Type(s) de contenu et mode(s) de consultation : Texte noté : électronique

Auteur(s) : Zelinger, G  Voir les notices liées en tant qu'auteur

Titre(s) : Basic Matrix Analysis and Synthesis [Texte électronique] : With Applications to Electronic Engineering

Publication : Burlington : Elsevier Science, 2014

Description matérielle : 1 online resource (245 pages)

Note(s) : (C) Interconnecting the transistor and terminating networks, definition of parameter matrices. - Print version record.
Basic Matrix Analysis and Synthesis

Autre(s) auteur(s) : Fry, D. W.. Fonction indéterminée  Voir les notices liées en tant qu'auteur
Costrell, L. Fonction indéterminée  Voir les notices liées en tant qu'auteur
Kandiah, K. Fonction indéterminée  Voir les notices liées en tant qu'auteur

Sujet(s) : Électronique -- Mathématiques  Voir les notices liées en tant que sujet

Identifiants, prix et caractéristiques : ISBN 9781483199061

Identifiant de la notice  : ark:/12148/cb446668139

Notice n° :  FRBNF44666813 (notice reprise d'un réservoir extérieur)

Table des matières : Front Cover; Basic Matrix Analysis and Synthesis: With Applications to ElectronicEngineering; Copyright Page; Table of Contents; PREFACE; PART I: BASIC MATRIX ANALYSIS AND SYNTHESIS; CHAPTER 1. REVIEW OF THE BASIC MATHEMATICAL OPERATIONS WITH MATRICES AND DETERMINANTS; (a) Matrices and determinants; fundamental similarities and differences; (b) Addition and subtraction; (c) Multiplication; (d) Inversion; CHAPTER 2. THE TERMINATED TWOPORT AND MATHEMATICAL MODELS; (a) The terminated twoport and the Z matrix; (b) The terminated twoport and the Y matrix.
(C) The terminated twoport in terms of the h parameter matrix(d) The terminated twoport in terms of the g parameter matrix; (e) The terminated twoport and the transmission matrix; Table I: The Terminal properties in Terms of theParameters; CHAPTER 3. INTERRELATIONS AND CONVERSION OFMATRICES; (a) Inversion of the Z matrix into Y matrix; (b) Inversion of the g matrix into hmatrix; (c) Conversion of the Y matrix into ABODmatrix; (d) Conversion of the h matrix into A BCD matrix; (e) Table of matrix conversions, introductory comments; Table II: Matrix interrelations.
CHAPTER 4. ELEMENTS OF MATRIX SYNTHESIS AND NETWORK MODELS(a) The single element twoport; (b) The two-element L network in terms of Z and Y parameters; (c) The three-element network in terms of Z and Y parameters; (d) The A BCD or transmission matrix applied to the synthesis of simple network models; (e) Twoport interconnections and synthesis of generalizedmathematical models; References; PART II: MATRIX METHODS APPLIED TO IMPEDANCE TRANSFORMATION; CHAPTER1. IMPEDANCE TRANSFORMATION AND IMAGE MATCHING, GENERAL; CHAPTER 2. IMAGE IMPEDANCE MATCHING OF PASSIVE AND ACTI'VETWOPORTS.
(A) Image impedance matching in terms of the ABC D matrix(b) Image impedance matching in terms of the Z parametermatrix; (c) Image impedance matching in terms of the h parametermatrix; (d) Image impedance matching in terms of arbitrary matrixparameters; CHAPTER 3. APPLICATION OF THE Z MATRIX TO IMAGE MATCHING OF A COMPLEX LOAD AND AN RFAMPLIFIER; (a) Definition of the problem; (b) Synthesis of mathematical model, conditions of image matching; References; PART III: MATRIX ANALYSIS AND SYNTHESIS OF VACUUM TUBE AND TRANSISTOR CIRCUITS; INTRODUCTORY REMARKS.
CHAPTER 1. VACUUM TUBES, LINEAR MODELS AND MATRICES(a) General definitions; (b) Floating admittance matrix of the triode; (c) Transformation of the admittance matrix of the triode to arbitrary matrix domains; References; Table III: Twoport matrices of thetriode; CHAPTER 2. SINGLE-STAGE VACUUM TUBE AMPLIFIERS, Z MATRIX APPLICATIONS; (a) Grounded cathode amplifier; (b) Negative feedback amplifier; References; CHAPTER 3. THE SINGLE-STAGE TRANSISTOR AMPLIFIER DESIGN, APPLICATIONS OF THE h AND ABCD OR TRANSMISSION MATRIX PARAMETERS; (a) Introduction; (b) General consideration of the design target.