The Six-Port Technique with Microwave and Wireless Applications.

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One of the main issues in microwave and wireless system design is to ensure high performance with low cost techniques. The six-port technique helps allow for this in critical network design areas. This practical resource offers you a thorough overview the six-port technique, from basic principles of...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Ghannouchi, Fadhel M.
Otros Autores: Mohammadi, Abbas
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Norwood : Artech House, 2009.
Temas:
Microwave circuits > Design and construction.
Microwave communication systems > Design and construction.
Wireless communication systems > Design and construction.
Microwave circuits > Design and construction
Microwave communication systems > Design and construction
Wireless communication systems > Design and construction
Acceso en línea:Texto completo
Tabla de Contenidos:
  • The Six-Port Technique with Microwave and Wireless Applications; Contents; Chapter 1 Introduction to the Six-Port Technique; 1.1 MICROWAVE NETWORK THEORY; 1.1.1 Power and Reflection; 1.1.2 Scattering Parameters; 1.2 MICROWAVE CIRCUITS DESIGN TECHNOLOGIES; 1.2.1 Microwave Transmission Lines; 1.2.2 Microwave Passive Circuits; 1.2.3 Fabrication Technologies; 1.2.3.1 Microwave Solid State Devices; 1.2.3.2 MIC Technology; 1.2.3.3 MHMIC Technology; 1.2.3.4 MMIC Technology; 1.3 SIX-PORT CIRCUITS; 1.3.1 Microwave Network Measurements; 1.3.2 Wireless Applications; 1.3.3 Microwave Applications.
  • 3.5 A SIX-PORT JUNCTION BASED ON A SYMMETRICAL FIVE-PORT RING JUNCTION3.6 HIGH POWER SIX-PORT JUNCTION IN HYBRID WAVEGUIDE/STRIPLINE TECHNOLOGY; 3.7 WORST-CASE ERROR ESTIMATION; References; Chapter 4 Calibration Techniques; 4.1 CALIBRATION METHOD USING SEVEN STANDARDS; 4.2 LINEAR CALIBRATION USING FIVE STANDARDS; 4.3 NONLINEAR CALIBRATION USING FOUR STANDARDS; 4.4 NONLINEAR CALIBRATION USING THREE STANDARDS; 4.5 SELF-CALIBRATION BASED ON ACTIVE LOAD SYNTHESIS; 4.6 DYNAMIC RANGE EXTENSION; 4.7 DIODE LINEARIZATION TECHNIQUE; 4.8 POWER CALIBRATION TECHNIQUE; References.
  • Chapter 5 Six-Port Network Analyzers5.1 GENERAL FORMULATION; 5.2 CASE OF A RECIPROCAL TWO-PORT DUT; 5.3 CASE OF AN ARBITRARY TWO-PORT DUT; 5.4 SIX-PORT BASED DE-EMBEDDING TECHNIQUE: THEORY; 5.5 TWO-PORT DE-EMBEDDING TECHNIQUE; 5.6 CALCULATION OF THE ERROR-BOX PARAMETERS; 5.7 DETERMINATION OF S PARAMETERS OF AN ARBITRARY DUT; 5.8 TRI-SIX-PORT NETWORK ANALYZER; 5.9 N-SIX-PORT NETWORK ANALYZER; 5.10 A SINGLE SIX-PORT N-PORT VECTOR NETWORK ANALYZER; 5.11 N-PORT CALIBRATION ALGORITHM; References; Chapter 6 Source-Pull and Load-Pull Measurements Using the Six-Port Technique.
  • 6.1 PRINCIPLES OF SOURCE-PULL/LOAD-PULL MEASUREMENTS6.2 IMPEDANCE AND POWER FLOW MEASUREMENTS WITH ANARBITRARY TEST PORT IMPEDANCE; 6.3 OPERATION OF A SIX-PORT IN REVERSE CONFIGURATION; 6.3.1 Six-Port Reflectometer Calibration in Reverse Configuration; 6.3.2 Error Box Calculation for Reverse Six-Port Measurements; 6.3.3 Discussion; 6.4 SOURCE-PULL CONFIGURATION USING SIX-PORT; 6.4.1 Passive Source-Pull Configuration; 6.4.2 Active Source-Pull Configuration; 6.5 LOAD-PULL CONFIGURATION USING SIX-PORT; 6.5.1 Passive Load-Pull Configuration; 6.5.2 Active Branch Load-Pull Configuration.

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