![dielectric resonator oscillator smith chart dielectric resonator oscillator smith chart](https://i.stack.imgur.com/5s3kB.png)
Perfect for senior undergraduate students and first-year graduate students in electrical engineering courses, RF and Microwave Circuit Design: Theory and Applications will also earn a place in the libraries of RF and microwave professionals looking for a useful reference to refresh their understanding of fundamental concepts in the field.ġ.1 Voltage, current and impedance relationships on a transmission lineġ.4 Matched and mismatched transmission linesġ.9 Manipulation of lumped impedance using the Smith chartġ.10.1 Matching a complex load impedance to a real source impedanceġ.10.2 Matching a complex load impedance to a complex source impedanceġ.11 Equivalent lumped circuit of a lossless transmission lineĪ1.1.1 Electromagnetic field patterns in coaxial cableĪ1.1.2 Essential properties of coaxial cablesĪ1.2.1 Structure of coplanar waveguide (CPW)Ī1.2.2 Electromagnetic field distribution on a CPW lineĪ1.2.3 Essential properties of coplanar (CPW) linesĪ1.2.4 Summary of key points relating to CPW linesĪ1.3.6 Field theory analysis of rectangular waveguidesĪ1.3.8 Higher-order rectangular waveguide modesĪ1.3.10 Sizes of rectangular waveguide, and waveguide designationĪppendix A1.5 Equivalent lumped circuit representation of a transmission lineĢ. Includes access to a companion website with PowerPoint slides for instructors, as well as supplementary resources.
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Contains supporting chapters on fabrication, circuit parameters, and measurements.Features an introduction to the design of high-frequency planar antennas.Discusses the influence of noise in high-frequency circuits and low-noise amplifier design.Covers the Smith Chart and its application in circuit design, S-parameters, Mason?s non-touching loop rule, transducer power gain, and stability.Describes fabrication processes for RF and microwave circuits, including etched, thick-film, and thin-film RF circuits.Provides comprehensive discussion of the foundational concepts of RF and microwave transmission lines introduced through an exploration of wave propagation along a typical transmission line.Filling a significant gap in literature by addressing RF and microwave circuit design with a central theme of planar distributed circuits, this textbook: Throughout the text, detailed coverage of practical design using distributed circuits demonstrates the influence of modern fabrication processes. The authors provide clear and accurate guidance on each essential aspect of circuit design, from the theory of transmission lines to the passive and active circuits that form the basis of modern high-frequency circuits and sub-systems.Īssuming a basic grasp of electronic concepts, the book is organized around first principles and includes an extensive set of worked examples to guide student readers with no prior grounding in the subject of high-frequency microwave technology. With an emphasis on real-world examples, the text explains how distributed circuits using microstrip and other planar transmission lines can be designed and fabricated for use in modern high-frequency passive and active circuits and sub-systems. RF and Microwave Circuit Design: Theory and Applications is an authoritative, highly practical introduction to basic RF and microwave circuits. Provides up-to-date coverage of the fundamentals of high-frequency microwave technology, written by two leading voices in the field