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Software VNA and Microwave Network Design and Characterisation
Zhipeng Wu (Gebundene Ausgabe, Englisch)
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Beschreibung
Advances in computer technology and in the development of modern microwave test instruments over the past decade have given electrical engineers, researchers and university students a number of new approaches to study microwave components, devices and circuits. Vector network analyser (VNA) is a valuable tool for providing fast and accurate characterisation of microwave components and devices for Dieses Produkt haben wir gerade leider nicht auf Lager.
Handgeprüfte Gebrauchtware
Bis zu 50 % günstiger als neu
Der Umwelt zuliebe
Technische Daten
Erscheinungsdatum
20.04.2007
Sprache
Englisch
EAN
9780470512159, 9780470512159
Herausgeber
John Wiley & Sons
Sonderedition
Nein
Autor
Zhipeng Wu
Seitenanzahl
274
Auflage
1
Einbandart
Gebundene Ausgabe
Autorenporträt
Zhipeng Wu is currently a Professor in the Microwave and Communications Group in the School of Electrical and Electronic Engineering at the University of Manchester. His research interests are in the field of antennas and propagation for wireless and mobile communications, tomographic systems and sensors, and microwave engineering, and he has taught many courses on these topics including Masters courses in microwave measurements and communication systems, and senior undergraduate courses in microwave components and systems and communication principles. He has been at the university since 1998, and was elevated, in 2005 to become a Senior Member of the IEEE and Fellow of the IEE. He has been invited to be a program committee member of a number of international conferences, and will the Chair of the Technical Program Committee for the International Workshop on Antenna Technology in 2007. He has co-authored the book Radiowave Propagation Over Ground (Kluwer, 1993) and the accompanying software to this book, and also the vector network analyser (VNA) software for the proposed book. Along with this, he has written a chapter in the Wiley Encyclopedia of RF and Microwave Engineering (Wiley, 2005), and the book Dielectric Resonator Antennas (Research Studies Press, 2003), and authored over 120 conference and journal publications.
Schlagwörter
Mikrowellentechnik
Inhaltsverzeichnis
Foreword
Preface
Chapter 1. Introduction to Network Analysis of Microwave Circuits
1.1 One-Port Network
1.2 Two-Port Network
1.3 Conversions between Z, Y and ABCD and S-parameters
1.4 Single Impedance Two-port Network
1.5 S-parameters of Common One- and Two-Port Networks
1.6 Connected Two-Port Networks
1.7 Scattering Matrix of Microwave Circuits Composed of Multi-port Devices
Chapter 2. Introduction to Software VNA
2.1 How to Install
2.2 The Software VNA
2.3 STIMULUS Functions
2.4 PARAMETER Functions
2.5 FORMAT Functions
2.6 RESPONSE Functions
2.7 MENU Block
2.8 Summary of Unlabelled-key Functions
2.9 Preset
2.10 Device Under Test (DUT)
2.11 Circuit Simulator
2.12 Circuit Simulation Procedures and Example Chapter 3. Device Builders and Models
3.1 Lossless Transmission Line
3.2 One- and Two-Port Standards
3.3 Discrete RLC Components: One-Port Impedance Load
3.4 Discrete RLC Components: Two-Port Series Impedance
3.5 Discrete RLC Components: Two-Port Shunt Admittance
3.6 General Transmission Line
3.7 Transmission Line Components: Two-Port Serial Transmission Line Stub
3.8 Transmission Line Components: Two-Port Parallel Transmission Line Stub
3.9 Ideal Two-Port Components: Attenuator/Gain Block
3.10 Ideal Two-Port Components: 1:N and N:1 Transformer
3.11 Ideal Two-Port Components: Isolator
3.12 Ideal Two-Port Components: Gyrator
3.13 Ideal Two-Port Components: Circulator
3.14 Physical Transmission Lines: Coaxial Line
3.15 Physical Transmission Lines: Microstrip Line
3.16 Physical Transmission Lines: Stripline
3.17 Physical Transmission Lines: Coplanar Waveguide
3.18 Physical Transmission Lines: Coplanar Strips
3.19 Physical Line Discontinuities: Coaxial Line Discontinuities
3.20 Physical Line Discontinuities: Microstrip Line Discontinuities
3.21 Physical Line Discontinuities: Stripline Discontinuities
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: Two-Port Coupled Microstrip Lines 3.26 Lumped Elements: Inductors
3.27 Lumped Elements: Capacitors
3.28 Lumped Elements: Resistor
3.29 Active Devices
3.30 Antennas: Dipole Antenna
3.31 Antennas: Resonant Antenna
3.32 Antennas: Transmission between Dipole Antennas
3.33 Antennas: Transmission between Resonant Antennas
3.34 User Defined S-Parameters: One-Port Device
3.35 User Defined S-Parameters: Two-Port Device Chapter 4: Design of Microwave Circuits
4.1 Impedance Matching
4.2 Impedance Transformers
4.3 Microwave Resonators
4.4 Power Dividers.
4.5 Couplers
4.6 Hybrid Rings
4.7 Phase Shifters
4.8 Filters
4.9 Amplifier Design
Chapter 5: Simulation of Microwave Devices and Circuits
5.1 Transmission Lines
5.2 Impedance Matching
5.3 Impedance Transformers
5.4 Resonators
5.5 Power Dividers
5.6 Couplers
5.7 Filters
5.8 Amplifier Design
5.9 Wireless Transmission Systems
References
Index
Höhe
229 mm
Breite
15.2 cm
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