Microwave Differential Circuit Design Using Mixed Mode S-Parameters
1st Edition
Published on 1. January 2006
244 pages
978-1-58053-934-0 (ISBN)
Description
Gain hands-on understanding of powerful new mixed-mode scattering parameter techniques and their applications in microwave circuit design, straight from the inventors of the techniques themselves. This groundbreaking resource uses the original research and application work in the field to describe mixed-mode S-parameter principles. Supported with over 150 illustrations, the book thoroughly explains practical techniques that help you more effectively analyze differential and multi-port systems; measure and describe multi-port circuit performance; and conduct differential circuit analyses for isolation, crosstalk, stability, noise reduction, and balance.
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William Eisenstadt | Robert Stengel | Bruce Thompson
Microwave Differential Circuit Design Using Mixed Mode S-Parameters
Book
04/2006
Artech House Publishers
€126.50
Shipment within 10-20 days
Content
- Intro
- Contents
- Preface xiii
- Acknowledgments
- 1 Differential Circuit Technology 1
- 1.1 Introduction 1
- 1.2 Digital Versus Analog Signal Integrity 2
- 1.3 Signal Integrity Issues 4
- 1.3.1 Rise Time, Fall Time, Duty Cycle, and Period 4
- 1.3.2 Jitter 5
- 1.3.3 Bit Error Rate 7
- 1.3.4 Isolation 7
- 1.4 Interconnect Discontinuities 9
- 1.5 Differential Circuit Definitions 9
- 1.6 Electromagnetic Coupling 13
- 1.7 Common-Mode Impedance Rejection of Differential Circuits 18
- 1.8 Increased Distortion-Free Dynamic Range with Differential Circuits 21
- 1.9 Nonlinear Even-Order Distortion Improvement with Differential Circuits 23
- 1.10 Conclusions 25
- References 26
- 2 Mixed-Mode S-Parameters 27
- 2.1 Introduction 27
- 2.2 Mode Definitions 30
- 2.3 Mode-Specific Waves and Impedances 32
- 2.4 Normalized Power Waves 34
- 2.5 Mixed-Mode Scattering Parameters 37
- 2.6 Standard S-Parameter/Mixed-Mode S-Parameter Transformation 42
- 2.7 Conclusions 45
- References 46
- 3 Transmission Lines and Systems 47
- 3.1 Introduction 47
- 3.2 Traveling Waves and Transmission-Line Concepts 48
- 3.3 Mode Specific S-Parameters-Isolated Transmission Lines 53
- 3.4 Mode Specific S-Parameters-Coupled Transmission Lines 60
- 3.5 Time-Domain Analysis-Coupled Transmission Lines 65
- 3.6 Distributed Mixed-Mode S-Parameter to R, L, G, and C Model 66
- 3.7 Single-Ended Signal Application in Mixed-Mode Terms 71
- 3.8 Conclusions 78
- References 78
- 4 Differential Low-Noise Amplifier 79
- 4.1 Introduction 79
- 4.2 DLNA Implementation 80
- 4.2.1 Ideal Mixed-Mode S-Parameters 81
- 4.2.2 Practical Matching Limitations 83
- 4.2.3 Noise Rejection 83
- 4.2.4 Common-Mode Gain 86
- 4.3 DLNA S-Parameters, Sdd 87
- 4.4 Neutralized DLNA 88
- 4.5 Passive Circuits 90
- 4.6 Impedance Matching 91
- 4.7 Cross-Mode Parameters 93
- 4.8 Common-Mode Rejection 94
- 4.9 Supply and Ground Response 96
- 4.10 Common-Mode Signal Postprocessing 97
- 4.11 Noise Figure 98
- 4.12 Balanced Signal Losses 100
- 4.13 Distortion Analysis 103
- 4.14 Odd-Order Distortion 106
- 4.15 Even-Order Distortion 108
- 4.16 Conclusions 112
- References 112
- 5 Power Splitter and Combiner Analysis 113
- 5.1 Introduction 113
- 5.2 Wilkinson Impedance Transformer Splitter/Combiner 114
- 5.3 Splitter/Combiner Mixed-Mode S-Parameter Matrix 115
- 5.4 Splitter/Combiner Standard S-Parameter Matrix 119
- 5.5 Mixed-Mode Splitter/Combiner S mm = MS std M -1 125
- 5.6 Splitter General-Purpose Analysis/Specifications 130
- 5.7 Combiner General-Purpose Analysis/Specifications 137
- 5.8 Hybrid Splitter/Combiner and Mixed-Mode S-Parameters 141
- 5.9 Transformer Sigma/Delta Hybrid Implementation 144
- 5.10 Transformer 90° Hybrid Implementation 149
- 5.11 Summary-Mixed-Mode S-Parameters Applied to Baluns and Hybrids 151
- References 152
- 6 Mixed-Mode Analysis Applied to Four-Ports and Higher 153
- 6.1 Introduction 153
- 6.2 Impedance (Z ), Admittance (Y ), Hybrid (H ), ABCD, Chain (T ), and Scattering (S ) Parameter Network Matrix Models 153
- 6.3 Differential Band-Pass Filter 171
- 6.4 Dual Directional Coupler 184
- 6.5 Differential Isolator 186
- References 191
- 7 Mixed-Mode and Time Domain 193
- 7.1 Introduction 193
- 7.2 Steady State AC Network Response 195
- 7.3 Impulse Response 196
- 7.4 Representation of Signals by a Continuum of Impulses 198
- 7.5 Impulse Response 199
- 7.6 Step Response and TDR 202
- 7.7 Impulse Transmission Response and TDT 207
- 7.8 Parallel, Cascade, and Feedback Connections 212
- 7.9 Summary of S-Parameter Applications in the Time Domain 214
- References 215
- About the Authors 217
- Index 219
