Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Auteur(s) : Zelinger, G
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
Costrell, L. Fonction indéterminée
Kandiah, K. Fonction indéterminée
Sujet(s) : Électronique -- Mathématiques
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.