Circuit analysis I : with MATLAB computing and Simulink/SimPowerSystems modeling /

Circuit analysis I : with MATLAB computing and Simulink/SimPowerSystems modeling /

An introductory text on electric circuit analysis with real-world examples and problem supplemented with MATLAB computations, and Simulink/SimPower models.

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Bibliographic Details
Main Author: Karris, Steven T.
Format: Electronic eBook
Language:English
Published: Fremont, Calif. : Orchard Publications, ©2009.
Subjects:
MATLAB.
SIMULINK.
MATLAB
SIMULINK
Electronic circuits > Data processing.
Electric circuit analysis > Data processing.
Online Access:CONNECT
Table of Contents:
  • Cover
  • Title page
  • Copyright page
  • Preface
  • Table of Contents
  • Chapter 1
  • Basic Concepts and Definitions
  • 1.1 The Coulomb
  • 1.2 Electric Current and Ampere
  • 1.3 Two Terminal Devices
  • 1.4 Voltage (Potential Difference)
  • 1.5 Power and Energy
  • 1.6 Active and Passive Devices
  • 1.7 Circuits and Networks
  • 1.8 Active and Passive Networks
  • 1.9 Necessary Conditions for Current Flow
  • 1.10 International System of Units
  • 1.11 Sources of Energy
  • 1.12 Summary
  • 1.13 Exercises
  • 1.14 Answers / Solutions to End-of-Chapter Exercises
  • Chapter 2
  • Analysis of Simple Circuits
  • 2.1 Conventions
  • 2.2 Ohms Law
  • 2.3 Power Absorbed by a Resistor
  • 2.4 Energy Dissipated in a Resistor
  • 2.5 Nodes, Branches, Loops and Meshes
  • 2.6 Kirchhoffs Current Law (KCL)
  • 2.7 Kirchhoffs Voltage Law (KVL)
  • 2.8 Single Mesh Circuit Analysis
  • 2.9 Single Node-Pair Circuit Analysis
  • 2.10 Voltage and Current Source Combinations
  • 2.11 Resistance and Conductance Combinations
  • 2.12 Voltage Division Expressions
  • 2.13 Current Division Expressions
  • 2.14 Standards for Electrical and Electronic Devices
  • 2.15 Resistor Color Code
  • 2.16 Power Rating of Resistors
  • 2.17 Temperature Coefficient of Resistance
  • 2.18 Ampere Capacity of Wires
  • 2.19 Current Ratings for Electronic Equipment
  • 2.20 Copper Conductor Sizes for Interior Wiring
  • 2.21 Summary
  • 2.22 Exercises
  • 2.23 Answers / Solutions to End-of-Chapter Exercises
  • Chapter 3
  • Nodal and Mesh Equations
  • Circuit Theorems
  • 3.1 Nodal, Mesh, and Loop Equations
  • 3.2 Analysis with Nodal Equations
  • 3.3 Analysis with Mesh or Loop Equations
  • 3.4 Transformation between Voltage and Current Sources
  • 3.5 Thevenins Theorem
  • 3.6 Nortons Theorem
  • 3.7 Maximum Power Transfer Theorem
  • 3.8 Linearity
  • 3.9 Superposition Principle
  • 3.10 Circuits with Non-Linear Devices
  • 3.11 Efficiency
  • 3.12 Regulation
  • 3.13 Summary
  • 3.14 Exercises
  • 3.15 Answers / Solutions to End-of-Chapter Exercises
  • Chapter 4
  • Introduction to Operational Amplifiers
  • 4.1 Signals
  • 4.2 Amplifiers
  • 4.3 Decibels
  • 4.4 Bandwidth and Frequency Response
  • 4.5 The Operational Amplifier
  • 4.6 An Overview of the Op Amp
  • 4.7 Active Filters
  • 4.8 Analysis of Op Amp Circuits
  • 4.9 Input and Output Resistance
  • 4.10 Summary
  • 4.11 Exercises
  • 4.12 Answers / Solutions to End-of-Chapter Exercises
  • Chapter 5
  • Inductance and Capacitance
  • 5.1 Energy Storage Devices
  • 5.2 Inductance
  • 5.3 Power and Energy in an Inductor
  • 5.4 Combinations of Inductors in Series and in Parallel
  • 5.5 Capacitance
  • 5.6 Power and Energy in a Capacitor
  • 5.7 Combinations of Capacitors in Series and in Parallel
  • 5.8 Nodal and Mesh Equations in General Terms
  • 5.9 Summary
  • 5.10 Exercises
  • 5.11 Answers / Solutions to End-of-Chapter Exercises
  • Chapter 6
  • Sinusoidal Circuit Analysis13;
  • 6.1 Excitation Functions
  • 6.2 Circuit Response to Sinusoidal Inputs
  • 6.3 The Complex Excitation Function
  • 6.4 Phasors in R, L, and C Circuits
  • 6.5 Impedance
  • 6.6 Admittance
  • 6.7 Summary
  • 6.8 Exercises
  • 6.9 Solutions to End-of-Chapter Exercises
  • Chapter 7
  • Phasor Circuit Analysis.

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