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200 10$aAsymmetric passive components in microwave integrated circuits /$fby Hee-Ran Ahn
210   $aHoboken, NJ $cJ. Wiley & Sons$dc2006
215   $a1 online resource (308 p.)
225 1 $aWiley series in microwave and optical engineering
300   $a"Wiley-Interscience."
311 08$a9780471737483 
311 08$a0471737488 
320   $aIncludes bibliographical references and index.
327   $aAsymmetric Passive Components in Microwave Integrated Circuits; Contents; Preface; 1 Introduction; 1.1 Asymmetric Passive Components; 1.2 Circuit Parameters; 1.3 Asymmetric Four-Port Hybrids; 1.3.1 Asymmetric Ring Hybrids; 1.3.2 Asymmetric Branch-Line Hybrids; 1.4 Asymmetric Three-Port Power Dividers; 1.5 Asymmetric Two-Port Components; References; 2 Circuit Parameters; 2.1 Scattering Matrix; 2.1.1 Transmission-Line Theory; 2.1.2 Basis-Dependent Scattering Parameters of a One-Port Network; 2.1.3 Voltage- and Current-Basis Scattering Matrices of n-Port Networks
327   $a2.1.4 Complex Normalized Scattering Matrix2.2 Scattering Parameters of Reduced Multiports; 2.2.1 Examples of Reduced Multiports; 2.3 Two-Port Network Analysis Using Scattering Parameters; 2.4 Other Circuit Parameters; 2.4.1 ABCD Parameters; 2.4.2 Open-Circuit Impedance and Short-Circuit Admittance Parameters; 2.4.3 Conversion Matrices of Two-Port Networks Terminated in Arbitrary Impedances; 2.5 Analyses of Symmetric Networks; 2.5.1 Analyses with Even- and Odd-Mode Excitations; 2.5.2 Useful Symmetric Two-Port Networks; 2.5.3 Properties of Symmetric Two-Port Networks
327   $a2.6 Analyses with Image Parameters2.6.1 Image Impedances; 2.6.2 Image Propagation Constants; 2.6.3 Symmetrical and Common Structures; Exercises; References; 3 Conventional Ring Hybrids; 3.1 Introduction; 3.2 Original Concept of the 3-dB Ring Hybrid; 3.3 Conventional Ring Hybrids; 3.3.1 Coupled Transmission Lines; 3.3.2 Ring Hybrids with Coupled Transmission Lines; 3.3.3 Wideband Ring Hybrids; 3.3.4 Symmetric Ring Hybrids with Arbitrary Power Divisions; 3.3.5 Conventional Lumped-Element Ring Hybrids; 3.3.6 Mixed Small Ring Hybrids; 3.4 Conventional 3-dB Uniplanar Ring Hybrids
327   $a3.4.1 Uniplanar T-Junctions3.4.2 Transitions; 3.4.3 Wideband Uniplanar Baluns; 3.4.4 Uniplanar Ring Hybrids; Exercises; References; 4 Asymmetric Ring Hybrids; 4.1 Introduction; 4.2 Derivation of Design Equations of Asymmetric Ring Hybrids; 4.3 Small Asymmetric Ring Hybrids; 4.4 Wideband or Small Asymmetric Ring Hybrids; 4.4.1 Microstrip Asymmetric Ring Hybrids; 4.4.2 Uniplanar Asymmetric Ring Hybrids; 4.5 Miniaturized Ring Hybrids Terminated in Arbitrary Impedances; 4.5.1 Asymmetric Lumped-Element Ring Hybrids; Exercises; References; 5 Asymmetric Branch-Line Hybrids; 5.1 Introduction
327   $a5.2 Origin of Branch-Line Hybrids5.3 Multisection Branch-Line Couplers; 5.4 Branch-Line Hybrids for Impedance Transforming; 5.5 Asymmetric Four-Port Hybrids; 5.5.1 Analyses of Asymmetric Four-Port Hybrids; 5.5.2 Conventional-Direction Asymmetric Branch-Line Hybrids; 5.5.3 Anti-Conventional-Direction Asymmetric Branch-Line Hybrids; Exercises; References; 6 Conventional Three-Port Power Dividers; 6.1 Introduction; 6.2 Three-Port 3-dB Power Dividers; 6.3 Three-Port Power Dividers with Arbitrary Power Divisions; 6.4 Symmetric Analyses of Asymmetric Three-Port Power Dividers
327   $a6.5 Three-Port 3-dB Power Dividers Terminated in Complex Frequency-Dependent Impedances
330   $aThis book examines the new and important technology of asymmetric passive components for miniaturized microwave passive circuits. The asymmetric design methods and ideas set forth by the author are groundbreaking and have not been treated in previous works. Readers discover how these design methods reduce the circuit size of microwave integrated circuits and are also critical to reducing the cost of equipment such as cellular phones, radars, antennas, automobiles, and robots.An introductory chapter on the history of asymmetric passive components, which began with asymmetric ring hybrid
410  0$aWiley series in microwave and optical engineering.
606   $aMicrowave integrated circuits
606   $aPassive components
615  0$aMicrowave integrated circuits.
615  0$aPassive components.
676   $a621.381/32
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