Fundamentals of electronics. 2, Continuous-time signals and systems / Pierre Muret.

Format:

Book

Author/Creator:

Muret, Pierre, author.

Series:

Electronics Engineering Series

Language:

English

Subjects (All):

Signal processing.

Physical Description:

1 online resource (246 pages).

Edition:

1st ed.

Place of Publication:

London, [England] ; Hoboken, New Jersey : ISTE : Wiley, 2018.

Summary:

This book presents a synthesis of Electronics through keynotes which are substantiated in three volumes. The first one comprises four chapters devoted to elementary devices, i.e. diodes, bipolar transistors and related devices, field effect transistors and amplifiers. In each of one, device physics, non linear and linearized models, and applications are studied. The second volume is devoted to systems in the continuous time regime and contains two chapters: one describes different approaches to the transfer function concept and applications, and the following deals with the quadripole properties, filtering and filter synthesis. The third volume presents the various aspects of sampling systems and quantized level systems in the two last chapters.

Contents:

Cover

Half-Title Page

Title Page

Copyright Page

Contents

Preface

Introduction

1. Continuous-time Systems: General Properties, Feedback, Stability, Oscillators

1.1. Representation of continuous time signals

1.1.1. Sinusoidal signals

1.1.2. Periodic signals

1.1.3. Non-periodic real signals and Fourier transforms

1.2. Representations of linear and stationary systems and circuits built with localized elements

1.2.1. Representation using ordinary differential equation

1.2.2. Periodic permanent conditions and harmonic conditions

1.2.3. Unilateral Laplace transform of causal systems and study of the various regimes

1.3. Negative feedback

1.3.1. Inversion of a transfer function

1.3.2. Linearization of a nonlinear system

1.3.3. Gain-bandwidth product for first-order low-pass systems

1.3.4. Simultaneous negative and positive feedback

1.4. Study of system stability

1.4.1. Time response: pole mapping

1.4.2. Nyquist criterion in general case

1.4.3. Stability of looped systems assumed stable in open loop: Nyquist and Bode criteria

1.4.4. Stability of linear and nonlinear networks of any order, analyzed from state variables

1.5. State space form

1.6. Oscillators and unstable systems

1.6.1. Sinusoidal oscillators

1.6.2. Relaxation oscillators using a nonlinear dipole and other resonant circuit oscillators

1.6.3. General case of systems comprising a nonlinear dipole and study of oscillation in phase space

1.7. Exercises

1.7.1. Response and stability of an operational amplifier not compensated until unity gain and loaded by a capacitor

1.7.2. Active filters built with operational amplifiers

1.7.3. Study of a looped system and its stability: sample and hold circuit

1.7.4. Study of a Colpitts oscillator built with a JFET.

1.7.5. Study of a system in state-space form

2. Continuous-time Linear Systems: Quadripoles, Filtering and Filter Synthesis

2.1. Quadripoles or two-port networks

2.1.1. Quadripoles deduced from dynamic circuits

2.1.2. Quadripoles and transfer matrices

2.1.3. Modification of the parameters of the quadripoles using negative feedback

2.1.4. Passive quadripoles

2.1.5. Dipole impedances and admittances

iterative impedance

2.1.6. Scattering matrix (or s-matrix) and transfer matrix

2.1.7. Powers in quadripoles and matching

2.1.8. Image-impedances and image-matching

2.1.9. Representation of quadripoles by block diagrams

2.2. Analog filters

2.2.1. Definition and impulse response

2.2.2. Properties of real, causal and stable filters

2.3. Synthesis of analog active filters using operational amplifiers

2.3.1. Cascading second-order cell filters

2.3.2. Multiple feedback loop cell

2.4. Non-dissipative filters synthesis methods

2.4.1. Synthesis based on effective parameters

2.4.2. Synthesis based on image parameters

2.4.3. Filter sensitivity and Orchard's argument

2.5. Exercises

2.5.1. Impedance matching by means of passive two-port networks

application to class B push-pull power RF amplifier with MOS transistors

2.5.2. Passive low-pass filtering of an ideal voltage source by a two-port network built with an LC ladder (single-ended ladder filter)

2.5.3. Dual-ended passive filter, synthesized by the image-impedance method

2.5.4. Lattice filter

Appendix: Notions of Distribution and Operating Properties

A.1. Dirac distribution or Dirac impulse δa or δ(x − a)

A.2. Derivation of a distribution and derivation of discontinuous functions

A.3. Laplace transform of distributions

A.4. Distribution in principal value p.v. (1/x) following Cauchy's definition.

A.5. Solving equations with discontinuous functions derivatives

Bibliography

Index

Other titles from iSTE in Electronics Engineering

EULA.

Notes:

Includes bibliographical references and index.

Description based on online resource; title from PDF title page (EBC, viewed March 14, 2018).

ISBN:

9781119489108

1119489105

9781119489115

1119489113

9781119422082

1119422086

OCLC:

1027156749