Design of ultra wideband power transfer networks / by Binboga
Siddik Yarman. Wiley 2010 - p.755 ISBN 978-0-470-31989-5.
Книга посвящена вопросам синтеза цепей связи для СВЧ устройств и систем. В основном рассматриваются численные процедуры синтеза согласующих цепей на основе метода реальной частоты. Есть примеры программ на МАТЛАБ.
Будет интересна всем кто интересуется проблемами структурного синтезам СВЧ цепей и устройств
[на англ. языке]
Contentse.
Circuit Theory for Power Transfer Networks.
Electromagnetic Field Theory for Power Transfer Networks: Fields, Waves and Lumped Circuit Models.
Transmission Lines for Circuit Designers: Transmission Lines as Circuit Elements.
Circuits Constructed with Commensurate Transmission Lines: Properties of Transmission Line Circuits in the Richard Domain.
nsertion Loss Approximation for Arbitrary Gain Forms via the Simplified Real Frequency Technique: Filter Design via SRFT.
Formal Description of Lossless Two-ports in Terms of Scattering Parameters: Scattering Parameters in the p Domain.
Numerical Generation of Minimum Functions via the Parametric Approach.
Gewertz Procedure to Generate a Minimum Function from its Even Part: Generation of Minimum Function in Rational Form.
Description of Power Transfer Networks via Driving Point Input Immittance: Darlington’s Theorem.
Design of Power Transfer Networks: A Glimpse of the Analytic Theory via a Unified Approach.
Mode Approaches to Broadband Matching Problems: Real Frequency Solutions.
mmittance Data Modeling via Linear Interpolation Techniques: A Classical Circuit Theory Approach.
Lossless Two-ports Formed with Mixed Lumped and Distributed Elements: Design of Matching Networks with Mixed Elements.
Книга посвящена вопросам синтеза цепей связи для СВЧ устройств и систем. В основном рассматриваются численные процедуры синтеза согласующих цепей на основе метода реальной частоты. Есть примеры программ на МАТЛАБ.
Будет интересна всем кто интересуется проблемами структурного синтезам СВЧ цепей и устройств
[на англ. языке]
Contentse.
Circuit Theory for Power Transfer Networks.
Electromagnetic Field Theory for Power Transfer Networks: Fields, Waves and Lumped Circuit Models.
Transmission Lines for Circuit Designers: Transmission Lines as Circuit Elements.
Circuits Constructed with Commensurate Transmission Lines: Properties of Transmission Line Circuits in the Richard Domain.
nsertion Loss Approximation for Arbitrary Gain Forms via the Simplified Real Frequency Technique: Filter Design via SRFT.
Formal Description of Lossless Two-ports in Terms of Scattering Parameters: Scattering Parameters in the p Domain.
Numerical Generation of Minimum Functions via the Parametric Approach.
Gewertz Procedure to Generate a Minimum Function from its Even Part: Generation of Minimum Function in Rational Form.
Description of Power Transfer Networks via Driving Point Input Immittance: Darlington’s Theorem.
Design of Power Transfer Networks: A Glimpse of the Analytic Theory via a Unified Approach.
Mode Approaches to Broadband Matching Problems: Real Frequency Solutions.
mmittance Data Modeling via Linear Interpolation Techniques: A Classical Circuit Theory Approach.
Lossless Two-ports Formed with Mixed Lumped and Distributed Elements: Design of Matching Networks with Mixed Elements.