Читать книгу Handbook of Microwave Component Measurements - Joel P. Dunsmore - Страница 2

1  Cover

2  Foreword to the Second Edition

3  Foreword to the First Edition

4  Preface to the Second Edition

5  Preface to the First Edition

6  Acknowledgments for the Second Edition

7  Acknowledgments from the First Edition

8  1 Introduction to Microwave Measurements 1.1 Modern Measurement Process 1.2 A Practical Measurement Focus 1.3 Definition of Microwave Parameters 1.4 Power Parameters 1.5 Noise Figure and Noise Parameters 1.6 Distortion Parameters 1.7 Characteristics of Microwave Components 1.8 Passive Microwave Components 1.9 Filters 1.10 Directional Couplers 1.11 Circulators and Isolators 1.12 Antennas 1.13 PC Board Components 1.14 Active Microwave Components 1.15 Measurement Instrumentation References

9  2 VNA Measurement Systems 2.1 Introduction 2.2 VNA Block Diagrams 2.3 VNA Measurement of Linear Microwave Parameters 2.4 Measurements Derived from S‐Parameters 2.5 Modeling Circuits Using Y and Z Conversion 2.6 Other Linear Parameters References

10  3 Calibration and Vector Error Correction 3.1 Introduction 3.2 Basic Error Correction for S‐Parameters: Cal‐Application 3.3 Determining Error Terms: Cal‐Acquisition for 12‐Term Models 3.4 Determining Error Terms: Cal‐Acquisition for 8‐Term Models 3.5 Waveguide Calibrations 3.6 Calibration for Source Power 3.7 Calibration for Receiver Power 3.8 Calibrating Multiple Channels Simultaneously: Cal All 3.9 Multiport Calibration Strategies 3.10 Automatic In‐Situ Calibrations: CalPod 3.11 Devolved Calibrations 3.12 Determining Residual Errors 3.13 Computing Measurement Uncertainties 3.14 S21 or Transmission Uncertainty 3.15 Errors in Phase 3.16 Practical Calibration Limitations Reference

11  4 Time‐Domain Transforms 4.1 Introduction 4.2 The Fourier Transform 4.3 The Discrete Fourier Transform 4.4 Fourier Transform (Analytic) vs. VNA Time Domain Transform 4.5 Low‐Pass Transforms 4.6 Time‐Domain Gating 4.7 Examples of Time‐Domain Transforms of Various Networks 4.8 The Effects of Masking and Gating on Measurement Accuracy 4.9 Time‐Domain Transmission Using VNA 4.10 Conclusions References

12  5 Measuring Linear Passive Devices 5.1 Transmission Lines, Cables, and Connectors 5.2 Filters and Filter Measurements 5.3 Multiport Devices 5.4 Resonators 5.5 Antenna Measurements 5.6 Conclusions References

13  6 Measuring Amplifiers 6.1 Amplifiers as a Linear Devices 6.2 Gain Compression Measurements 6.3 Measuring High‐Gain Amplifiers 6.4 Measuring High‐Power Amplifiers 6.5 Making Pulsed‐RF Measurements 6.6 Distortion Measurements 6.7 Measuring Doherty Amplifiers 6.8 X‐Parameters, Load‐Pull Measurements, Active Loads, and Hot S‐Parameters 6.9 Conclusions on Amplifier Measurements References

14  7 Mixer and Frequency Converter Measurements 7.1 Mixer Characteristics 7.2 Mixers vs. Frequency Converters 7.3 Mixers as a 12‐Port Device 7.4 Mixer Measurements: Frequency Response 7.5 Calibration for Mixer Measurements 7.6 Mixers Measurements vs. Drive Power 7.7 TOI and Mixers 7.8 Noise Figure in Mixers and Converters 7.9 Special Cases 7.10 I/Q Converters and Modulators 7.11 Conclusions on Mixer Measurements References

15  8 Spectrum Analysis: Distortion and Modulation Measurements 8.1 Spectrum Analysis in Vector Network Analyzers 8.2 Distortion Measurement of Complex Modulated Signals 8.3 Measurements of Spurious Signals with VNA Spectrum Analyzer 8.4 Measurements of Pulsed Signals and Time‐Gated Spectrum Analysis 8.5 Summary Reference

16  9 Measuring Noise Figure and Noise Power 9.1 Noise‐Figure Measurements for Amplifiers 9.2 Active Antenna Noise‐Figure Measurements (G/T) 9.3 Noise Figure in Mixers and Converters 9.4 Other Noise‐Related Measurements 9.5 Uncertainty, Verification, and Improvement of Noise‐Figure Measurements 9.6 Summary: Noise and Noise‐Figure Measurements References

17  10 VNA Balanced Measurements 10.1 Differential and Balanced S‐Parameters 10.2 3‐Port Balanced Devices 10.3 Measurement Examples for Mixed‐Mode Devices 10.4 True‐Mode VNA for Non‐linear Testing 10.5 Differential Testing Using Baluns, Hybrids, and Transformers 10.6 Distortion Measurements of Differential Devices 10.7 Noise Figure Measurements on Differential Devices 10.8 Conclusions on Differential Device Measurement References

18  11 Advanced Measurement Techniques 11.1 Creating Your Own Cal‐Kits 11.2 Fixturing and De‐embedding 11.3 Determining S‐Parameters for Fixtures 11.4 Automatic Port Extensions (APE) 11.5 AFR: Fixture Removal Using Time Domain 11.6 Embedding Port‐Matching Elements 11.7 Impedance Transformations 11.8 De‐embedding High‐Loss Devices 11.9 Understanding System Stability 11.10 Some Final Comments on Advanced Techniques and Measurements References

19  Appendix APhysical Constants

20  Appendix BCommon RF and Microwave Connectors

21  Appendix CCommon Waveguides

22  Appendix DSome Definitions for Calibration Kit Opens and Shorts

23  Appendix EFrequency, Wavelength, and Period

24  Index

25  End User License Agreement