Table Of Contents:
CHAPTER 1: Introduction 1(32)

OBJECTIVES 1(1)

1.1 The Electrical-Electronics Industry 1(1)

1.2 A Brief History 2(4)

1.3 Units of Measurement 6(1)

1.4 Systems of Units 7(2)

1.5 Powers of Ten 9(5)

1.6 Conversion between Levels of Powers of Ten 14(1)

1.7 Conversion within and between Systems of Units 15(2)

1.8 Symbols 17(1)

1.9 Conversion Tables 17(1)

1.10 Calculators 18(3)

1.11 Computer Analysis 21(2)

1.12 Computer (PC) Specifications 23(10)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
CHAPTER 2: Current and Voltage 33(27)

OBJECTIVES 33(1)

2.1 Introduction 33(1)

2.2 Atoms and Their Structure 34(1)

2.3 Voltage 35(2)

2.4 Current 37(3)

2.5 Voltage Sources 40(5)

2.6 Ampere-Hour Rating 45(1)

2.7 Battery Life Factors 45(2)

2.8 Conductors and Insulators 47(2)

2.9 Semiconductors 49(1)

2.10 Ammeters and Voltmeters 49(1)

2.11 Applications 50(5)

2.12 Computer Analysis 55(5)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
CHAPTER 3: Resistance 60(31)

OBJECTIVES 60(1)

3.1 Introduction 60(1)

3.2 Resistance 61(3)

3.3 Wire Tables 64(3)

3.4 Temperature Effects 67(3)

3.5 Superconductors 70(3)

3.6 Types of Resistors 73(4)

3.7 Color Coding and Standard Resistor Values 77(2)

3.8 Conductance 79(1)

3.9 Ohmmeters 80(1)

3.10 Applications 81(3)

3.11 Mathcad 84(7)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
CHAPTER 4: Ohm's Law, Power, and Energy 91(27)

OBJECTIVES 91(1)

4.1 Introduction 91(1)

4.2 Ohm's Law 91(3)

4.3 Power 94(2)

4.4 Energy 96(3)

4.5 Efficiency 99(3)

4.6 Plotting Ohm's Law 102(3)

4.7 Circuit Breakers, GFCIs, and Fuses 105(1)

4.8 Application 106(2)

4.9 Computer Analysis 108(10)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Chapter 5: Series dc Circuits 118(48)

OBJECTIVES 118(1)

5.1 Introduction 118(1)

5.2 Series Resistors 118(4)

5.3 Series Circuits 122(7)

5.4 Power Distribution in a Series Circuit 129(1)

5.5 Voltage Sources in Series 130(2)

5.6 Kirchhoff's Voltage Law 132(3)

5.7 Voltage Division in a Series Circuit 135(5)

5.8 Voltage Regulation and the Internal Resistance of Voltage Sources 140(4)

5.9 Loading Effects of Instruments 144(1)

5.10 Protoboards (Breadboards) 145(1)

5.11 Applications 146(4)

5.12 Computer Analysis 150(16)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
CHAPTER 6: Parallel dc Circuits 166(48)

OBJECTIVES 166(1)

6.1 Introduction 166(1)

6.2 Parallel Resistors 166(9)

6.3 Parallel Circuits 175(6)

6.4 Power Distribution in a Parallel Circuit 181(2)

6.5 Kirchhoft's Current Law 183(5)

6.6 Current Divider Rule 188(5)

6.7 Voltage Sources in Parallel 193(1)

6.8 Voltmeter Loading Effects 193(2)

6.9 Protoboards (Breadboards) 195(1)

6.10 Applications 196(4)

6.11 Computer Analysis 200(14)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
CHAPTER 7: Series-Parallel Circuits 214(45)

OBJECTIVES 214(1)

7.1 Introduction 214(1)

7.2 Series-Parallel Networks 215(1)

7.3 Reduce and Return Approach 216(4)

7.4 Descriptive Examples 220(5)

7.5 Notation 225(4)

7.6 Applying the Special Notation 229(3)

7.7 Ladder Networks 232(3)

7.8 Voltage Divider Supply (Unloaded and Loaded) 235(2)

7.9 Potentiometer Loading 237(3)

7.10 Open and Short Circuits 240(4)

7.11 Application 244(3)

7.12 Computer Analysis 247(12)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
CHAPTER 8: Methods of Analysis and Selected Topics (dc) 259(71)

OBJECTIVES 259(1)

8.1 Introduction 259(1)

8.2 Current Sources 260(2)

8.3 Source Conversions 262(2)

8.4 Current Sources in Parallel 264(1)

8.5 Branch-Current Analysis 265(7)

8.6 Mesh Analysis (General Approach) 272(8)

8.7 Mesh Analysis (Format Approach) 280(7)

8.8 Nodal Analysis (Genera) Approach) 287(8)

8.9 Nodal Analysis (Format Approach) 295(6)

8.10 Special Cases for Mesh and Nodal Analysis 301(6)

8.11 Bridge Networks 307(3)

8.12 Δ-Y and Y-Δ Conversions 310(4)

8.13 Applications 314(3)

8.14 Computer Analysis 317(13)

CHAPTER SUMMARY

IMPORTANT EQUATONS

PROBLEMS GLOSSARY
CHAPTER 9: Network Theorems 330(47)

OBJECTIVES 330(1)

9.1 Introduction 330(1)

9.2 Superposition Theorem 330(7)

9.3 Th茅venin's Theorem 337(14)

9.4 Maximum Power Transfer Theorem 351(8)

9.5 Norton's Theorem 359(4)

9.6 Application 363(3)

9.7 Computer Analysis 366(11)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Chapter 10: Capacitors 377(60)

OBJECTIVES 377(1)

10.1 Introduction 377(1)

10.2 The Electric Field 377(1)

10.3 Capacitance 378(4)

10.4 Capacitors 382(11)

10.5 Transients in Capacitive Networks: The Charging Phase 393(7)

10.6 Transients in Capacitive Networks: The Discharging Phase 400(6)

10.7 Initial Conditions 406(2)

10.8 Instantaneous Values 408(2)

10.9 Th茅venin Equivalent: T = RThC 410(3)

10.10 The Current ic 413(2)

10.11 Capacitors in Series and in Parallel 415(5)

10.12 Energy Stored by a Capacitor 420(1)

10.13 Stray Capacitances 421(1)

10.14 Application 421(3)

10.15 Computer Analysis 424(13)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Chapter 11: Inductors 437(48)

OBJECTIVES 437(1)

11.1 Introduction 437(1)

11.2 The Magnetic Field 438(4)

11.3 Inductance 442(7)

11.4 The Voltage VL 449(2)

11.5 R-L Transients: The Storage Phase 451(3)

11.6 Initial Conditions 454(2)

11.7 R-L Transients: The Release Phase 456(5)

11.8 Th茅venin Equivalent: T = L/RTh 461(2)

11.9 Instantaneous Values 463(1)

11.10 Average Induced Voltage: VLav 464(1)

11.11 Inductors in Series and in Parallel 465(1)

11.12 Steady-State Conditions 466(2)

11.13 Energy Stored by an Inductor 468(1)

11.14 Applications 469(3)

11.15 Computer Analysis 472(13)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Chapter 12. Sinusoidal Alternating Waveforms 485(66)

OBJECTIVES 485(1)

12.1 Introduction 485(1)

12.2 Sinusoidal ac Voltage Characteristics and Definitions 486(3)

12.3 Frequency Spectrum 489(2)

12.4 The Sinusoidal Waveform 491(4)

12.5 General Format for the Sinusoidal Voltage or Current 495(4)

12.6 Phase Relations 499(5)

12.7 Average Value 504(6)

12.8 Effective (rms) Values 510(5)

12.9 ac Meters and Instruments 515(3)

12.10 Applications 518(2)

12.11 Computer Analysis 520(31)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Chapter 13: The Basic Elements and Phasors 551(32)

OBJECTIVES 531(1)

13.1 Introduction 531(1)

13.2 Adding and Subtracting Sinusoidal Waveforms 531(3)

13.3 Complex Numbers 534(3)

13.4 Mathematical Operations with Complex Numbers 537(7)

13.5 Applying Kirchhoff's Laws Using Phasor Notation 544(3)

13.6 Resistors and the ac Response 547(4)

13.7 Inductors and the ac Response 551(5)

13.8 Capacitors and the ac Response 556(4)

13.9 Power and the Basic Elements 560(4)

13.10 Frequency Response of the Basic Elements 564(6)

13.11 Computer Analysis 570(13)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Chapter 14: Series and Parallel ac Circuits 583(57)

OBJECTIVES 583(1)

14.1 Introduction 583(1)

14.2 Series Configuration 583(6)

14.3 Average Power and the Power Factor 589(5)

14.4 Voltage Divider Rule 594(4)

14.5 Frequency Response for Series ac Circuits 598(6)

14.6 Summary: Series ac Circuits 604(1)

14.7 Parallel Configuration 605(8)

14.8 Current Divider Rule 613(1)

14.9 Frequency Response of Parallel Elements 614(5)

14.10 Summary: Parallel ac Networks 619(1)

14.11 Phase Measurements 619(3)

14.12 Admittance and Susceptance 622(4)

14.13 Application 626(1)

14.14 Computer Analysis 627(13)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Chapter 15: SeriesParallel ac Networks and the Power Triangle 640(36)

OBJECTIVES 640(1)

15.1 Introduction 640(1)

15.2 Series-Parallel ac Networks 640(10)

15.3 Ladder Networks 650(1)

15.4 The Power Triangle 651(5)

15.5 Power-Factor Correction 656(3)

15.6 Power Meters 659(1)

15.7 Grounding 659(3)

15.8 Application 662(2)

15.9 Computer Analysis 664(12)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Chapter 16: ac Methods of Analysis and Theorems 676(50)

OBJECTIVES 676(1)

16.1 Introduction 676(1)

16.2 Source Conversions 676(2)

16.3 Mesh Analysis 678(5)

16.4 Nodal Analysis 683(7)

16.5 Bridge Networks 690(2)

16.6 Δ-Y and Y-Δ Conversions 692(3)

16.7 Superposition Theorem 695(5)

16.8 Th茅venin's Theorem 700(3)

16.9 Norton's Theorem 703(3)

16.10 Maximum Power Transfer Theorem 706(4)

16.11 Computer Analysis 710(16)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Chapter 17: Resonance and Filters 726(63)

OBJECTIVES 726(1)

17.1 Introduction 726(1)

17.2 Series Resonant Circuit 727(7)

17.3 Examples (Series Resonance) 734(3)

17.4 Parallel Resonant Circuit 737(5)

17.5 Examples (Parallel Resonance) 742

17.6 Logarithms 741(8)

17.7 Properties of Logarithms 749(1)

17.8 Decibels 750(4)

17.9 Filters 754(2)

17.10 R-C Low-Pass Filter 756(3)

17.11 R-C High-Pass Filter 759(3)

17.12 Pass-Band Filters 762(4)

17.13 Stop-Band Filters 766(1)

17.14 Double Tuned Filters 767

17.15 dB Plots 168(603)

17.16 Applications 771(3)

11.17 Computer Analysis 774(15)

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Chapter 18: Transformers and Three-Phase Systems 789

OBJECTIVES 789(1)

18.1 Introduction 789(1)

18.2 Iron-Core Transformer 790(8)

18.3 Three-Phase Systems 798(1)

18.4 The Three-Phase Generator 799(1)

18.5 The Y-Connected Generator 800(1)

18.6 Phase Sequence (Y-Connected Generator) 801(1)

18.7 The Y-Connected Generator with a Y-Connected Load 801(2)

18.8 The Y-Δ System 803(2)

18.9 The Δ-Connected Generator 805(1)

18.10 The Δ-Δ,Δ-Y Three-Phase Systems 806(2)

18.11 Power 808(4)

18.12 Power and Phase-Sequence Measurements 812(4)

18.13 Unbalanced, Three-Phase, Four-Wire, Y-Connected Load 816(1)

18.14 Applications 817(3)

18.15 Computer Analysis 820

CHAPTER SUMMARY

IMPORTANT EQUATIONS

PROBLEMS

GLOSSARY
Appendixes A-1

A Conversion Factors A-2

B PSpice, Electronics Workbench, and Mathcad A-5

C Determinants A-7

D Color Coding of Molded Tubular Capacitors (Picofarads) A-14

E The Greek Alphabet A-15

F Magnetic Parameter Conversions A-16

G Maximum Power Transfer Conditions A-17

H Answers to Selected Odd-Numbered Problems A-19
Index A-29