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异质结双极晶体管电路设计(英文版)
作者:高建军 著
出版社:高等教育出版社
出版时间:2015-06-01
ISBN:9787040421934
定价:¥69.00
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内容简介
《异质结双极晶体管电路设计(英文版)》是作者在微波和光通信领域技术领域多年工作、学习、研究和教学过程中获得的知识和经验的总结,主要内容包括高速光电子器件的工作机理、建模技术和参数提取技术,光接收机和发射机集成电路设计技术,光电子器件小信号等效电路模型、大信号非线性等效电路模型和噪声等效电路模型,以及等效电路模型的参数提取技术等。《异质结双极晶体管电路设计(英文版)》可作为光电子专业、微波专业和电路与系统专业的高年级本科生和研究生教学参考书,也可以供从事集成电路设计的科研人员参考使用。
作者简介
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,在国内外出版学术著作6部。
目录
About the Author
Preface
Acknowledgments
Nomenclature
1 Introduction
1.1 Overview of Heterojunction Bipolar Transistors
1.2 Modeling and Measurement for HBT
1.3 Organization of This Book
References
2 Basic Concept of Microwave Device Modeling
2.1 Signal Parameters
2.1.1 Low-Frequency Parameters
2.1.2 S-Parameters
2.2 Representation of Noisy Two-Port Network
2.2.1 Noise Matrix
2.2.2 Noise Parameters
2.3 Basic Circuit Elements
2.3.1 Resistance
2.3.2 Capacitance
2.3.3 Inductance
2.3.4 Controlled Sources
2.3.5 Ideal Transmission Line
2.4 π- and T-Type Networks
2.4.1 T-Type Network
2.4.2 π-Type Network
2.4.3 Relationship between π- and T-Type Networks
2.5 Deembedding Method
2.5.1 Parallel Deembedding
2.5.2 Series Deembedding
2.5.3 Cascading Deembedding
2.6 Basic Methods of Parameter Extraction
2.6.1 Determination of Capacitance
2.6.2 Determination of Inductance
2.6.3 Determination of Resistance
2.7 Summary
References
3 Modeling and Parameter Extraction Methods of Bipolar
Junction Transistor
3.1 PN Junction
3.2 PN Junction Diode
3.2.1 Basic Concept
3.2.2 Equivalent Circuit Model
3.2.3 Determination of Model Parameters
3.3 BJT Physical Operation
3.3.1 Device Structure
3.3.2 The Modes of Operation
3.3.3 Base-Width Modulation
3.3.4 High Injection and Current Crowding
3.4 Equivalent Circuit Model
3.4.1 E-M Model
3.4.2 G-P Model
3.4.3 Noise Model
3.5 Microwave Performance
3.5.1 Transition Frequency
3.5.2 Common-Emitter Configuration
3.5.3 Common-Base Configuration
3.5.4 Common-Collector Configuration
3.5.5 Summary and Comparisons
3.6 Summary
References
4 Basic Principle of HBT
5 Small-Signal Modeling and Parameter Extraction of HBT
6 Large-Signal Equivalent Circuit Modeling of HRT
7 Microwave Noise Modeling and Parameter Extraction Technique for HBTs
8 SiGe HBT Modeling and Parameter Extraction
Index
Preface
Acknowledgments
Nomenclature
1 Introduction
1.1 Overview of Heterojunction Bipolar Transistors
1.2 Modeling and Measurement for HBT
1.3 Organization of This Book
References
2 Basic Concept of Microwave Device Modeling
2.1 Signal Parameters
2.1.1 Low-Frequency Parameters
2.1.2 S-Parameters
2.2 Representation of Noisy Two-Port Network
2.2.1 Noise Matrix
2.2.2 Noise Parameters
2.3 Basic Circuit Elements
2.3.1 Resistance
2.3.2 Capacitance
2.3.3 Inductance
2.3.4 Controlled Sources
2.3.5 Ideal Transmission Line
2.4 π- and T-Type Networks
2.4.1 T-Type Network
2.4.2 π-Type Network
2.4.3 Relationship between π- and T-Type Networks
2.5 Deembedding Method
2.5.1 Parallel Deembedding
2.5.2 Series Deembedding
2.5.3 Cascading Deembedding
2.6 Basic Methods of Parameter Extraction
2.6.1 Determination of Capacitance
2.6.2 Determination of Inductance
2.6.3 Determination of Resistance
2.7 Summary
References
3 Modeling and Parameter Extraction Methods of Bipolar
Junction Transistor
3.1 PN Junction
3.2 PN Junction Diode
3.2.1 Basic Concept
3.2.2 Equivalent Circuit Model
3.2.3 Determination of Model Parameters
3.3 BJT Physical Operation
3.3.1 Device Structure
3.3.2 The Modes of Operation
3.3.3 Base-Width Modulation
3.3.4 High Injection and Current Crowding
3.4 Equivalent Circuit Model
3.4.1 E-M Model
3.4.2 G-P Model
3.4.3 Noise Model
3.5 Microwave Performance
3.5.1 Transition Frequency
3.5.2 Common-Emitter Configuration
3.5.3 Common-Base Configuration
3.5.4 Common-Collector Configuration
3.5.5 Summary and Comparisons
3.6 Summary
References
4 Basic Principle of HBT
5 Small-Signal Modeling and Parameter Extraction of HBT
6 Large-Signal Equivalent Circuit Modeling of HRT
7 Microwave Noise Modeling and Parameter Extraction Technique for HBTs
8 SiGe HBT Modeling and Parameter Extraction
Index
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