| Description |
1 online resource : illustrations (black and white) |
| Contents |
Cover; Half Title; Title Page; Copyright Page; Dedication; Epigraph; Brief Contents; Table of Contents; Preface; P.1 Pedagogy; P.2 Organization; P.3 PSpice Simulations; P.4 Solutions Manual and Classroom Presentations; Acknowledgments; Author; List of PSpice Simulations; Convention for Voltage and Current Symbols; Part I: Basic Concepts in Circuit Analysis; Chapter 1 Preliminaries to Circuit Analysis; Objective and Overview; 1.1 What Are Electric Circuits and What Are They Used For?; 1.2 What Laws Govern the Behavior of Electric Circuits?; 1.3 What Is Electric Current? |
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1.4 What Is the Direction of Current?1.5 What Is Voltage?; 1.6 What Is Voltage Polarity?; 1.7 How Are Energy and Power Related to Voltage and Current?; 1.7.1 Positive and Negative Values of Circuit Variables; 1.8 What Are Ideal Circuit Elements and How Do They Handle Energy?; ★.1.9 Why Resistance, Capacitance, and Inductance?; ★.1.10 What Are the Approximations Implicit in Basic Electric Circuits?; Learning Checklist: What Should Be Learned from This Chapter; Problem-Solving Tips; Problems; Current; Voltage; Power and Energy; Chapter 2 Fundamentals of Resistive Circuits |
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Objective and Overview★.2.1 Nature of Resistance; 2.2 Ideal Resistor; 2.3 Short Circuit and Open Circuit; 2.4 Ideal, Independent Voltage Source; 2.5 Ideal, Independent Current Source; 2.6 Ideal, Dependent Sources; 2.6.1 Ideal, Dependent Voltage Sources; 2.6.2 Ideal, Dependent Current Sources; 2.7 Nomenclature and Analysis of Resistive Circuits; 2.8 Kirchhoff's Laws; 2.8.1 Kirchhoff's Current Law; 2.8.2 Kirchhoff's Voltage Law; 2.9 Series and Parallel Connections; 2.9.1 Series Connection; 2.9.2 Parallel Connection; 2.10 Problem-Solving Approach |
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Learning Checklist: What Should Be Learned from This ChapterProblem-Solving Tips; Problems; Resistors; Sources and Kirchhoff's Laws; Resistive Circuits and Kirchhoff's Laws; Probing Further; Chapter 3 Circuit Equivalence; Objective and Overview; 3.1 Circuit Equivalence and Its Implications; 3.2 Series and Parallel Connection of Resistors; 3.2.1 Series Connection of Resistors; 3.2.2 Parallel Connection of Resistors; .3.3 Resistivity; 3.4 Star-Delta Transformation; 3.5 Series and Parallel Connections of Ideal Sources; 3.5.1 Ideal Voltage Sources; 3.5.2 Ideal Current Sources |
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3.6 Linear-Output Sources3.6.1 Linear-Output Voltage Source; 3.6.2 Linear-Output Current Source; 3.6.3 Transformation of Linear-Output Sources; 3.7 Problem-Solving Approach Updated; Problem-Solving Tips; Problems; Equivalent Resistance; Voltage Division, Current Division, and Source Transformation; General Resistive Circuits; Probing Further; Chapter 4 Circuit Theorems; Objective and Overview; 4.1 Excitation by Dependent Sources; 4.2 Thevenin's Theorem; 4.2.1 Derivation of TEC; ★. 4.2.2 Derivation of TEC with PSpice; 4.3 Norton's Theorem; ★. 4.3.1 Derivation of NEC with PSpice |
| Bibliography |
Includes bibliographical references and index |
| Notes |
CIP data; item not viewed |
| SUBJECT |
PSpice. http://id.loc.gov/authorities/names/n91119141
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PSpice. fast (OCoLC)fst01375735 |
| Subject |
Electronic circuit design -- Computer programs.
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TECHNOLOGY & ENGINEERING -- Mechanical.
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Electronic circuit design -- Computer programs.
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| Form |
Electronic book
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| ISBN |
9781315402208 |
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1315402203 |
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9781315402215 |
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1315402211 |
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9781315402192 |
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131540219X |
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9781315402222 |
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131540222X |
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