Basic Engineering Circuit Analysis, 10E

Maintaining its accessible approach to circuit analysis, the tenth edition includes even more features to engage and motivate engineers. Exciting chapter openers and accompanying photos are included to enhance visual learning. The text introduces figures with color-coding to significantly improve comprehension. New problems and expanded application examples in PSPICE, MATLAB, and LabView are included. New quizzes are also added to help engineers reinforce the key concepts. -- Publisher Cover Title Page Copyright Brief Contents Contents Preface CHAPTER 1 BASIC CONCEPTS 1.1 System of Units 1.2 Basic Quantities 1.3 Circuit Elements Summary Problems CHAPTER 2 RESISTIVE CIRCUITS 2.1 Ohm’s Law 2.2 Kirchhoff’s Laws 2.3 Single-Loop Circuits 2.4 Single-Node-Pair Circuits 2.5 Series and Parallel Resistor Combinations 2.6 Circuits with Series-Parallel Combinations of Resistors 2.7 Wye (omitted) Delta Transformations 2.8 Circuits with Dependent Sources 2.9 Resistor Technologies for Electronic Manufacturing 2.10 Application Examples 2.11 Design Examples Summary Problems CHAPTER 3 NODAL AND LOOP ANALYSIS TECHNIQUES 3.1 Nodal Analysis 3.2 Loop Analysis 3.3 Application Example 3.4 Design Example Summary Problems CHAPTER 4 OPERATIONAL AMPLIFIERS 4.1 Introduction 4.2 Op-Amp Models 4.3 Fundamental Op-Amp Circuits 4.4 Comparators 4.5 Application Examples 4.6 Design Examples Summary Problems CHAPTER 5 ADDITIONAL ANALYSIS TECHNIQUES 5.1 Introduction 5.2 Superposition 5.3 Thévenin’s and Norton’s Theorems 5.4 Maximum Power Transfer 5.5 Application Example 5.6 Design Examples Summary Problems CHAPTER 6 CAPACITANCE AND INDUCTANCE 6.1 Capacitors 6.2 Inductors 6.3 Capacitor and Inductor Combinations 6.4 RC Operational Amplifier Circuits 6.5 Application Examples 6.6 Design Examples Summary Problems CHAPTER 7 FIRST- AND SECOND-ORDER TRANSIENT CIRCUITS 7.1 Introduction 7.2 First-Order Circuits 7.3 Second-Order Circuits 7.4 Application Examples 7.5 Design Examples Summary Problems CHAPTER 8 AC STEADY-STATE ANALYSIS 8.1 Sinusoids 8.2 Sinusoidal and Complex Forcing Functions 8.3 Phasors 8.4 Phasor Relationships for Circuit Elements 8.5 Impedance and Admittance 8.6 Phasor Diagrams 8.7 Basic Analysis Using Kirchhoff’s Laws 8.8 Analysis Techniques 8.9 Application Examples 8.10 Design Examples Summary Problems CHAPTER 9 STEADY-STATE POWER ANALYSIS 9.1 Instantaneous Power 9.2 Average Power 9.3 Maximum Average Power Transfer 9.4 Effective or rms Values 9.5 The Power Factor 9.6 Complex Power 9.7 Power Factor Correction 9.8 Single-Phase Three-Wire Circuits 9.9 Safety Considerations 9.10 Application Examples 9.11 Design Examples Summary Problems CHAPTER 10 MAGNETICALLY COUPLED NETWORKS 10.1 Mutual Inductance 10.2 Energy Analysis 10.3 The Ideal Transformer 10.4 Safety Considerations 10.5 Application Examples 10.6 Design Examples Summary Problems CHAPTER 11 POLYPHASE CIRCUITS 11.1 Three-Phase Circuits 11.2 Three-Phase Connections 11.3 Source/Load Connections 11.4 Power Relationships 11.5 Power Factor Correction 11.6 Application Examples 11.7 Design Examples Summary Problems CHAPTER 12 VARIABLE-FREQUENCY NETWORK PERFORMANCE 12.1 Variable Frequency-Response Analysis 12.2 Sinusoidal Frequency Analysis 12.3 Resonant Circuits 12.4 Scaling 12.5 Filter Networks 12.6 Application Examples 12.7 Design Examples Summary Problems CHAPER 13 THE LAPLACE TRANSFORM 13.1 Definition 13.2 Two Important Singularity Functions 13.3 Transform Pairs 13.4 Properties of the Transform 13.5 Performing the Inverse Transform 13.6 Convolution Integral 13.7 Initial-Value and Final-Value Theorems 13.8 Application Examples Summary Problems CHAPTER 14 APPLICATION OF THE LAPLACE TRANSFORM TO CIRCUIT ANALYSIS 14.1 Laplace Circuit Solutions 14.2 Circuit Element Models 14.3 Analysis Techniques 14.4 Transfer Function 14.5 Pole-Zero Plot/Bode Plot Connection 14.6 Steady-State Response 14.7 Application Example 14.8 Design Examples Summary Problems CHAPTER 15 FOURIER ANALYSIS TECHNIQUES 15.1 Fourier Series 15.2 Fourier Transform 15.3 Application Examples 15.4 Design Example Summary Problems CHAPTER 16 TWO-PORT NETWORKS 16.1 Admittance Parameters 16.2 Impedance Parameters 16.3 Hybrid Parameters 16.4 Transmission Parameters 16.5 Parameter Conversions 16.6 Interconnection of Two-Ports 16.7 Application Examples 16.8 Design Example Summary Problems APPENDIX: COMPLEX NUMBERS Index