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OPTO-ELECTRONIQUE
Département Génie
Electricité-Electronique (&informatique)
Semestre 8, Coefficient 2, Total 32 heures
(Cours 16h., Travaux Dirigés 16h.)
PLAN
du COURS selon Dr M. ZIADE'
Références principales (à la Bibliothèque de Génie 1) = Main references:
- Optical Fiber Communications (Third Edition), G. Keiser, © McGraw-Hill International Editions, Electrical Engineering Series, 2000.
- Practical Fiber Optics, D. Bailey, E. Wright, © Elsevier, Electrical Engineering Series, 2003.
- Lightwave Technology (Telecommunication Systems), G. Agrawal, © Wiley-Interscience, 2005.
- Fiber-Optic Communications, P. Lecoy, © Wiley-Iste, 2008.
- ..., ...
Autres références (à la Bibliothèque de Génie 1) = Other references:
- Optical Communication Theory and Techniques (Third Edition), E. Forestieri, © Springer, 2005.
- Optical Fiber Telecommunications (Components and Subsystems), I. Kaminow, T. Li, A. Willner, © Elsevier, 2008.
- ..., ...
OPTOELECTRONIC
The objectives of this course are to give students:
1. An understanding of operation and design of optical fiber systems (and dielectric waveguides)
2. An understanding of the electromagnetic theory as related to lightwave signals (fiber guided)
3. A knowledge of how to analyze signals in optical fibers (including
mode interaction, signal attenuation and dispersion, pulse spreading)
4. An ability to choose and evaluate system components (such as fibers,
light sources/transmitters, detectors/receivers, connectors and
couplers)
5. An ability to design and analyze a fiber system to meet desired
needs. An ability to design and analyze basic optical communication
networks
At the end of the course, students:
1. Are familiar with fundamental principles of optical links operation
2. Are familiar with optical links advantages and disadvantages
3. Are familiar with fiber types (single-mode, multimode, graded-index)
4. Understand and calculate fiber acceptance angle and numerical aperture (NA)
5. Understand and evaluate optical fiber modes (TE, TM, HE, LP)
6. Understand and calculate attenuation and distortion in optical links
7. Understand, design and calculate power budget for optical links
8. Understand, design and calculate rise time budget for optical links
9. Understand and calculate optical time domain reflectometry (OTDR)
10. Understand and evaluate LED and Laser diode sources for optical links
11. Understand source-to-fiber power launching, coupling by lens, splicing, …
12. Understand optical amplifiers and erbium-doped fiber amplifiers (EDFA)
13. Understand and calculate pin and avalanche photo-diode (APD) detectors
14. Understand and calculate noises (thermal, quantum, shot, …) in receivers
15. Understand and evaluate time domain measurements (eye diagrams)
16. Apply all prior knowledge to model and design a full fiber optics link
Département
GENIE ELECTRICITE-ELECTRONIQUE (&INFORMATIQUE)
- Cours
ELECTROMAGNETISME DES MILIEUX
- Cours
PROPAGATION GUIDEE
- Cours OPTO-ELECTRONIQUE
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