A single-source reference on the modern microwave engineering and practical applications of microstrip circuit technology, this invaluable book explains how microstrip circuits are built and provides in-depth coverage of computer-aided simulation and underlying theories. Including over 1,200 equations and more than 300 illustrations, it places special emphasis on working examples and full-wave electromagnetic simulations. You find detailed discussions on such critical topics as microwave passive lumped circuits, filter design, and calibration techniques. The book gives you a thorough understanding of filter networks by explaining the key role of network synthesis. From printed circuits and microstrip patch antennas, to microstrip coupled lines and microstrip filters, this comprehensive resource offers you a clear understanding of the design details you need for your work in the field. Moreover, the book thoroughly explains how computer-aided simulation technology works, so you can properly set up and speed through any one of the many simulation techniques covered. You also find a concise tutorial on basic theoretical concepts, including Maxwell's equations, transmission lines, scattering parameters, matching, and filter synthesis.
Microwave Network TheoryReview of Electromagnetic Theory. Plane Electromagnetic Waves. Transmission Lines. Circuit Parameters. Circuit Parameters of Various Simple Networks. Equivalent Circuit of a Short Transmission Line. Signal Flowgraphs. Power Gain. The Smith Chart. Impedance Matching. Network Analyzers. Calibration of Network Analyzers. Lumped Resonator Circuits. Transmission Line Resonators. Tapped Transmission Line Resonators. Synthesis of Matching Networks. References.; Microwave Printed CircuitsHistory of Printed Circuits. Microstrip Lines. Striplines. Coplanar Waveguides. Microstrip Discontinuities. Substrates for Microwave Printed Circuits. Manufacturing Techniques for Printed Circuits. Measurement of Substrate Materials. References.; Full-Wave Analysis of Printed Circuits - Review of Analysis of Printed Circuits. General Review of Green 's Functions. Point Sources and Their Spectral Representations, Analysis of Planar Multilayer Media. Application of MoM to Printed Circuits. References.; Microstrip Patch AntennasDesign of Microstrip Patch Antennas. Analysis Techniques for Patch Antennas. Proximity-Coupled Microstrip Patch Antennas. Aperture-Coupled Microstrip Patch Antennas. Stacked Microstrip Patch Antennas. Microstrip Patch Antennas with Parasitic Elements. Inset-Fed Microstrip Patch Antennas. Circularly Polarized Microstrip Patch Antennas. References. Microstrip Coupled LinesAnalysis of Coupled TEM Lines. The MTL Formulation. Z-Parameters of Coupled-Line Sections. Coupled Striplines. Wide-Bandwidth Directional Couplers. Hybrid Couplers. References. ; Microstrip FiltersBasic Filter Theory. Richard 's Transformation. Stepped-Impedance Microstrip Filters. Coupled-Line Microstrip Filters. Bandstop Filters. Filter Design by Coupling. Interdigital Filters. Hairpin Filters. Cross-Coupled Filters. Cascade Quadruplets and Triplets. Filter Synthesis by Optimization. DC-Block Circuits. References.; Microwave Lumped ElementsBasic Lumped Elements. Model Extraction Techniques for Lumped Elements. Scalable Models of Lumped Elements. Dimensional Analysis.; About the Authors. Index.;
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Irsadi Aksun
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Noyan Kinayman
Noyan Kinayman is a principal electrical engineer in research and development department at M/A-COM. He received his Ph.D. in electrical engineering from Bilkent University, Ankara, Turkey and his M.Sc. in electrical engineering from Middle East Technical University, Ankara, Turkey. Dr. Kinayman is also the co-creator of EMPLAN: Electromagnetic Analysis of Printed Structures in Planarly Layered Media, Software and User's Manual (Artech House, 2000). Dr. Kinayman is a member of IEEE.