An Introduction To Guided Waves and Microwave Circuits
Published on 1. October 1992
Book
Hardback
733 pages
978-0-13-481052-2 (ISBN)
Description
Emphasizing the use of electromagnetic theory to explain basic concepts, this reference provides procedures for producing designs of microwave dvices which satisfy specified performance criteria. The book provides coverage of an initial exposure to microwave components that use active elements such as solid state diodes and transistors; rectilinear wave-guiding structures, with emphasis on coaxial lines, stripline, microstrip, rectangular and cylindrical waveguide, and various slow-wave configurations. This book should be of interest to professionals and specialists in electromagnetic theory.
More details
Language
English
Place of publication
United States
Publishing group
Pearson Education (US)
Target group
College/higher education
Dimensions
Height: 245 mm
Width: 186 mm
Thickness: 34 mm
Weight
1266 gr
ISBN-13
978-0-13-481052-2 (9780134810522)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Content
1. Introduction.
PART I.
2. Guided Waves.
3. Transverse Electromagnetic Guided Waves.
4. Transverse Electric and Transverse Magnetic Guided Waves, Part I.
5. Transverse Electric and Transverse Magnetic Guided Waves, Part II.
6. Impedance Transformation and Mismatch Compensation.
7. Dielectric and Ohmic Losses in Guiding Structures.
PART II.
8. Transformers.
9. Resonators.
10. Power Dividers and Hybrid Junctions.
11. Directional Couplers.
12. Scattering from Obstacles.
13. Filters.
14. Theory of Magnetic Materials: Ferrite Devices.
15. Active Microwave Circuits.
Appendix A: The Equivalence Principle.
Appendix B: The Reciprocity Relation.
Appendix C: Stevenson's Green's Functions for Rectangular Waveguide.
Appendix D: The Even/Odd Properties of the Input Impedance to Any Physically Realizable Passive Network.
Appendix E: Image Impedances and Propagation Factor for a Two-Port Network.
Appendix F: Impedance (K) Inverters and Admittance (J) Inverters.
Appendix G: Conversion of Magnetic Units.
PART I.
2. Guided Waves.
3. Transverse Electromagnetic Guided Waves.
4. Transverse Electric and Transverse Magnetic Guided Waves, Part I.
5. Transverse Electric and Transverse Magnetic Guided Waves, Part II.
6. Impedance Transformation and Mismatch Compensation.
7. Dielectric and Ohmic Losses in Guiding Structures.
PART II.
8. Transformers.
9. Resonators.
10. Power Dividers and Hybrid Junctions.
11. Directional Couplers.
12. Scattering from Obstacles.
13. Filters.
14. Theory of Magnetic Materials: Ferrite Devices.
15. Active Microwave Circuits.
Appendix A: The Equivalence Principle.
Appendix B: The Reciprocity Relation.
Appendix C: Stevenson's Green's Functions for Rectangular Waveguide.
Appendix D: The Even/Odd Properties of the Input Impedance to Any Physically Realizable Passive Network.
Appendix E: Image Impedances and Propagation Factor for a Two-Port Network.
Appendix F: Impedance (K) Inverters and Admittance (J) Inverters.
Appendix G: Conversion of Magnetic Units.