Research Catalog

Computer-aided design of microwave circuits

Title
Computer-aided design of microwave circuits / K.C. Gupta, Ramesh Garg, Rakesh Chadha.
Author
Gupta, K. C. (Kuldip C.)
Publication
  • Dedham, Massachusetts : Artech, 1981.
  • ©1981.

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StatusFormatAccessCall NumberItem Location
Book/TextUse in library TK7876 .G77 1981Off-site

Details

Additional Authors
  • Garg, Ramesh, 1945-
  • Chadha, Rakesh.
Description
656 pages : illustrations; 24 cm
Subject
  • Arbeitsgruppe Cooperative Arbeitsdidaktik
  • Microwave integrated circuits > Computer-aided design
  • Microwave integrated circuits > Computer-aided design
  • Mikrowellenschaltung
  • Entwurfsautomation
  • Microwave integrated circuits
  • Computer-aided design
  • Integrated circuits
  • Circuits pour microondes
Bibliography (note)
  • Includes bibliographical references and index.
Contents
  • Microwave Circuits and Computer-Aided Design -- Evolution of Microwave Circuits -- Computer-Aided Design Approach -- Outline of the Book -- Microwave Network Representation -- Abcd Parameters -- Scattering Parameters -- Definition and General Properties -- Relationship with Other Representations -- Transfer Scattering Matrix Representation -- Abcd, S-And T-Matrices for some of the Commonly Used Two-Ports -- Modelling of Circuit Elements -- Characterization of Transmission Structures -- Coaxial Lines -- Waveguides -- Rectangular Waveguides -- Circular Waveguides -- Striplines -- Microstrip Lines -- Slotlines -- Coplanar Lines -- Coupled Striplines -- Coupled Microstrip Lines -- Sensitivities of Transmission Structures -- Definitions -- Applications of Sensitivity Analysis -- Tolerance Analysis of Transmission Lines -- Coaxial Lines -- Waveguides -- Striplines and Microstrip Lines -- Striplines -- Microstrip Lines -- Slotlines and Coplanar Lines -- Slotlines -- Coplanar Lines -- Coupled Striplines and Coupled Microstrip Lines -- Coupled Striplines -- Coupled Microstrip Lines -- Characterization of Discontinuities-I: Coaxial Lines and Waveguides -- Coaxial Line Discontinuities -- Capacitive Gaps in Coaxial Lines -- Steps in Coaxial Lines -- Capacitive Windows in Coaxial Lines -- T-Junction or Stub in Coaxial Lines -- Rectangular Waveguide Discontinuities -- Posts in a Waveguide -- Strips in Waveguides -- Diaphragms or Windows in Waveguides -- Steps in Waveguides -- Right-Angled Bends or Corners in Waveguides -- T-junctions.
  • Circular and Elliptical Apertures in Waveguides -- Characterization of Discontinuities-II: Striplines and Microstrip Lines -- Stripline Discontinuities -- Open-End -- Round-Hole -- Gap -- Step in Width -- Bend -- T-junction -- Microstrip Discontinuities -- Open-End -- Gap -- Notch -- Step in Width -- Right-angled Bend -- T-junction -- Cross-junction -- Lumped Elements in Microwave Circuits -- Basic Considerations -- Design of Lumped Elements -- Resistors and Inductors -- Capacitors -- Measurements of Lumped Element Parameters -- Two-Dimensional Planar Components -- Basic Concepts -- Green's Function Approach -- Evaluation of Green's Functions -- Method of Images -- Expansion of Green's Function in Eigenfunctions -- Green's Functions for Various Configurations -- Segmentation and Desegmentation -- Numerical Methods for Arbitrary Shapes -- Scaling for Planar Circuits -- Frequency Scaling -- Impedance Scaling -- Designs of Stripline Type Circuits from a Microstrip Type Planar Circuit (and Vice Versa) -- Models for Microwave Semiconductor Devices -- Schottky-Barrier and Point-Contact Diodes -- Varactor Diodes -- Pin Diodes -- Bipolar Transistors and Mesfets -- Bipolar Transistors -- MESFETs -- Gunn and Impatt Diodes -- Gunn Diodes -- Impatt Diodes -- Measurement Techniques for Modelling -- Microwave Network Analyzers -- Network Analyzer -- Automatic Network Analyzer -- Six-Port Network Analyzer -- System Error Measurement and Correction -- General Considerations -- One-port Device Measurements -- Two-port Measurements.
  • Three-port and Multiport Measurements -- Characterization of Connectors -- Data Reduction Techniques -- Analysis -- Evaluation of Circuit Performance -- Circuits Consisting of Two-Ports -- Use of Symmetry in the Circuit Analysis -- Analysis of Cascaded Two-Ports -- Analysis of Arbitrarily Connected Two-Ports -- Arbitrarily Connected Networks -- Analysis Using Connection Scattering Matrix -- Multiport Connection Method -- An Example -- Analysis by Subnetwork Growth Method -- Circuits Consisting of Two-Dimensional Planar Components -- Segmentation Method -- Desegmentation Method -- Sensitivity Analysis of Microwave Circuits -- Finite Difference Method -- Adjoint Network Method -- Tellegen's Theorem in Wave Variables -- The Adjoint Network -- Comparison with the Direct Method -- Evaluation of Gradients for Subnetwork Growth Method -- Evaluation of Differential Scattering Matrices -- Sensitivity Invariants for Scattering Matrices -- Differential S-Matrices for Typical Components -- An Example of Evaluation of Sensitivities -- Large Change Sensitivities -- Differential Scattering Matrices for Some Typical Components -- Tolerance Analysis -- Worst-Case Analysis -- Statistical Tolerance Analysis -- Method of Moments -- Monte-Carlo Analysis -- Some Results from Probability Theory and Statistics -- Time Domain Analysis of Microwave Circuits -- Transient Analysis of Transmission Lines -- Laplace Transform Method -- Companion Model Approach -- State Variable Approach -- Matrix Solution Techniques -- Gaussian Elimination -- Pivoting.
  • L-U Factorization and F-B Substitution -- L-U Decomposition -- Forward Elimination and Back Substitution -- Sparse Matrix Techniques -- Reordering of Equations -- Data Structures for Reordering -- L-U Factorization and F-B Substitution -- Remarks on Sparse Matrix Techniques -- Optimization -- Basic Concepts and Definitions -- Objective Functions for Circuit Optimization -- General Considerations -- Least pth Approximation -- Minimax Approximation -- Constraints -- Transformation of Constraints -- Penalty for Constraint Violation -- Sequential Unconstrained Minimization Technique -- One-Dimensional Optimization Techniques -- Elimination Methods -- Interpolation Methods -- Direct Search Optimization Methods -- Pattern Search Methods -- Hooke and Jeeves Methods -- Powell's Method -- Razor Search Method -- Rotating Coordinates Method -- The Simplex Method -- Gradient Methods for Optimization -- Steepest Descent Method -- Generalized Newton-Raphson Method -- Davidon-Fletcher-Powell Method -- Optimization of Least Square Objective Functions -- CAD Programs -- A Microwave Circuit Analysis Program (MCAP) -- Program Description -- Flow Chart -- Description of Subroutines -- An Example -- Instructions for Users -- Program Listing -- Cad Programs for Microwave Circuits / Les Besser -- Integrated Design and Manufacturing System Concept -- Summary of Microwave Cad Programs -- Handy-Compact Circuit Analysis on HP-41C Handheld Calculator -- Micro-Compact Circuit Optimization on HP-9845 B/T Desktop Computer -- Super-Compact.
  • Lumped Element Matching Synthesis with Ampsyn -- Transmission Line Matching Network Synthesis with Cadsyn -- Filsyn.
ISBN
  • 0890061068
  • 9780890061060
  • 089006105X
  • 9780890061053
LCCN
82465904
OCLC
  • ocm08764879
  • 8764879
  • SCSB-9334115
Owning Institutions
Princeton University Library