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Broadband Microwave Amplifiers Unabridged edition [Kõva köide]

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  • Formaat: Hardback, 251 pages
  • Ilmumisaeg: 30-Sep-2004
  • Kirjastus: Artech House Publishers
  • ISBN-10: 1580538924
  • ISBN-13: 9781580538923
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Broadband Microwave Amplifiers Unabridged editionSuurem pilt
  • Formaat: Hardback, 251 pages
  • Ilmumisaeg: 30-Sep-2004
  • Kirjastus: Artech House Publishers
  • ISBN-10: 1580538924
  • ISBN-13: 9781580538923
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Püsilink: https://www.kriso.ee/db/9781580538923.html
Broadband microwave amplifiers are essential components for boosting signals in a wide range of technology, from telecommunications equipment to radar and electronic warfare systems. This book provides professionals with a complete understanding of state-of-the art and cutting-edge techniques for designing and fabricating broadband amplifiers. It covers the entire design life cycle, detailing each stage in a practical, hands-on manner. The book explains measurement, modeling, and testing methods so engineers can optimize designs to achieve maximum signal amplification. Filled with case studies, this book thoroughly explores the application of broadband microwave amplifiers in optical communications, satellite communications, wireless local area networks, electronic warfare, base station equipment, and phased array radar.
Foreword ix
Preface xi
Organization of This Book xii
Acknowledgments xv
Overview of Broadband Amplifiers
1(16)
Historical Perspective on Microwave Amplifiers
1(2)
Broadband Amplifiers
3(1)
Review of Various Broadband Amplifiers
3(14)
Reactively Matched Amplifiers
4(1)
TWDAs
5(3)
Broadband Feedback and Lossy Matched Amplifiers
8(2)
CSSDAs
10(4)
References
14(3)
Principles and Applications of Distributed Amplifiers
17(34)
Introduction
17(1)
Heterojunction Field Effect Transistor
17(3)
Conventional TWDA
20(7)
Available Gain of a TWDA
21(5)
Advantages of TWDA
26(1)
Disadvantages of TWDA
27(1)
CSSDA
27(14)
Lossless CSSDA
28(1)
Available Power Gain of the Lossless CSSDA
29(3)
Analysis of Interstage Characteristic Impedance on the Lossless CSSDA
32(1)
Output Current of the CSSDA
33(2)
Output Voltage of the CSSDA
35(1)
Lossy CSSDAs
36(2)
Characteristic Features of CSSDA
38(3)
Other Applications of Distributed Amplifiers
41(7)
Applications of TWDA
41(7)
Potential Applications of CSSDA
48(3)
Oscillator
48(1)
Optical Driver
48(1)
Optical Receiver
48(2)
References
50(1)
Device Structure and Mode of Operation
51(12)
Introduction
51(1)
The GaAs MESFET---Structure and Operation
51(3)
HEMT-based Devices---Structure and Operation
54(7)
Hemt
54(2)
Sphemt
56(2)
Dphemt
58(3)
Summary
61(2)
References
61(2)
Device Characterization and Modeling
63(40)
Introduction
63(1)
Device Characterization
63(18)
Basis of Calibration
64(1)
Microstrip Test Fixture and Calibration Standards
65(3)
Small-Signal Measurements
68(6)
Pulsed dc I-V Measurements
74(7)
Small-Signal Device Modeling
81(9)
Principle of Model Extraction Procedure
82(1)
Extraction of Cold Component Values
83(2)
Extraction of Hot Components Values
85(1)
Small-Signal Modeling
86(4)
Large-Signal Device Modeling
90(13)
Large-Signal Device Model
91(1)
Nonlinear Analysis Techniques
91(2)
Large-Signal Modeling Techniques
93(5)
Modeled and Measured Results
98(2)
References
100(3)
Amplifier Class of Operation
103(16)
Introduction
103(1)
Class A Amplifiers
103(6)
Class B Amplifiers
109(4)
Class AB Amplifiers
113(6)
References
117(2)
Design of Broadband Microwave Amplifiers
119(58)
Introduction
119(1)
Multistage Broadband Amplifier Design
120(1)
Output Power and Power-Added Efficiency
121(2)
Design of TWDAs
123(7)
Fabrication of TWDAs
128(1)
Measured Response of TWDAs
128(2)
Broadband Feedback Amplifiers
130(12)
Principles of Broadband Feedback Amplifiers
130(6)
Design of a Three-Stage Feedback Amplifier
136(4)
Fabrication of Three-Stage Feedback Amplifier
140(1)
Measured Response of Three-Stage Feedback Amplifier
140(2)
CRTSSDAs
142(20)
Principles of CRTSSDAs
142(5)
Design of High Gain CRTSSDA
147(7)
Design of Power CRTSSDA
154(2)
Fabrication of High Gain and Power CRTSSDA Modules
156(2)
Measured Results of CRTSSDA Modules
158(4)
High-Dynamic-Range Broadband Amplifier
162(5)
Design of High-Dynamic-Range Broadband Amplifier
162(4)
Fabrication of the High-Dynamic-Range Broadband Amplifier
166(1)
Measured Response of High-Dynamic-Range Broadband Amplifier
167(1)
Broadband Feedback Amplifiers Employing Current Sharing
167(10)
Design of Broadband Feedback Amplifiers Employing Current Sharing
167(2)
Fabrication of Amplifiers Using Self-Bias and Current-Sharing Modes
169(1)
Measured Results of Broadband Feedback Amplifiers Using Self-Bias and Current-Sharing Modes
170(5)
References
175(2)
Fabrication of Broadband Amplifiers
177(22)
Introduction
177(1)
Practical Design Considerations and Fabrication Procedure
177(14)
Skin-Depth Effect
179(1)
Thin-Film Resistors
179(1)
Mounting Posts
180(2)
Broadband Chip Capacitors
182(3)
Broadband RF Chokes
185(2)
Bond-Wire Inductance
187(2)
dc Biasing
189(1)
Substrate Material
190(1)
Circuit Layout and Mask Generation
191(4)
Fabrication of MICs
191(4)
Fabrication of Test Carriers and Amplifier Housings
195(4)
References
198(1)
Ultrabroadband Hybrid and Broadband Monolithic Amplifiers
199(10)
Introduction
199(1)
Ultrabroadband Hybrid MIC Amplifier
199(2)
Ultrabroadband Hybrid Amplifier as Data Modulator Driver
201(4)
Driver Amplifier for Optical Transmitter
201(1)
Amplifier Requirements
202(1)
Amplifier Design
202(1)
Amplifier Performance
203(2)
Broadband MMIC Distributed Amplifier
205(4)
References
208(1)
APPENDIX A Artificial Transmission Line Theory Related to Distributed Amplifiers
209(6)
A.1 Artificial Transmission Line
209(1)
A.2 Ladder Network
209(2)
A.3 Characteristic Impedance Zo
211(1)
A.4 T-Section
212(1)
A.5 π-Section
212(1)
A.6 L-Section
213(2)
Reference
214(1)
List of Acronyms 215(2)
List of Symbols 217(4)
About the Authors 221(2)
Index 223