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Tables of Contents for Rf and Microwave Semiconductor Device Handbook
Chapter/Section Title
Page #
Page Count
Varactors
Jan Stake
Introduction
1
1
Basic Concepts
1
4
Varactor Applications
5
5
Varactor Devices
10
Schottky Diode Frequency Multipliers
Jack East
Introduction
1
1
Schottky Diode Characteristics
2
2
Analytic Descriptions of Diode Multipliers
4
1
Computer-Based Design Approaches
4
3
Device Limitations and Alternative Device Structures
7
3
Summary and Conclusions
10
Transit Time Microwave Devices
Robert J. Trew
Introduction
1
1
Semiconductor Material Properties
1
2
Two-Terminal Active Microwave Devices
3
Defining Terms
10
Bipolar Junction Transistors
John C. Cowles
Introduction
1
1
Basic Operation
2
Heterostructure Bipolar Transistors
William Liu
Basic Device Principle
1
6
Base Current Components
7
5
Kirk Effects
12
2
Collapse of Current Gain
14
2
High Frequency Performance
16
4
Device Fabrication
20
Metal-Oxide-Semiconductor Field-Effect Transistors
Leonard Mac Eachern
Tajinder Manku
Introduction
1
1
Mosfet Fundamentals
2
8
Cmos at Radio Frequencies
10
10
Mosfet Noise Sources
20
4
Mosfet Design for Rf Operation
24
3
Mosfet Layout
27
1
The Future of Cmos
28
Metal Semiconductor Field Effect Transistors
Michael S. Shur
Introduction
1
1
Principle of Operation
2
2
Properties of Semiconductor Materials Used in Mesfet Technology
4
1
Schottky Barrier Contacts
5
4
Mesfet Technology
9
3
Mesfet Modeling
12
4
Hetero-Dimensional (2D Mesfets)
16
4
Applications
20
High Electron Mobility Transistors
Prashant Chavarkar
Umesh K. Mishra
Introduction
1
1
Hemt Device Operation and Design
2
6
Scaling Issues in Ultra-High-Speed Hemts
8
3
Material Systems for Hemt Devices
11
2
Aiga as/ingaas/gaas Pseudomorphic Hemt (GaaspHemt)
13
5
Alinas/gainas/inp (InpHemt)
18
4
Technology Comparisons
22
2
Conclusion
24
RF Power Transistors from Wide Bandgap Materials
Karen E. Moore
Introduction
1
1
Figures of Merit for RF Power Transistors
2
1
Common Rf Power Devices from Wide Bandgap Materials
3
4
Desirable Material Properties for Rf Power Transistors
7
3
State-of-the-Art Wide Bandgap Microwave Transistor Data
10
2
Challenges to Production
12
2
Conclusion
14
Monolithic Microwave IC Technology
Lawrence P. Dunleavy
Overview
1
6
Basic Principles of GaAs Mesfets and Hemts
7
5
Mmic Lumped Elements: Resistors, Capacitors, and Inductors
12
2
Mmic Processing and Mask Sets
14
Defining Terms
15
Semiconductors
Mike Harris
Introduction
1
1
Silicon
2
1
Gallium Arsenide
2
5
III-V Heterostructures
7
1
Indium Phosphide
8
1
Silicon Carbide
9
2
Gallium Nitride
11
2
Selected Material Properties
13
1
Etching Processes for Semiconductors
13
1
Ohmic and Schottky Contacts
14
Metals
Mike Golio
Introduction
1
1
Resistance, Resistivity, and Conductivity
1
1
Skin Depth
2
1
Heat Conduction
3
1
Temperature Expansion
4
1
Chemical Properties
5
1
Weight
6
RF Package Design and Development
Jeanne S. Pavio
Introduction
1
1
Thermal Management
2
2
Mechanical Design
4
2
Package Electrical and Electromagnetic Modeling
6
1
Design Verification, Materials, and Reliability Testing
7
1
Computer-Integrated Manufacturing
8
1
Conclusions
9
Thermal Analysis and Design of Electronic Systems
Avram Bar-Cohen
Karl J. Geisler
Allan D. Kraus
Motivation
1
3
Thermal Modeling
4
16
Thermal Resistance Networks
20
Low Voltage/Low Power Microwave Electronics
Mike Golio
Introduction
1
1
Motivations for Reduced Voltage
2
1
Semiconductor Materials Technology
3
1
Semiconductor Device Technology
4
3
Circuit Design
7
1
Radio and System Architecture
8
1
Limits to Reductions in Voltage
9
1
Summary
10
Technology Computer Aided Design
Peter A. Blakey
Introduction
1
1
An Overview of Tcad
1
2
Benefits of Tcad
3
1
Limitations of Tcad
4
1
The Role of Calibration
4
1
Applications of Tcad
5
3
Application Protocols
8
1
Conclusions
9
Nonlinear Transistor Modeling for Circuit Simulation
Walter R. Curtice
Modeling in General
1
3
Scope of This Work
4
1
Equivalent Circuit Models
4
2
Spice Models and Application-Specific Models
6
1
Improved Transistor Models for Circuit Simulation
7
1
Modeling Gate Charge as a Function of Local and Remote Voltages in Mesfets and Phemts
8
1
Modeling the Effects Due to Traps
9
1
Modeling the Temperature Effects and Self-Heating
10
2
Enhancing the Gummel-Poon Model for Use with Gaas and Inp Hbts
12
3
Modeling the RF Ldmos Power Transistor
15
1
Parameter Extraction for Analytical Models
15
1
The Vector Nonlinear Network Analyzer
16
1
Model Verification
17
1
Foundry Models and Statistics
17
1
Future Nonlinear Transistor Models
17
Index
I-1