CONTENTS xi
- 1 Circuit Concepts PART 1 ELECTRIC CIRCUITS
- 1.1 Electrical Quantities
- 1.2 Lumped-Circuit Elements
- 1.3 Kirchhoff’s Laws
- 1.4 Meters and Measurements
- 1.5 Analogy between Electrical and Other Nonelectric Physical Systems
- 1.6 Learning Objectives
- 1.7 Practical Application: A Case Study—Resistance Strain Gauge
- Problems
- 2 Circuit Analysis Techniques
- 2.1 Thévenin and Norton Equivalent Circuits
- 2.2 Node-Voltage and Mesh-Current Analyses
- 2.3 Superposition and Linearity
- 2.4 Wye–Delta Transformation
- 2.5 Computer-Aided Circuit Analysis: SPICE
- 2.6 Computer-Aided Circuit Analysis: MATLAB
- 2.7 Learning Objectives
- 2.8 Practical Application: A Case Study—Jump Starting a Car
- Problems
- 3 Time-Dependent Circuit Analysis
- 3.1 Sinusoidal Steady-State Phasor Analysis
- 3.2 Transients in Circuits
- 3.3 Laplace Transform
- 3.4 Frequency Response
- Frequency Response Using PSpice and PROBE 3.5 Computer-Aided Circuit Simulation for Transient Analysis, AC Analysis, and
- 3.6 Use of MATLAB in Computer-Aided Circuit Simulation
- 3.7 Learning Objectives
- 3.8 Practical Application: A Case Study—Automotive Ignition System
- Problems
- 4 Three-Phase Circuits and Residential Wiring
- 4.1 Three-Phase Source Voltages and Phase Sequence
- 4.2 Balanced Three-Phase Loads
- 4.3 Measurement of Power
- 4.4 Residential Wiring and Safety Considerations
- 4.5 Learning Objectives
- Electrical Safety 4.6 Practical Application: A Case Study—Physiological Effects of Current and
- Problems
- 5 Analog Building Blocks and Operational Amplifiers PART 2 ELECTRONIC ANALOG AND DIGITAL SYSTEMS
- 5.1 The Amplifier Block
- 5.2 Ideal Operational Amplifier
- 5.3 Practical Properties of Operational Amplifiers
- 5.4 Applications of Operational Amplifiers
- 5.5 Learning Objectives
- System 5.6 Practical Application: A Case Study—Automotive Power-Assisted Steering
- Problems
- 6 Digital Building Blocks and Computer Systems
- 6.1 Digital Building Blocks
- 6.2 Digital System Components
- 6.3 Computer Systems
- 6.4 Computer Networks
- 6.5 Learning Objectives
- Breadmaking Machine 6.6 Practical Application: A Case Study—Microcomputer-Controlled
- Problems
- 7 Semiconductor Devices
- 7.1 Semiconductors
- 7.2 Diodes
- 7.3 Bipolar Junction Transistors
- 7.4 Field-Effect Transistors CONTENTS ix
- 7.5 Integrated Circuits
- 7.6 Learning Objectives
- 7.7 Practical Application: A Case Study—Electronic Photo Flash
- Problems
- 8 Transistor Amplifiers
- 8.1 Biasing the BJT
- 8.2 Biasing the FET
- 8.3 BJT Amplifiers
- 8.4 FET Amplifiers
- 8.5 Frequency Response of Amplifiers
- 8.6 Learning Objectives
- with Mechanical Systems 8.7 Practical Application: A Case Study—Mechatronics: Electronics Integrated
- Problems
- 9 Digital Circuits
- 9.1 Transistor Switches
- 9.2 DTL and TTL Logic Circuits
- 9.3 CMOS and Other Logic Families
- 9.4 Learning Objectives
- Engineering Application 9.5 Practical Application: A Case Study—Cardiac Pacemaker, a Biomedical
- Problems
- 10 AC Power Systems PART 3 ENERGY SYSTEMS
- 10.1 Introduction to Power Systems
- 10.2 Single- and Three-Phase Systems
- 10.3 Power Transmission and Distribution
- 10.4 Learning Objectives
- 10.5 Practical Application: A Case Study—The Great Blackout of
- Problems
- 11 Magnetic Circuits and Transformers
- 11.1 Magnetic Materials
- 11.2 Magnetic Circuits
- 11.3 Transformer Equivalent Circuits
- 11.4 Transformer Performance
- 11.5 Three-Phase Transformers
- 11.6 Autotransformers
- 11.7 Learning Objectives x CONTENTS
- Technology 11.8 Practical Application: A Case Study—Magnetic Bearings for Space
- Problems
- 12 Electromechanics
- 12.1 Basic Principles of Electromechanical Energy Conversion
- 12.2 EMF Produced by Windings
- 12.3 Rotating Magnetic Fields
- 12.4 Forces and Torques in Magnetic-Field Systems
- 12.5 Basic Aspects of Electromechanical Energy Converters
- 12.6 Learning Objectives
- 12.7 Practical Application: A Case Study—Sensors or Transducers
- Problems
- 13 Rotating Machines
- 13.1 Elementary Concepts of Rotating Machines
- 13.2 Induction Machines
- 13.3 Synchronous Machines
- 13.4 Direct-Current Machines
- 13.5 Learning Objectives
- Systems 13.6 Practical Application: A Case Study—Wind-Energy-Conversion
- Problems
- 14 Signal Processing PART 4 INFORMATION SYSTEMS
- 14.1 Signals and Spectral Analysis
- 14.2 Modulation, Sampling, and Multiplexing
- 14.3 Interference and Noise
- 14.4 Learning Objectives
- Cancellation 14.5 Practical Application: A Case Study—Antinoise Systems, Noise
- Problems
- 15 Communication Systems
- 15.1 Waves, Transmission Lines, Waveguides, and Antenna Fundamentals
- 15.2 Analog Communication Systems
- 15.3 Digital Communication Systems
- 15.4 Learning Objectives
- 15.5 Practical Application: A Case Study—Global Positioning Systems
- Problems
- 16 Basic Control Systems PART 5 CONTROL SYSTEMS
- 16.1 Power Semiconductor-Controlled Drives
- 16.2 Feedback Control Systems
- 16.3 Digital Control Systems
- 16.4 Learning Objectives
- 16.5 Practical Application: A Case Study—Digital Process Control
- Problems
- Appendix A: References
- (FE) Examination Appendix B: Brief Review of Fundamentals of Engineering
- Factors for the SI System Appendix C: Technical Terms, Units, Constants, and Conversion
- Appendix D: Mathematical Relations
- Appendix E: Solution of Simultaneous Equations
- Appendix F: Complex Numbers
- Appendix G: Fourier Series
- Appendix H: Laplace Transforms
- Index