Keywords:
Plastic optical fibers.
;
Electronic books.
Description / Table of Contents:
Presenting the basics and also the cutting-edge of high-data-rate transmission via plastic optical fibers, this book is a key contribution to the literature on multilevel communication, and features detailed circuit diagrams and accessibly presented results.
Type of Medium:
Online Resource
Pages:
1 online resource (156 pages)
Edition:
1st ed.
ISBN:
9783642303883
Series Statement:
Springer Series in Optical Sciences Series ; v.172
URL:
https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=3071049
DDC:
621.38275
Language:
English
Note:
Intro -- Optical Communication over Plastic Optical Fibers -- Preface -- Acknowledgments -- Contents -- Symbols -- Acronyms -- 1 Introduction -- 2 Multilevel Signaling -- 2.1 Introduction -- 2.2 Multilevel Signaling and Channel Capacity -- 2.3 Optimum Number of PAM Levels -- 2.4 M-PAM Symbol Error Rate -- 2.5 Bit Error Rate for Binary Signals -- 2.6 M-PAM Generation and Decoding -- 2.6.1 M-PAM Generation -- 2.6.2 M-PAM Decoding -- 2.7 DC Balance Code -- 2.8 Multilevel Signaling Related Work -- 3 Equalization Techniques -- 3.1 Passive Equalizer -- 3.2 Active Equalizer -- 3.2.1 Source Degeneration -- 3.2.2 Differential Source Degeneration Adjustable Equalizer -- 3.2.3 Inductive Load Amplifier -- 3.3 Filter Implementation Using Transversal and Lattice Structures -- 3.4 Linear Equalization -- 3.4.1 Continuous Time FIR Filter Implementation -- 3.4.2 Discrete Time FIR Filter Implementation -- 3.5 Equalization Algorithms -- 3.6 Adaptive Equalization -- 3.6.1 Continuous Time Adaptive Equalizer -- 3.6.2 Discrete Time Adaptive Equalizer -- 3.7 Nonlinear Equalization -- 3.7.1 Decision Feedback Equalizers (DFE) -- 3.7.2 MLSE Nonlinear Equalization -- 3.8 Performance Comparison of Equalization Methods -- 4 High-Speed Transmission over Step-Index PMMA Plastic Optical Fibers -- 4.1 Why Large-Core PMMA POF? -- 4.2 POF Main Applications -- 4.3 Characteristics of Step-Index PMMA POF -- 4.3.1 POF Frequency Response and Bandwidth -- 4.3.2 POF Bending Loss -- 4.3.3 POF Coupling Loss -- 4.4 Light Sources for PMMA POF -- 4.4.1 Light Source Modulation -- 4.4.2 Laser Diode Modulation -- 4.4.3 Laser Nonlinearity -- 4.5 Minimizing the Effects of POF Modal Dispersion -- 4.6 State of the Art for Transmission over Standard PMMA SI-POF -- 4.6.1 Without Using Equalization -- 4.6.2 By Using Equalization -- 5 Integrated Photodiode -- 5.1 Optical Absorption.
,
5.2 Photodiode Responsivity -- 5.3 Quantum Efficiency -- 5.4 Carrier Drift and Diffusion -- 5.5 PIN Photodiode Capacitance -- 5.6 Photodiode Speed -- 5.7 Structure of the Implemented Photodiode -- 6 Transimpedance Amplifier -- 6.1 Introduction -- 6.2 Transimpedance Amplifier -- 6.3 Shunt-Shunt Feedback TIA -- 6.3.1 Frequency Response -- 6.3.2 TIA Noise Analysis -- 6.3.3 TIA with Common-Emitter Input Stage -- 6.3.4 TIA with Common-Source Input Stage -- 6.3.5 Multistage Inverter Based CMOS TIA -- 6.4 Common-Base/Gate Input Stage -- 6.5 Regulated-Cascode TIA -- 6.6 Inverter Based Common-Drain Feedback TIA -- 6.7 TIA with Gain Control -- 6.8 Post Amplifier -- 6.8.1 Limiting Amplifier -- 6.8.2 AGC Amplifier -- 6.9 Dynamic Range -- 7 Integrated Optical Receiver and Multilevel Transmission over PMMA SI-POF -- 7.1 Optical Receiver with 622MHz Bandwidth -- 7.1.1 Circuit Description -- 7.1.2 Experimental Results -- 7.1.3 Gigabit Transmission over SI-POF -- 7.1.4 1Gbit/s over 20m POF -- 7.2 Optical Receiver with 200MHz Bandwidth -- 7.2.1 Experimental Results -- 7.2.2 500Mbit/s Transmission over SI-POF -- 7.3 High Linearity Optical Receiver with 112MHz Bandwidth -- 7.3.1 Circuit Description -- 7.3.2 Experimental Results -- 7.3.3 500Mbit/s Transmission over 40m SI-POF -- 7.3.4 400Mbit/s Transmission over 50m POF -- 7.3.5 170Mbit/s Transmission over 115m SI-POF -- 8 Equalizer Implementations for SI-POF -- 8.1 Equalized Giga-Bit Transmission over SI-POF -- 8.2 Fully Integrated Optical Receiver Containing an Equalizer -- 8.2.1 The Integrated SI-POF Equalizer -- 8.2.2 Experimental Results for Two-Stage Equalizer -- 8.2.3 Experimental Results for Single-Stage Equalizer -- 8.3 Summary of Integrated Optical Receivers -- 9 Conclusions -- References -- About the Authors -- Index.
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