LEADER 01088cam0-2200349---450- 001 990004079780403321 005 20140714133155.0 035 $a000407978 035 $aFED01000407978 035 $a(Aleph)000407978FED01 035 $a000407978 100 $a19990604d1981----km-y0itay50------ba 101 0 $aita 102 $aIT 105 $ay-------001yy 200 1 $aInchiesta attuale sulle minoranze etniche e linguistiche in Calabria$fAntonio Piromalli 210 $aCosenza$cBrenner$dc1981 215 $a173 p.$d20 cm 225 1 $aSaggi e testi della cultura calabrese$v6 610 0 $aCalabria$aMinoranze linguistiche$aDocumenti 610 0 $aCalabria$aMinoranze etniche$aDocumenti 676 $a305.7 676 $a323.14$v20$zit 676 $a305.80094 700 1$aPiromalli,$bAntonio$f<1920-2003>$0154251 801 0$aIT$bUNINA$gRICA$2UNIMARC 901 $aBK 912 $a990004079780403321 952 $a305.7 PIR 1$bDFM 2696$fFLFBC 959 $aFLFBC 996 $aInchiesta attuale sulle minoranze etniche e linguistiche in Calabria$9479963 997 $aUNINA LEADER 00994nam--2200349---450- 001 990002346340203316 005 20090212112745.0 035 $a000234634 035 $aUSA01000234634 035 $a(ALEPH)000234634USA01 035 $a000234634 100 $a20050111d1971----km-y0itay0103----ba 101 $aeng 102 $aUS 105 $a||||||||001yy 200 1 $aActivity costing and input-output accounting$fGeorge J. 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Free, Colin S. Aitchison 210 1$aHoboken, New Jersey :$cJohn Wiley & Sons, Inc.,$d[2022] 210 4$dİ2022 215 $a1 online resource (531 pages) 225 1 $aMicrowave and Wireless Technologies Series 311 $a1-119-11463-2 327 $aCover -- Title Page -- Copyright -- Contents -- Preface -- About the Companion Website -- Chapter 1 RF Transmission Lines -- 1.1 Introduction -- 1.2 Voltage, Current, and Impedance Relationships on a Transmission Line -- 1.3 Propagation Constant -- 1.3.1 Dispersion -- 1.3.2 Amplitude Distortion -- 1.4 Lossless Transmission Lines -- 1.5 Matched and Mismatched Transmission Lines -- 1.6 Waves on a Transmission Line -- 1.7 The Smith Chart -- 1.7.1 Derivation of the Smith Chart -- 1.7.2 Properties of the Smith Chart -- 1.8 Stubs -- 1.9 Distributed Matching Circuits -- 1.10 Manipulation of Lumped Impedances Using the Smith Chart -- 1.11 Lumped Impedance Matching -- 1.11.1 Matching a Complex Load Impedance to a Real Source Impedance -- 1.11.2 Matching a Complex Load Impedance to a Complex Source Impedance -- 1.12 Equivalent Lumped Circuit of a Lossless Transmission Line -- 1.13 Supplementary Problems -- Appendix 1.A Coaxial Cable -- 1.A.1 Electromagnetic Field Patterns in Coaxial Cable -- 1.A.2 Essential Properties of Coaxial Cables -- Appendix 1.B Coplanar Waveguide -- 1.B.1 Structure of Coplanar Waveguide (CPW) -- 1.B.2 Electromagnetic Field Distribution on a CPW Line -- 1.B.3 Essential Properties of Coplanar (CPW) Lines -- 1.B.4 Summary of Key Points Relating to CPW Lines -- Appendix 1.C Metal Waveguide -- 1.C.1 Waveguide Principles -- 1.C.2 Waveguide Propagation -- 1.C.3 Rectangular Waveguide Modes -- 1.C.4 The Waveguide Equation -- 1.C.5 Phase and Group Velocities -- 1.C.6 Field Theory Analysis of Rectangular Waveguides -- 1.C.7 Waveguide Impedance -- 1.C.8 Higher?Order Rectangular Waveguide Modes -- 1.C.9 Waveguide Attenuation -- 1.C.10 Sizes of Rectangular Waveguide and Waveguide Designation -- 1.C.11 Circular Waveguide -- References -- Chapter 2 Planar Circuit Design I -- 2.1 Introduction. 327 $a2.2 Electromagnetic Field Distribution Across a Microstrip Line -- 2.3 Effective Relative Permittivity, ?r,eff MSTRIP -- 2.4 Microstrip Design Graphs and CAD Software -- 2.5 Operating Frequency Limitations -- 2.6 Skin Depth -- 2.7 Examples of Microstrip Components -- 2.7.1 Branch?Line Coupler -- 2.7.2 Quarter?Wave Transformer -- 2.7.3 Wilkinson Power Divider -- 2.8 Microstrip Coupled?Line Structures -- 2.8.1 Analysis of Microstrip Coupled Lines -- 2.8.2 Microstrip Directional Couplers -- 2.8.2.1 Design of Microstrip Directional Couplers -- 2.8.2.2 Directivity of Microstrip Directional Couplers -- 2.8.2.3 Improvements to Microstrip Directional Couplers -- 2.8.3 Examples of Other Common Microstrip Coupled?Line Structures -- 2.8.3.1 Microstrip DC Break -- 2.8.3.2 Edge?Coupled Microstrip Band?Pass Filter -- 2.8.3.3 Lange Coupler -- 2.9 Summary -- 2.10 Supplementary Problems -- References -- Chapter 3 Fabrication Processes for RF and Microwave Circuits -- 3.1 Introduction -- 3.2 Review of Essential Material Parameters -- 3.2.1 Dielectrics -- 3.2.2 Conductors -- 3.3 Requirements for RF Circuit Materials -- 3.4 Fabrication of Planar High?Frequency Circuits -- 3.4.1 Etched Circuits -- 3.4.2 Thick?Film Circuits (Direct Screen Printed) -- 3.4.3 Thick Film Circuits (Using Photoimageable Materials) -- 3.4.4 Low?Temperature Co?Fired Ceramic Circuits -- 3.5 Use of Ink Jet Technology -- 3.6 Characterization of Materials for RF and Microwave Circuits -- 3.6.1 Measurement of Dielectric Loss and Dielectric Constant -- 3.6.1.1 Cavity Resonators -- 3.6.1.2 Dielectric Characterization by Cavity Perturbation -- 3.6.1.3 Use of the Split Post Dielectric Resonator (SPDR) -- 3.6.1.4 Open Resonator -- 3.6.1.5 Free?Space Transmission Measurements -- 3.6.2 Measurement of Planar Line Properties -- 3.6.2.1 The Microstrip Resonant Ring -- 3.6.2.2 Non?resonant Lines. 327 $a3.6.3 Physical Properties of Microstrip Lines -- 3.7 Supplementary Problems -- References -- Chapter 4 Planar Circuit Design II -- 4.1 Introduction -- 4.2 Discontinuities in Microstrip -- 4.2.1 Open?End Effect -- 4.2.2 Step?Width -- 4.2.3 Corners -- 4.2.4 Gaps -- 4.2.5 T?Junctions -- 4.3 Microstrip Enclosures -- 4.4 Packaged Lumped?Element Passive Components -- 4.4.1 Typical Packages for RF Passive Components -- 4.4.2 Lumped?Element Resistors -- 4.4.3 Lumped?Element Capacitors -- 4.4.4 Lumped?Element Inductors -- 4.5 Miniature Planar Components -- 4.5.1 Spiral Inductors -- 4.5.2 Loop Inductors -- 4.5.3 Interdigitated Capacitors -- 4.5.4 Metal-Insulator-Metal Capacitor -- References -- Chapter 5 S?Parameters -- 5.1 Introduction -- 5.2 S?Parameter Definitions -- 5.3 Signal Flow Graphs -- 5.4 Mason's Non?touching Loop Rule -- 5.5 Reflection Coefficient of a Two?Port Network -- 5.6 Power Gains of Two?Port Networks -- 5.7 Stability -- 5.8 Supplementary Problems -- {5.A.1} Transmission Parameters (ABCD Parameters) -- {5.A.2} Admittance Parameters (Y?Parameters) -- {5.A.3} Impedance Parameters (Z?Parameters) -- References -- Chapter 6 Microwave Ferrites -- 6.1 Introduction -- 6.2 Basic Properties of Ferrite Materials -- 6.2.1 Ferrite Materials -- 6.2.2 Precession in Ferrite Materials -- 6.2.3 Permeability Tensor -- 6.2.4 Faraday Rotation -- 6.3 Ferrites in Metallic Waveguide -- 6.3.1 Resonance Isolator -- 6.3.2 Field Displacement Isolator -- 6.3.3 Waveguide Circulator -- 6.4 Ferrites in Planar Circuits -- 6.4.1 Planar Circulators -- 6.4.2 Edge?Guided?Mode Propagation -- 6.4.3 Edge?Guided?Mode Isolator -- 6.4.4 Phase Shifters -- 6.5 Self?Biased Ferrites -- 6.6 Supplementary Problems -- References -- Chapter 7 Measurements -- 7.1 Introduction -- 7.2 RF and Microwave Connectors -- 7.2.1 Maintenance of Connectors -- 7.2.2 Connecting to Planar Circuits. 327 $a7.3 Microwave Vector Network Analyzers -- 7.3.1 Description and Configuration -- 7.3.2 Error Models Representing a VNA -- 7.3.3 Calibration of a VNA -- 7.4 On?Wafer Measurements -- 7.5 Summary -- References -- Chapter 8 RF Filters -- 8.1 Introduction -- 8.2 Review of Filter Responses -- 8.3 Filter Parameters -- 8.4 Design Strategy for RF and Microwave Filters -- 8.5 Multi?Element Low?Pass Filter -- 8.6 Practical Filter Responses -- 8.7 Butterworth (or Maximally Flat) Response -- 8.7.1 Butterworth Low?Pass Filter -- 8.7.2 Butterworth High?Pass Filter -- 8.7.3 Butterworth Band?Pass Filter -- 8.8 Chebyshev (Equal Ripple) Response -- 8.9 Microstrip Low?Pass Filter, Using Stepped Impedances -- 8.10 Microstrip Low?Pass Filter, Using Stubs -- 8.11 Microstrip Edge?Coupled Band?Pass Filters -- 8.12 Microstrip End?Coupled Band?Pass Filters -- 8.13 Practical Points Associated with Filter Design -- 8.14 Summary -- 8.15 Supplementary Problems -- References -- Chapter 9 Microwave Small?Signal Amplifiers -- 9.1 Introduction -- 9.2 Conditions for Matching -- 9.3 Distributed (Microstrip) Matching Networks -- 9.4 DC Biasing Circuits -- 9.5 Microwave Transistor Packages -- 9.6 Typical Hybrid Amplifier -- 9.7 DC Finger Breaks -- 9.8 Constant Gain Circles -- 9.9 Stability Circles -- 9.10 Noise Circles -- 9.11 Low?Noise Amplifier Design -- 9.12 Simultaneous Conjugate Match -- 9.13 Broadband Matching -- 9.14 Summary -- 9.15 Supplementary Problems -- References -- Chapter 10 Switches and Phase Shifters -- 10.1 Introduction -- 10.2 Switches -- 10.2.1 PIN Diodes -- 10.2.2 Field Effect Transistors -- 10.2.3 Microelectromechanical Systems -- 10.2.4 Inline Phase Change Switch Devices -- 10.3 Digital Phase Shifters -- 10.3.1 Switched?Path Phase Shifter -- 10.3.2 Loaded?Line Phase Shifter -- 10.3.3 Reflection?Type Phase Shifter -- 10.3.4 Schiffman 90° Phase Shifter. 327 $a10.3.5 Single?Switch Phase Shifter -- 10.4 Supplementary Problems -- References -- Chapter 11 Oscillators -- 11.1 Introduction -- 11.2 Criteria for Oscillation in a Feedback Circuit -- 11.3 RF (Transistor) Oscillators -- 11.3.1 Colpitts Oscillator -- 11.3.2 Hartley Oscillator -- 11.3.3 Clapp-Gouriet Oscillator -- 11.4 Voltage?Controlled Oscillator -- 11.5 Crystal?Controlled Oscillators -- 11.5.1 Crystals -- 11.5.2 Crystal?Controlled Oscillators -- 11.6 Frequency Synthesizers -- 11.6.1 The Phase?Locked Loop -- 11.6.1.1 Principle of a Phase?Locked Loop -- 11.6.1.2 Main Components of a Phase?Locked Loop -- 11.6.1.3 Gain of Phase?Locked Loop -- 11.6.1.4 Transient Analysis of a Phase?Locked Loop -- 11.6.2 Indirect Frequency Synthesizer Circuits -- 11.7 Microwave Oscillators -- 11.7.1 Dielectric Resonator Oscillator -- 11.7.2 Delay?Line Stabilized Microwave Oscillators -- 11.7.3 Diode Oscillators -- 11.7.3.1 Gunn Diode Oscillator -- 11.7.3.2 IMPATT Diode Oscillator -- 11.8 Oscillator Noise -- 11.9 Measurement of Oscillator Noise -- 11.10 Supplementary Problems -- References -- Chapter 12 RF and Microwave Antennas -- 12.1 Introduction -- 12.2 Antenna Parameters -- 12.3 Spherical Polar Coordinates -- 12.4 Radiation from a Hertzian Dipole -- 12.4.1 Basic Principles -- 12.4.2 Gain of a Hertzian Dipole -- 12.5 Radiation from a Half?Wave Dipole -- 12.5.1 Basic Principles -- 12.5.2 Gain of a Half?Wave Dipole -- 12.5.3 Summary of the Properties of a Half?Wave Dipole -- 12.6 Antenna Arrays -- 12.7 Mutual Impedance -- 12.8 Arrays Containing Parasitic Elements -- 12.9 Yagi-Uda Antenna -- 12.10 Log?Periodic Array -- 12.11 Loop Antenna -- 12.12 Planar Antennas -- 12.12.1 Linearly Polarized A linearly polarized antenna is one where the direction of the radiated electric field remains fixed as the wave propagates. Patch Antennas. 327 $a12.12.2 Circularly Polarized Planar Antennas. 330 $a"This textbook covers a typical modern syllabus in radio frequency or microwave design at final year undergraduate or first year postgraduate level. The content has been chosen to include all of the basic topics necessary to give a rigorous introduction to high-frequency technology. Both the content and presentation reflect the considerable experience which both authors have in teaching and research at university level. The material is presented from first principles, and relies only on students having a reasonable grasp of basic electronic principles. One of the key features of the book is the inclusion of an extensive set of worked examples to guide the student reader who has no prior knowledge of the subject. This is a feature which is missing from many textbooks in the given subject area. Significant emphasis is placed on practical design using distributed circuits, showing the influence of modern fabrication processes. It is this practical orientation that also makes the book attractive to professional readers, who may wish to refresh their experience with up-to-date techniques, or retrain in the RF field"--$cProvided by publisher. 410 0$aMicrowave and wireless technologies series. 606 $aRadio circuits$xDesign and construction 606 $aMicrowave circuits$xDesign and construction 615 0$aRadio circuits$xDesign and construction. 615 0$aMicrowave circuits$xDesign and construction. 676 $a621.38412 700 $aFree$b Charles E.$01670871 702 $aAitchison$b Colin S. 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910829851603321 996 $aRF and microwave circuit design$94033021 997 $aUNINA