Beschreibung
InhaltsangabePreface. Acknowledgments. Microwave Circuits. Models, Modeling, and Characterization. SParameter Measurement Methods. Multiport and Differential-Mode Scattering Parameters. Stability, Stabilization, and Gain. Matching Networks, Attenuators, and Phase Shifters. RF/Microwave Power Generation Considerations. Resonators and Oscillators. Microwave Filter Design. Noise Considerations for Microwave Circuits. Detection and Mixing. Microwave Components. Pulsed Microwave Circuit Analysis. Nonlinear Effects in Microwave Circuits. Amplifier, Oscillator, and Filter Circuit Design Examples. Appendix A: An Approximate Formula for the Characteristic Impedance of a Microstrip Line. Appendix B: Some Complex Variable Facts. Appendix C: Matric Multiplication. Appendix D: Resistor, Capacitor, and Inductor Component Modeling. Appendix E: Chip Resistor Sizes--Nominal Sizes Only. Appendix F: S Parameters (Scattering Parameters--Current Referenced). Appendix G: Modeling Using an Equivalent Mechanical Model. Bibliography. Index. About the Author.
Autorenportrait
About the Author Robert J. Weber began his prolific career in the Solid State Research Laboratory at the Collins Radio Company, later a part of Rockwell International. For 25 years, he worked on advanced development and applied research in the one- to ten-gigahertz frequency range and received several distinguished awards for his valuable contributions to the field. Presently, Dr. Weber is involved in ongoing experimental research in integrating microwave circuits with other devices such as MEMS, chemical sensors, and electro-optics. Also, he teaches microwave circuit design and fiber-optics communications at the Department of Electrical and Computer Engineering, Iowa State University. Dr. Weber is an IEEE Fellow.
Leseprobe
Leseprobe