An Introduction to Microwave Measurements

Book description

Go Beyond Basic Distributed Circuit Analysis

An Introduction to Microwave Measurements

has been written in a way that is different from many textbooks. As an instructor teaching a master’s-level course on microwave measurements, the author recognized that few of today’s graduate electrical engineering students are knowledgeable about microwave measurements beyond basic distributed circuit analysis. Written in a "how-it-works" spirit—strongly borrowing from instrument catalogs and application notes—this text covers a wide range of topics, clarifies many terms used widely on the subject, and equips the reader with the ability to grasp more advanced material.

It starts with a brief overview of the basic theory and the building blocks required for understanding and using microwave measurement techniques. Oriented around the most commonly used instruments in microwave measurements—the network analyzer, the spectrum analyzer, and synthesized microwave source—it introduces the latest instruments and techniques and provides a brief description of traditional measurement techniques (slotted waveguide etc.).

It offers an introduction to the mathematical basis behind microwave measurements as well as an overview of some of the practical components that are frequently used in microwave instruments. Observing that students generally grasp the subject better when actual numbers are given, rather than symbolic relations, the author includes examples involving numerical values that are scattered throughout the book. He also provides a detailed description of the vector network analyzer and the spectrum analyzer (explaining its principle of operation and calibration), which form the backbone of modern microwave measurements. In addition, he briefly addresses advanced topics such as pulsed measurements and non-linear network analysis.

Comprised of ten chapters, this text:

  • Discusses noise measurement and synthesized signal generation
  • Provides an overview of RF wafer-probing and modern microwave oscilloscopes—relatively advanced topics
  • Contains detailed derivations and exercises

An Introduction to Microwave Measurements

provides proficiency in subjects related to radio frequency (RF) and microwave systems, and is an ideal resource for senior undergraduate and first-year master’s-level students as well as professionals in the wireless industry who deal with such systems but are not specialists in the area.

Table of contents

  1. Front Cover (1/2)
  2. Front Cover (2/2)
  3. Contents (1/2)
  4. Contents (2/2)
  5. Preface
  6. Acknowledgments
  7. About the Author
  8. Chapter 1: Introduction (1/2)
  9. Chapter 1: Introduction (2/2)
  10. Chapter 2: Background Information (1/10)
  11. Chapter 2: Background Information (2/10)
  12. Chapter 2: Background Information (3/10)
  13. Chapter 2: Background Information (4/10)
  14. Chapter 2: Background Information (5/10)
  15. Chapter 2: Background Information (6/10)
  16. Chapter 2: Background Information (7/10)
  17. Chapter 2: Background Information (8/10)
  18. Chapter 2: Background Information (9/10)
  19. Chapter 2: Background Information (10/10)
  20. Chapter 3: Traditional Measurement Techniques (1/7)
  21. Chapter 3: Traditional Measurement Techniques (2/7)
  22. Chapter 3: Traditional Measurement Techniques (3/7)
  23. Chapter 3: Traditional Measurement Techniques (4/7)
  24. Chapter 3: Traditional Measurement Techniques (5/7)
  25. Chapter 3: Traditional Measurement Techniques (6/7)
  26. Chapter 3: Traditional Measurement Techniques (7/7)
  27. Chapter 4: Vector Network Analyzer (1/9)
  28. Chapter 4: Vector Network Analyzer (2/9)
  29. Chapter 4: Vector Network Analyzer (3/9)
  30. Chapter 4: Vector Network Analyzer (4/9)
  31. Chapter 4: Vector Network Analyzer (5/9)
  32. Chapter 4: Vector Network Analyzer (6/9)
  33. Chapter 4: Vector Network Analyzer (7/9)
  34. Chapter 4: Vector Network Analyzer (8/9)
  35. Chapter 4: Vector Network Analyzer (9/9)
  36. Chapter 5: Spectrum Analyzer (1/7)
  37. Chapter 5: Spectrum Analyzer (2/7)
  38. Chapter 5: Spectrum Analyzer (3/7)
  39. Chapter 5: Spectrum Analyzer (4/7)
  40. Chapter 5: Spectrum Analyzer (5/7)
  41. Chapter 5: Spectrum Analyzer (6/7)
  42. Chapter 5: Spectrum Analyzer (7/7)
  43. Chapter 6: Noise Measurements (1/4)
  44. Chapter 6: Noise Measurements (2/4)
  45. Chapter 6: Noise Measurements (3/4)
  46. Chapter 6: Noise Measurements (4/4)
  47. Chapter 7: Microwave Signal Generation (1/6)
  48. Chapter 7: Microwave Signal Generation (2/6)
  49. Chapter 7: Microwave Signal Generation (3/6)
  50. Chapter 7: Microwave Signal Generation (4/6)
  51. Chapter 7: Microwave Signal Generation (5/6)
  52. Chapter 7: Microwave Signal Generation (6/6)
  53. Chapter 8: Microwave Oscilloscopes (1/10)
  54. Chapter 8: Microwave Oscilloscopes (2/10)
  55. Chapter 8: Microwave Oscilloscopes (3/10)
  56. Chapter 8: Microwave Oscilloscopes (4/10)
  57. Chapter 8: Microwave Oscilloscopes (5/10)
  58. Chapter 8: Microwave Oscilloscopes (6/10)
  59. Chapter 8: Microwave Oscilloscopes (7/10)
  60. Chapter 8: Microwave Oscilloscopes (8/10)
  61. Chapter 8: Microwave Oscilloscopes (9/10)
  62. Chapter 8: Microwave Oscilloscopes (10/10)
  63. Chapter 9: Wafer Probing (1/6)
  64. Chapter 9: Wafer Probing (2/6)
  65. Chapter 9: Wafer Probing (3/6)
  66. Chapter 9: Wafer Probing (4/6)
  67. Chapter 9: Wafer Probing (5/6)
  68. Chapter 9: Wafer Probing (6/6)
  69. Chapter 10: Application Examples (1/2)
  70. Chapter 10: Application Examples (2/2)
  71. Appendix 1
  72. Back Cover

Product information

  • Title: An Introduction to Microwave Measurements
  • Author(s): Ananjan Basu
  • Release date: December 2014
  • Publisher(s): CRC Press
  • ISBN: 9781482214369