) module that is targeted for use in several SONET OC-192 applications and capable of addressing 10G Ethernet requirements. The intent of the presentation is to demonstrate the pe...

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Bibliographic Details
Main Authors: Benzoni, Albert, Downie, Mark, Kasper, Bryon, Paslaski, Joel, Peral, Eva, Wu, Xin Mei, Schrans, Thomas, Swass, Matt, Tsai, Charles, Ury, Israel
Format: Book Part
Language:unknown
Published: IEEE 2000
Subjects:
DML
Online Access:https://authors.library.caltech.edu/27938/
https://resolver.caltech.edu/CaltechAUTHORS:20111123-085200989
Description
Summary:We will present the performance data and discuss a few pertinent design details of a cooled directly modulated laser (DML) module that is targeted for use in several SONET OC-192 applications and capable of addressing 10G Ethernet requirements. The intent of the presentation is to demonstrate the performance potential of the module operating at 1310 nm wavelength for these applications. The four primary technical areas of focus are: (1) the ability to continuously operate in adverse environmental conditions, i.e. 85°C case temperature, (2) demonstrate transmission up to 80 km is achievable via use of, (3) a high efficiency optical coupling design, and (4) ease of RF interface due to low RF return loss and high bandwidth. These all assume that the laser's intrinsic design is properly specified and well matched to the package design. The regime of engineering design is approaching the practical limits and diminishing returns in terms of RF and optical coupling efficiencies. This suggests that further substantial improvements require a change in the underlying technology.