Design of Integrated Circuits for Optical Communications

ISBN-10: 1118336941

ISBN-13: 9781118336946

Edition: 2nd 2012

Authors: Behzad Razavi

List price: $132.00
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The increasing demand for high-speed transport of data has revitalized optical communications, leading to extensive work on high-speed device and circuit design. This book deals with the design of high-speed integrated circuits for optical communication transceivers.Building upon a detailed understanding of optical devices, the book describes the analysis and design of critical building blocks, such as transimpedance and limiting amplifiers, laser drivers, phase-locked loops, oscillators, clock and data recovery circuits, and multiplexers.This second edition of this best selling textbook has been updated to provide information on the latest developments in the field.
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Book details

List price: $132.00
Edition: 2nd
Copyright year: 2012
Publisher: John Wiley & Sons, Incorporated
Publication date: 8/21/2012
Binding: Hardcover
Pages: 442
Size: 7.75" wide x 10.00" long x 1.00" tall
Weight: 2.420
Language: English

Preface to First Edition
About the Author
Introduction to Optical Communications
Brief History
Generic Optical System
Design Challenges
State of the Art
Basic Concepts
Properties of Random Binary Data
Generation of Random Data
Data Formats
NRZ and RZ Data
8B/10B Coding
Effect of Bandwidth Limitation on Random Data
Effect of Low-Pass Filtering
Eye Diagrams
Effect of High-Pass Filtering
Effect of Noise on Random Data
Phase Noise and Jitter
Phase Noise
Relationship Between Phase Noise and Jitter
Jitter Due to Additive Noise
Transmission Lines
Ideal Transmission Lines
Lossy Transmission Lines
Optical Devices
Laser Diodes
Operation of Lasers
Types of Lasers
Properties of Lasers
External Modulation
Optical Fibers
Fiber Loss
Fiber Dispersion
Responsivity and Efficiency
PIN Diodes
Avalanche Photodiodes
Optical Systems
Transimpedance Amplifiers
General Considerations
TLA Performance Parameters
SNR Calculations
Noise Bandwidth
Open-Loop TIAs
Low-Frequency Behavior
High-Frequency Behavior
Feedback TIAs
First-Order TIA
Second-Order TIA
Supply Rejection
Differential TIAs
High-Performance Techniques
Gain Boosting
Capacitive Coupling
Feedback TIAs
Inductive Peaking
Automatic Gain Control
Case Studies
New Developments in TLA Design
Limiting Amplifiers and Output Buffers
General Considerations
Performance Parameters
Cascaded Gain Stages
AM/PM Conversion
Broadband Techniques
Inductive Peaking
Capacitive Degeneration
Cherry-Hooper Amplifier
f<sub>T</sub> Doublers
Output Buffers
Differential Signaling
Double Termination
Predriver Design
Distributed Amplification
Monolithic Transmission Lines
Distributed Amplifiers
Distributed Amplifiers with Lumped Devices
Other Broadband Techniques
T-Coil Peaking
Negative Capacitance
Active Feedback
Triple-Resonance Peaking
Oscillator Fundamentals
General Considerations
Ring Oscillators
LC Oscillators
Crossed-Coupled Oscillator
Colpitts Oscillator
One-Port Oscillators
Voltage-Controlled Oscillators
Tuning in Ring Oscillators
Tuning in LC Oscillators
Mathematical Model of VCOs
LC Oscillators
Monolithic Inductors
Loss Mechanisms
Inductor Modeling
Inductor Design Guidelines
Monolithic Varactors
Basic LC Oscillators
Differential Control
Design Procedure
Quadrature Oscillators
In-Phase Coupling
Antiphase Coupling
Distributed Oscillators
Phase-Locked Loops
Simple PLL
Phase Detector
Basic PLL Topology
Dynamics of Simple PLL
Charge-Pump PLLs
Problem of Lock Acquisition
Phase/Frequency Detector and Charge Pump
Basic Charge-Pump PLL
Nonideal Effects in PLLs
PFD/CP Nonidealities
Jitter in PLLs
Delay-Locked Loops
Frequency Multiplication and Synthesis
Skew Reduction
Jitter Reduction
Clock and Data Recovery
General Considerations
Phase Detectors for Random Data
Hogge Phase Detector
Alexander Phase Detector
Half-Rate Phase Detectors
Frequency Detectors for Random Data
CDR Architectures
Full-Rate Referenceless Architecture
Dual-VCO Architecture
Dual-Loop Architecture with External Reference
Quarter-Rate Phase Detectors
Jitter in CDR Circuits
Jitter Transfer
Jitter Generation
Jitter Tolerance
Multiplexers and Laser Drivers
2-to-1 MUX
MUX Architectures
Frequency Dividers
Flipflop Dividers
Miller Divider
Laser and Modulator Drivers
Performance Parameters
Design Principles
Power Control
New Developments in Laser Driver Design
Burst-Mode Circuits
Passive Optical Networks
Burst-Mode TIAs
TIA with Top and Bottom Hold
Burst-Mode TIA Variants
Offset Correction in Limiting Amplifiers
Burst-Mode CDR Circuits
Effect of Finite Delays
Effect of Frequency Mismatch and Offset
Jitter Characteristics
Alternative BM CDR Architectures
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