Circuit Systems with MATLAB® and PSpice®
by Won Y. Yang (Chung-Ang Univ., Korea ); Seung C. LeeFormat: eBook
Pub. Date: 2008-04-01
Publisher(s): WILEY
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Summary
Software tools applied to circuit analysis and design are rapidly evolving, enabling students to move beyond the time-consuming, math-intensive methods of traditional circuit instruction. By incorporating MATLAB 7.0 and PSpice 10.0, alongside systematic use of the Laplace transform, Yang and Lee help readers rapidly gain an intuitive understanding of circuit concepts. Unified scheme using the Laplace transform accelerates comprehension Focuses on interpreting solutions and evaluating design results, not laborious computation Most examples illustrated with MATLAB analyses and PSpice simulations Downloadable programs available for hands-on practice Over 130 problems to reinforce and extend conceptual understandingIncludes expanded coverage of key areas such as: Positive feedback OP Amp circuits Nonlinear resistor circuit analysis Real world 555 timer circuit examples Power factor correction programs Three-phase AC power system analysis Two-port parameter conversionBased on decades of teaching electrical engineering students, Yang and Lee have written this text for a full course in circuit theory or circuit analysis. Researchers and engineers without extensive electrical engineering backgrounds will also find this book a helpful introduction to circuit systems.
Table of Contents
| Preface | |
| Limits of Liability and Disclaimer of Warranty of Software | |
| Basic Concepts on Electric Circuits | |
| Symbols and Units | |
| Network Variables | |
| Voltage and Current | |
| Electric Power and Energy | |
| Reference Polarity and Direction of Voltage/Current | |
| Passive Sign Convention | |
| Circuit Elements | |
| Passive Elements | |
| Active Elements | |
| Operational Amplifier | |
| Transistor | |
| Kirchhoff's Laws | |
| Nodes, Branches, and Meshes/Loops | |
| Kirchhoff's Current Law (KCL) | |
| Kirchhoff's Voltage Law (KVL) | |
| The Number of KCL/KVL Equations | |
| Equivalent Transformation of Sources | |
| Combination of Several Sources | |
| Voltage-Current Source Transformation | |
| Examples of Source Transformation | |
| Series and Parallel Connections | |
| Problems | |
| Resistor Circuits | |
| Combination of Resistors | |
| Series Combination of Resistors | |
| Parallel Combination of Resistors | |
| Voltage/Current Divider | |
| Voltage Divider | |
| Current Divider | |
| ++-Y(-T) Transformation | |
| ++-Y(-T) Conversion Formula | |
| Y-++(T-) Conversion Formula | |
| Node Analysis | |
| Circuits Having No Dependent Sources | |
| Circuits Having Dependent Sources | |
| Mesh (Loop) Analysis | |
| Circuits Having No Dependent Sources | |
| Circuits Having Dependent Sources | |
| Comparison of Node Analysis and Mesh Analysis | |
| Thevenin/Norton Equivalent Circuits | |
| Superposition Principle and Linearity | |
| OP Amp Circuits with Resistors | |
| Inverting OP Amp Circuit | |
| Noninverting OP Amp Circuit | |
| Voltage Follower | |
| More Exact Analysis of OP Amp Circuits | |
| OP Amp Circuits with Positive Feedback | |
| Transistor Circuits | |
| Loading Effect and Input/Output Resistance | |
| Load Line Analysis of Nonlinear Resistor Circuits | |
| More Examples of Resistor Circuits | |
| Problems | |
| First-Order Circuits | |
| Characteristics of Inductors and Capacitors | |
| Inductor | |
| Capacitor | |
| Series-Parallel Combination of Inductors/Capacitors | |
| Series-Parallel Combination of Inductors | |
| Series-Parallel Combination of Capacitors | |
| Circuit Analysis Using the Laplace Transform | |
| The Laplace Transform for a First-Order Differential Equation | |
| Transformed Equivalent Circuits for R, L, and C | |
| Analysis of First-Order Circuits | |
| DC-Excited RL Circuits | |
| DC-Excited RC Circuits | |
| Time-Constant and Natural Responses of First-Order Circuits | |
| Sequential Switching | |
| AC-Excited First-Order Circuits | |
| Analysis of First-Order OP Amp Circuits | |
| First-Order OP Amp Circuits with Negative Feedback | |
| First-Order OP Amp Circuits with Positive Feedback | |
| LRL Circuits and CRC Circuits | |
| An LRL Circuit | |
| A CRC Circuit | |
| Conservation of Flux Linkage and Charge | |
| A Measure Against Violation of the Continuity Rule on the Inductor Current | |
| Simulation Using PSpice and MATLAB | |
| An RC Circuit with Sequential Switching | |
| An AC-Excited RL Circuit | |
| Application and Design of First-Order Circuits | |
| Problems | |
| Second-Order Circuits | |
| The Laplace Transform For Second-Order Differential Equations | |
| Overdamped Case with Two Distinct Real Characteristic Roots | |
| Critically Damped Case with Double Real Characteristic Roots | |
| Underdamped Case with Two Distinct Complex Characteristic Roots | |
| Table of Contents provided by Publisher. All Rights Reserved. |
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