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射频功放书RF And Microwave Power Amplifier Design(2005) Newnes 非扫描。
Chapter 1. Two-Port Network Parameters 1
Traditional Network Parameters 1
Scattering Parameters 5
Conversions between Two-Port Parameters 8
Interconnection of Two-Port Networks 12
Practical Two-Port Circuits 15
Single-element networks 15
π-and T-networks 16
Three-Port Network with Common Terminal 19
Transmission Line 21
Chapter 2. Nonlinear Circuit Design Methods 27
Spectral Domain Analysis 27
Trigonometric identities 28
Piecewise-linear approximation 29
Bessel functions 33
Time Domain Analysis 35
Newton-Raphson Algorithm 42
Quasilinear Method 45
Harmonic Balance Method 48
Chapter 3. Nonlinear Active Device Modeling 53
Power MOSFETs 54
Small-signal equivalent circuit 54
Determination of equivalent circuit elements 58
Nonlinear I-V models 61
Nonlinear C-V models 66
Charge conservation 73
Gate-source resistance 74
Temperature dependence 74
GaAs MESFETs and HEMTs 77
Small-signal equivalent circuit 77
Determination of equivalent circuit elements 79
Curtice quadratic nonlinear model 83
Curtice-Ettenberg cubic nonlinear model 84
Materka-Kacprzak nonlinear model 85
Raytheon (Statz et al.) nonlinear model 86
TriQuint nonlinear model 90
Chalmers (Angelov) nonlinear model 91
IAF (Berroth) nonlinear model 94
Model selection 95
BJTs and HBTs 96
Small-signal equivalent circuit 96
Determination of equivalent circuit elements 97
Equivalence of intrinsic π-circuit and T-circuit topologies 100
Nonlinear bipolar device modeling 102
Chapter 4. Impedance Matching 109
Main Principles 109
Smith Chart 112
Matching with Lumped Elements 117
Bipolar UHF power amplifier 124
MOSFET VHF high-power amplifier 129
Matching with Transmission Lines 131
Narrow-band power amplifier design 140
Broadband high-power amplifier design 142
Types of Transmission Line 145
Coaxial line 145
Stripline 146
Microstrip line 149
Slotline 151
Coplanar waveguide 153
Chapter 5. Power Combiners, Impedance Transformers
and Directional Couplers 155
Basic Properties 155
Three-Port Networks 156
Four-Port Networks 157
Coaxial Cable Transformers and Combiners 159
Wilkinson Power Divider 168
Microwave Hybrids 175
Coupled-Line Directional Couplers 182
Chapter 6. Power Amplifier Design Fundamentals 189
Main Characteristics 190
Gain and Stability 195
Stabilization Circuit Technique 198
Frequency domains of BJT potential instability 198
Frequency domains of MOSFET potential instability 204
Some examples of stabilization circuits 208
Linearity 212
Basic Classes of Operation: A, AB, B and C 219
DC Biasing 228
Push-Pull Amplifiers 234
Practical Aspect of RF and Microwave Power Amplifiers 239
Chapter 7. High Efficiency Power Amplifier Design 247
Overdriven Class B 247
Class F Circuit Design 250
Inverse Class F 264
Class E with Shunt Capacitance 271
Class E with Parallel Circuit 279
Class E with Transmission Lines 286
Broadband Class E Circuit Design 299
Practical High Efficiency RF and Microwave Power Amplifiers 305
Chapter 8. Broadband Power Amplifiers 315
Bode-Fano Criterion 316
Matching Networks with Lumped Elements 318
Matching Networks with Mixed Lumped and Distributed Elements 327
Matching Networks with Transmission Lines 330
Lossy Matching Circuits 339
Practical Design Aspect 343
Chapter 9. Power Amplifier Design for Communication Systems 355
Kahn Envelope Elimination and Restoration Technique 356
Envelope Tracking 361
Outphasing Power Amplifiers 365
Doherty Power Amplifier Architecture 372
Switched-Mode and Dual-Path Power Amplifiers 381
Feedforward Linearizing Technique 389
Predistortion Linearization 392
Monolithic CMOS and HBT Power Amplifiers for Handset Application 397 |
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发表于 2012-9-6 09:59:38
