光电集成电路设计与器件建模

内容概要

　　高建军，华东师范大学教授，博士生导师，“紫江学者”特聘教授，中国科学院微电子研究所客座教授，中国电子学会高级会员，IEEE高级会员，2005年入选教育部“新世纪人才支持计划”。任多个国际微波学术刊物的编委和审稿人，出版学术专著5部，发表SCI论文40篇，EI论文40篇。

书籍目录

PrefaceAbout the Author1  NomenclatureIntroduction1.1  Optical Communication System1.2  Optoelectronic Integrated Circuit Computer-Aided Design1.3  Organization of This BookReferences2  Basic Concept of Semiconductor Laser Diodes2.1  Introduction2.2  Basic Concept2.2.1  Atom Energy2.2.2  Emission and Absorption2.2.3  Population Inversion2.3  Structures and Types2.3.1  Homojunction and Heterojunction2.3.2  Index Guiding and Gain Guiding2.3.3  Fabry-Perot Cavity Lasers2.3.4  Quantum-Well Lasers2.3.5  Distributed Feedback Lasers2.3.6  Vertical-Cavity Surface-Emitting Lasers2.4  Laser Characteristics2.4.1  Single-Mode Rate Equations2.4.2  Multimode Rate Equations2.4.3  Small-Signal Intensity Modulation2.4.4  Small-Signal Frequency Modulation2.4.5  Large-Signal Transit Response2.4.6  Second Harmonic Distortion2.4.7  Relative Intensity Noise2.4.8  Measurement Technique2.5  SummaryReferences3  Modeling and Parameter Extraction Techniques of Lasers3.1  Introduction3.2  Standard Double Heterojunction Semiconductor Lasers3.2.1  Large-Signal Model3.2.2  Small-Signal Model3.2.3  Noise Model3.3  Quantum-Well Lasers3.3.1  One-Level Equivalent Circuit Model3.3.2  Two-Level Equivalent Circuit Model3.3.3  Three-Level Equivalent Circuit Model3.4  Parameter Extraction Methods3.4.1  Direct-Extraction Method3.4.2  Semi-Analytical Method3.5  SummaryReferences4  Microwave Modeling Techniques of Photodiodes4.1  Introduction4.2  Physical Principles4.3  Figures of Merit4.3.1  Responsivity4.3.2  Quantum Efficiency4.3.3  Absorption Coefficient4.3.4  Dark Current4.3.5  Rise Time and Bandwidth4.3.6  Noise Currents4.4  Microwave Modeling Techniques4.4.1  PIN PD4.4.2  APD4.5  SummaryReferences5  High-Speed Electronic Semiconductor Devices5.1  Overview of Microwave Transistors5.2  FET Modeling Technique5.2.1  FET Small-Signal Modeling5.2.2  FET Large-Signal Modeling5.2.3  FET Noise Modeling5.3  GaAs/InP HBT Modeling Technique5.3.1  GaAs/InP HBT Nonlinear Model5.3.2  GaAs/InP HBT Linear Model5.3.3  GaAs/InP HBT Noise Model5.3.4  Parameter Extraction Methods5.4  SiGe HBT Modeling Technique5.5  MOSFET Modeling Technique5.5.1  MOSFET Small-Signal Model5.5.2  MOSFET Noise Model5.5.3  Parameter Extraction Methods5.6  SummaryReferences6  Semiconductor Laser and Modulator Driver Circuit Design6.1  Basic Concepts6.1.1  NRZ and RZ Data6.1.2  Optical Modulation6.1.3  Optical External Modulator6.2  Optoelectronic Integration Technology6.2.1  Monofithic Optoelectronic Integrated Circuits6.2.2  Hybrid Optoelectronic Integrated Circuits6.3  Laser Driver Circuit Design6.4  Modulator Driver Circuit Design6.4.1  FET-Based Driver Circuit6.4.2  Bipolar Transistor-Based Driver Integrated Circuit6.4.3  MOSFET-Based Driver Integrated Circuit6.5  Distributed Driver Circuit Design6.6  Passive Peaking Techniques6.6.1  Capacitive Peaking Techniques6.6.2  Inductive Peaking Techniques6.7  SummaryReferences7  Optical Receiver Front-End, Integrated Circuit Design7.1  Basic Concepts of the Optical Receiver7.1.1  Signal-to-Noise Ratio7.1.2  Bit Error Ratio7.1.3  Sensitivity7.1.4  Eye Diagram7.1.5  Signal Bandwidth7.1.6  Dynamic Range7.2  Front-End Circuit Design7.2.1  Hybrid and Monolithic OEIC7.2.2  High-Impedance Front-End7.2.3  Transimpedance Front-End7.3  Transi-mpedance Gain and Equivalent Input Noise Current7.3.1  S Parameters of a Two-Port Network7.3.2  Noise Figure of a Two-Port Network7.3.3  Transimpedance Gain7.3.4  Equivalent Input Noise Current7.3.5  Simulation and Measurement of Transimpedance Gain and Equivalent Input Noise Current7.4  Transimpedance Amplifier Circuit Design7.4.1  BJT-Based Circuit Design7.4.2  HBT-Based Circuit Design7.4.3  FET-Based Circuit Design7.4.4  MOSFET-Based Circuit Design7.4.5  Distributed Circuit Design7.5  Passive Peaking Techniques7.5.1  Inductive Peaking Techniques7.5.2  Capacitive Peaking Techniques7.6  Matching Techniques7.7  SummaryReferencesIndex

作者简介

《光电集成电路设计与器件建模(英文版)》主要介绍微波技术在光电子集成电路设计领域的应用，内容涵盖先进的半导体光电子器件建模技术、高速光发射和接收电路设计技术，器件涉及半导体激光器、半导体探测器以及多种高速半导体器件，特别是对于双极晶体管和场效应晶体管在超高速光电子集成电路中的应用进行了详细的讨论。

《光电集成电路设计与器件建模(英文版)》在微波器件建模技术和光电子集成电路设计之间架起了一座学科贯通的桥梁，非常适合微波射频领域和光电子领域的高年级本科生、研究生和科研工作人员入门学习。

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