Private: BE EXTC SEM 7 – OPTICAL COMMUNICATION

Module 1 – Optical Fiber and their properties
12 Topics
1.1.a – Historical Development
1.1.b – General System
1.1.c – Advantages, Disadvantages and Applications of Optical Fiber Communication
1.1.d – Optical Fiber Waveguides
1.1.e – Ray Theory
1.1.f – Cylindrical Fiber (No Derivations)
1.1.g – Single Mode Fiber
1.1.h – Cutoff Wave Length and Mode Filed Diameter
1.1.i – Wave Guiding Principles
1.1.j – Theory of Optical Wave Propagation
1.1.k – Types and Classification of Optical Fibers
1.1.l – Loss and Bandwidth Window
Module 2 – Transmission Characteristics of Optical Fiber
18 Topics
2.1.a – Attenuation
2.1.b – Absorption
2.1.c – Linear and Nonlinear Scattering Losses
2.1.d – Bending Losses
2.1.e – Modal Dispersion
2.1.f – Waveguide Dispersion
2.1.g – Dispersion and Pulse Broadening
2.1.h – Dispersion Shifted and Dispersion Flattened Fibers
2.1.i – General Overview of Nonlinearities
2.1.j – Stimulated Raman Scattering
2.1.k – Stimulated Brillouin Scattering
2.1.l – Self Phase Modulation
2.1m – Cross –Phase modulation
2.1.n – Four Wave Mixing and its Mitigation
2.1.o – Solitons
2.1.p – Measurements of : Attenuation
2.1.p – Measurements of : Dispersion
2.1.p – Measurements of : OTDR
Module 3 – Optical Sources
7 Topics
3.1.a – Working Principle and Characteristics of Sources : LED
3.1.a – Working Principle and Characteristics of Sources : LASER
3.1.a – Working Principle and Characteristics of Sources : Tunable Lasers
3.1.a – Working Principle and Characteristics of Sources : Quantum Well Lasers
3.1.b – Charge Capture in Quantum Well Lasers
3.1.c – Multi Quantum well Laser Diodes
3.1.d- Surface Emitting Lasers: Vertical Cavity Surface Emitting Lasers
Module 4 – Optical Detectors
8 Topics
4.1.b – Material requirement for RCEPD
4.1.c Resonant Cavity Enhancement (RCE) Photo Detector
4.1.d – Noise Analysis in Detectors
4.1.e – Coherent and Non-Coherent Detection
4.1.f – Receiver Structure
4.1.g – Bit Error Rate of Optical Receivers, and Receiver Performance
4.1.a – Working Principle and Characteristics of Detectors : PIN
4.1.a – Working Principle and Characteristics of Detectors : APD
Module 5 – Fiber Optic Components
12 Topics
5.1.a – Fiber Fabrication – VAD
5.1.a – Fiber Fabrication – MCVD
5.1.b – Fiber Joints
5.1.d – Fiber Splices
5.1.e – Fiber Couplers
5.1.f – Fiber Gratings
5.1.g – Fabry Perot Filters
5.1.h – Switches
5.1.i – Wavelength Converters
5.1.j – Optical Amplifiers – Basic Applications and Types
5.1.k – Semiconductor Optical Amplifiers
5.1.l – EDFA
Module 6 – Optical Link
9 Topics
6.1.a – Introduction
6.1.b – Point to Point Links
6.1.c – System Considerations for Point to Point Links
6.1.d – Link Power Budget
6.1.e – Rise Time Budget
6.1.f – RF Over Fiber
6.1.g – Key Link Parameters
6.1.h – Radio Over Fiber Links
6.1.i – Microwave Photonics
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1.1.c – Advantages, Disadvantages and Applications of Optical Fiber Communication

Private: BE EXTC SEM 7 – OPTICAL COMMUNICATION Module 1 – Optical Fiber and their properties 1.1.c – Advantages, Disadvantages and Applications of Optical Fiber Communication
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