26558214
9783527307678
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ForewordPrefaceChapter 1. Introduction to Network Analysis of Microwave Circuits1.1 One-Port Network1.1.1 Total Voltage and Current Analysis1.1.2 Transmission-Reflection Analysis1.1.2.1 Voltage and Current1.1.2.2 Reflection Coefficient1.1.2.3 Power1.1.2.4 Introduction of a 1 and b 1 1.1.2.5 Z in Terms of G1.1.3 Smith Chart1.1.3.1 Impedance Chart1.1.3.2 Admittance Chart1.1.4 Terminated Transmission Line1.2 Two-Port Network1.2.1 Total Quantity Network Parameters1.2.2 Determination of Z, Y and ABCD Parameters1.2.3 Properties of Z, Y and ABCD Parameters1.2.4 Scattering Parameters1.2.5 Determination of S-parameters1.2.6 Relation between a and b and Total Voltages and Currents1.2.7 Power in Terms of a and b1.2.8 Signal Flow Chart1.2.9 Properties of S-parameters1.2.10 Power Flow in a Terminated Two-Port Network1.3 Conversions between Z, Y and ABCD and S-parameters1.4 Single Impedance Two-port Network1.4.1 S-parameters for Single Series Impedance1.4.2 S-parameters for Single Shunt Impedance1.4.3 Two-Port Chart1.4.3.1 Single Series Impedance Network1.4.3.2 Single Shunt Impedance Network1.4.3.3 Scaling Property1.4.4 Applications of the Two-Port Chart1.4.4.1 Identification of Pure Resonance1.4.4.2 Q-factor Measurements1.4.4.3 Resonance with Power-Dependent Losses1.4.4.4 Impedance or Admittance Measurement Using the Two-Port Chart1.5 S-parameters of Common One- and Two-Port Networks1.6 Connected Two-Port Networks1.6.1 T-Junction1.6.2 Cascaded Two-Port Networks1.6.3 Two-Port Networks in Series and Parallel Connections1.7 Scattering Matrix of Microwave Circuits Composed of Multi-port Devices1.7.1 S-parameters of a Multi-port Device1.7.2 S-parameters of a Microwave CircuitChapter 2. Introduction to Software VNA2.1 How to Install2.2 The Software VNA2.3 STIMULUS Functions2.4 PARAMETER Functions2.5 FORMAT Functions2.6 RESPONSE Functions2.7 MENU Block2.8 Summary of Unlabelled-key Functions2.9 Preset2.10 Device Under Test (DUT)2.11 Circuit Simulator2.12 Circuit Simulation Procedures and Example Chapter 3. Device Builders and Models3.1 Lossless Transmission Line3.2 One- and Two-Port Standards3.3 Discrete RLC Components: One-Port Impedance Load3.4 Discrete RLC Components: Two-Port Series Impedance3.5 Discrete RLC Components: Two-Port Shunt Admittance3.6 General Transmission Line3.7 Transmission Line Components: Two-Port Serial Transmission Line Stub3.8 Transmission Line Components: Two-Port Parallel Transmission Line Stub3.9 Ideal Two-Port Components: Attenuator/Gain Block3.10 Ideal Two-Port Components: 1:N and N:1 Transformer3.11 Ideal Two-Port Components: Isolator3.12 Ideal Two-Port Components: Gyrator3.13 Ideal Two-Port Components: Circulator3.14 Physical Transmission Lines: Coaxial Line3.15 Physical Transmission Lines: Microstrip Line3.16 Physical Transmission Lines: Stripline3.17 Physical Transmission Lines: Coplanar Waveguide3.18 Physical Transmission Lines: Coplanar Strips3.19 Physical Line Discontinuities: Coaxial Line Discontinuities3.19.1 Step Discontinuity3.19.2 Gap Discontinuity3.19.3 Open-End Discontinuity3.20 Physical Line Discontinuities: Microstrip Line Discontinuities3.20.1 Step Discontinuity3.20.2 Gap Discontinuity3.20.3 Bend Discontinuity3.20.4 Slit Discontinuity3.20.5 Open-End Discontinuity 3.21 Physical Line Discontinuities: Stripline Discontinuities3.21.1 Step Discontinuity3.21.2 Gap Discontinuity3.21.3 Bend Discontinuity3.21.4 Open-End Discontinuity 3.22 General Coupled Lines: Four-Port Coupled Lines 3.23 General Coupled Lines: Two-Port Coupled Lines 3.24 Physical Coupled Lines: Four-Port Coupled Microstrip Lines 3.25 Physical Coupled Lines: TDittmeyer, Roland is the author of 'Winnacker-Kuchler : Prozesse und Produkte. Band 1: Methodische Grundlagen', published 2004 under ISBN 9783527307678 and ISBN 3527307672.
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