1 Components, Quantities, and Units 1-1 Electrical Components and Measuring Instruments 1-2 Electrical and Magnetic Units 1-3 Scientific Notation 1-4 Engineering Notation and Metric Prefixes 1-5 Metric Unit Conversions 2 Voltage, Current, and Resistance 2-1 Atomic Structure 2-2 Electrical Charge 2-3 Voltage 2-4 Current 2-5 Resistance 2-6 The Electric Circuit 2-7 Basic Circuit Measurements 2-8 Electrical Safety Technology Theory into Practice 3 ohm's Law 3-1 ohm's Law 3-2 Calculating Current 3-3 Calculating Voltage 3-4 Calculating Resistance 3-5 The Relationship of Current, Voltage, and Resistance 3-6 Introduction to Troubleshooting Technology Theory into Practice 4 Energy and Power 4-1 Energy and Power 4-2 Power in an Electric Circuit 4-3 Resistor Power Ratings 4-4 Energy Conversion and Voltage Drop in Resistance 4-5 Power Supplies Technology Theory into Practice 5 Series Circuits 5-1 Resistors in Series 5-2 Current in a Series Circuit 5-3 Total Series Resistance 5-4 ohm's Law in Series Circuits 5-5 Voltage Sources in Series 5-6 Kirchhoff's Voltage Law 5-7 Voltage Dividers 5-8 Power in a Series Circuit 5-9 Circuit Ground 5-10 Troubleshooting Technology Theory into Practice 6 Parallel Circuits 6-1 Resistors in Parallel 6-2 Voltage in Parallel Circuits 6-3 Kirchhoff's Current Law 6-4 Total Parallel Resistance 6-5 ohm's Law in Parallel Circuits 6-6 Current Sources in Parallel 6-7 Current Dividers 6-8 Power in Parallel Circuits 6-9 Examples of Parallel Circuit Applications 6-10 Troubleshooting Technology Theory into Practice 7 Series-Parallel Circuits 7-1 Identifying Series-Parallel Relationships 7-2 Analysis of Series-Parallel Circuits 7-3 Voltage Dividers with Resistive Loads 7-4 Loading Effect of a Voltmeter 7-5 Ladder Networks 7-6 The Wheatstone Bridge 7-7 Troubleshooting Technology Theory into Practice 8 Circuit Theorems and Conversions 8-1 The Voltage Source 8-2 The Current Source 8-3 Source Conversions 8-4 The Superposition Theorem 8-5 Thevenin's Theorem 8-6 Norton's Theorem 8-7 Maximum Power Transfer Theorem 8-8 Delta-to-Wye (Δ-to-Y) and Wye-to-Delta (Y-to-Δ)
Conversions Technology Theory into Practice 9 Branch, Mesh, and Node Analysis 9-1 Branch Current Method 9-2 Determinants 9-3 Solving Simultaneous Equations Using a Calculator 9-4 Mesh Current Method 9-5 Node Voltage Method Technology Theory into Practice 10 Magnetism and Electromagnetism 10-1 The Magnetic Field 10-2 Electromagnetism 10-3 Electromagnetic Devices 10-4 Magnetic Hysteresis 10-5 Electromagnetic Induction 10-6 Applications of Electromagnetic Induction Technology Theory into Practice 11 Introduction to Alternating Current and Voltage 11-1 The Sine Wave 11-2 Sinusoidal Voltage Sources 11-3 Voltage and Current Values of Sine Waves 11-4 Angular Measurement of a Sine Wave 11-5 The Sine Wave Formula 11-6 ohm's Law and Kirchhoff's Laws in AC Circuits 11-7 Superimposed DC and AC Voltages 11-8 Nonsinusoidal Waveforms 11-9 The oscilloscope Technology Theory into Practice 12 Phasors and Complex Numbers 12-1 Introduction to Phasors 12-2 The Complex Number System 12-3 Rectangular and Polar Forms 12-4 Mathematical operations Technology Theory into Practice 13 Capacitors 13-1 The Basic Capacitor 13-2 Types of Capacitors 13-3 Series Capacitors 13-4 Parallel Capacitors 13-5 Capacitors in DC Circuits 13-6 Capacitors in AC Circuits 13-7 Capacitor Applications 13-8 Testing Capacitors Technology Theory into Practice 14 Inductors 14-1 The Basic Inductor 14-2 Types of Inductors 14-3 Series Inductors 14-4 Parallel lnductors 14-5 Inductors in DC Circuits 14-6 Inductors in AC Circuits 14-7 Inductor Applications 14-8 Testing lnductors Technology Theory into Practice 15 Transformers 15-1 Mutual Inductance 15-2 The Basic Transformer 15-3 Step-Up Transformers 15-4 Step-Down Transformers 15-5 Loading the Secondary Winding 15-6 Reflected Load 15-7 Matching the Load and Source Resistances 15-8 The Transformer as an Isolation Device 15-9 Practical Transformers 15-10 other Types of Transformers 15-11 Troubleshooting Technology Theory into Practice 16 RC Circuits Part 1: Series Reactive Circuits 16-1 Sinusoidal Response of RC Circuits 16-2 Impedance and Phase Angle of Series RC Circuits 16-3 Analysis of Series RC Circuits Part 2: Parallel Reactive Circuits 16-4 Impedance and Phase Angle of Parallel RC Circuits 16-5 Analysis of Parallel RC Circuits Part 3: Series-Parallel Reactive Circuits 16-6 Analysis of Series-Parallel RC Circuits Part 4: Special Topics 16-7 Power in RC Circuits 16-8 Basic Applications 16-9 Troubleshooting Technology Theory into Practice 17 RL Circuits Part 1: Series Reactive Circuits 17-1 Sinusoidal Response of RL Circuits 17-2 Impedance and Phase Angle of Series RL Circuits 17-3 Analysis of Series RL Circuits Part 2: Parallel Reactive Circuits 17-4 Impedance and Phase Angle of Parallel RL Circuits 17-5 Analysis of Parallel RL Circuits Part 3: Series-Parallel Reactive Circuits 17-6 Analysis of Series-Parallel RL Circuits Part 4: Special Topics 17-7 Power in RL Circuits 17-8 Basic Applications 17-9 Troubleshooting Technology Theory into Practice 18 RL Circuits and Resonance Part 1: Series Reactive Circuits 18-1 Impedance of Series RLC Circuits 18-2 Analysis of Series RLC Circuits 18-3 Series Resonance Part 2: Parallel Reactive Circuits 18-4 Impedance of Parallel RLC Circuits 18-5 Analysis of Parallel RLC Circuits 18-6 Parallel Resonance Part 3: Series-Parallel Reactive Circuits 18-7 Analysis of Series-Parallel RLC Circuits Part 4: Special Topics 18-8 Bandwidth of Resonant Circuits 18-9 Applications Technology Theory into Practice 19 Basic Filters 19-1 Low-Pass Filters 814 19-2 High-Pass Filters 821 19-3 Band-Pass Filters 826 19-4 Band-Stop Filters 830 Technology Theory into Practice 20 Circuit Theorems in AC Analysis 20-1 The Superposition Theorem 20-2 Thevenin's Theorem 20-3 Norton's Theorem 20-4 Maximum Power Transfer Theorem Technology Theory into Practice 21 Pulse Response of Reactive Circuits 21-1 The RC Integrator 21-2 Single-Pulse Response of RC Integrators 21-3 Repetitive-Pulse Response of RC Integrators 21-4 Single-Pulse Response of RC Differentiators 21-5 Repetitive-Pulse Response of RC Differentiators 21-6 Pulse Response of RL Integrators 21-7 Pulse Response of RL Differentiators 21-8 Relationship of Time (Pulse) Response to Frequency
Response 21-9 Troubleshooting Technology Theory into Practice 22 Polyphase Systems in Power Applications 22-1 Basic Polyphase Machines 22-2 Polyphase Generators in Power Applications 22-3 Three-Phase Generators 22-4 Three-Phase Source/Load Analysis 22-5 Three-Phase Power APPENDICES A Table of Standard Resistor Values B Batteries C Derivations D Capacitor Color Coding Answers to odd-Numbered Problems Glossary Index
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