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Practical Applications of Electrical Engineering Principles | |
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Preface | |
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Introduction | |
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Overview of Electrical Engineering | |
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Circuits, Currents, and Voltages | |
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Power and Energy | |
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Kirchhoff's Current Law | |
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Kirchhoff's Voltage Law | |
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Introduction to Circuit Elements | |
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Introduction to Circuits | |
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Summary | |
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Problems | |
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Resistive Circuits | |
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Resistances in Series and Parallel | |
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Network Analysis by Using Series and Parallel Equivalents | |
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Voltage-Divider and Current-Divider Circuits | |
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Node-Voltage Analysis | |
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Mesh-Current Analysis | |
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Th�venin and Norton Equivalent Circuits | |
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Superposition Principle | |
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Wheatstone Bridge | |
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Summary | |
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Problems | |
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Inductance and Capacitance | |
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Capacitance | |
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Capacitances in Series and Parallel | |
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Physical Characteristics of Capacitors | |
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Inductance | |
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Inductances in Series and Parallel | |
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Practical Inductors | |
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Mutual Inductance | |
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Symbolic Integration and Differentiation Using MATLAB | |
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Summary | |
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Problems | |
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Transients | |
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First-Order RC Circuits | |
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DC Steady State | |
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RL Circuits | |
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RC and RL Circuits with General Sources | |
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Second-Order Circuits | |
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Transient Analysis Using the MATLAB Symbolic Toolbox | |
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Summary | |
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Problems | |
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Steady-State Sinusoidal Analysis | |
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Sinusoidal Currents and Voltages | |
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Phasors | |
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Complex Impedances | |
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Circuit Analysis with Phasors and Complex Impedances | |
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Power inAC Circuits | |
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Th�venin and Norton Equivalent Circuits | |
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Balanced Three-Phase Circuits | |
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AC Analysis Using MATLAB | |
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Summary | |
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Problems | |
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Frequency Response, Bode Plots, and Resonance | |
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Fourier Analysis, Filters, and Transfer Functions | |
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First-Order Lowpass Filters | |
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Decibels, the Cascade Connection, and Logarithmic Frequency Scales | |
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Bode Plots | |
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First-Order Highpass Filters | |
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Series Resonance | |
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Parallel Resonance | |
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Ideal and Second-Order Filters | |
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Transfer Functions and Bode Plots with MATLAB | |
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Digital Signal Processing | |
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Summary | |
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Problems | |
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Logic Circuits | |
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Basic Logic Circuit Concepts | |
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Representation of Numerical Data in Binary Form | |
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Combinatorial Logic Circuits | |
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Synthesis of Logic Circuits | |
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Minimization of Logic Circuits | |
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Sequential Logic Circuits | |
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Summary | |
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Problems | |
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Computers and Microcontrollers | |
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Computer Organization | |
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Memory Types | |
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Digital Process Control | |
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ProgrammingModelfor the HCS12/9S12 Family | |
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The Instruction Set and Addressing Modes for the CPU12 | |
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Assembly-Language Programming | |
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Summary | |
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Problems | |
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Computer-Based Instrumentation Systems | |
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Measurement Concepts and Sensors | |
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Signal Conditioning | |
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Analog-to-Digital Conversion | |
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LabVIEW | |
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Summary | |
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Problems | |
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Diodes | |
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Basic Diode Concepts | |
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Load-Line Analysis of Diode Circuits | |
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Zener-Diode Voltage-Regulator Circuits | |
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Ideal-Diode Model | |
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Piecewise-Linear Diode Models | |
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Rectifier Circuits | |
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Wave-Shaping Circuits | |
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Linear Small-Signal Equivalent Circuits | |
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Summary | |
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Problems | |
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Amplifiers: Specifications and External Characteristics | |
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Basic Amplifier Concepts | |
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Cascaded Amplifiers | |
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Power Supplies and Efficiency | |
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Additional Amplifier Models | |
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Importance of Amplifier Impedances in Various Applications | |
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Ideal Amplifiers | |
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Frequency Response | |
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LinearWaveform Distortion | |
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Pulse Response | |
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Transfer Characteristic and Nonlinear Distortion | |
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Differential Amplifiers | |
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Offset Voltage, Bias Current, and Offset Current | |
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Summary | |
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Problems | |
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Field-Effect Transistors | |
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NMOS and PMOS Transistors | |
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Load-Line Analysis of a Simple NMOS Amplifier | |
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Bias Circuits | |
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Small-Signal Equivalent Circuits | |
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Common-Source Amplifiers | |
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Source Followers | |
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CMOS Logic Gates | |
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Summary | |
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Problems | |
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Bipolar Junction Transistors | |
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Current and Voltage Relationships | |
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Common-Emitter Characteristics | |
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Load-Line Analysis of a Common-Emitter Amplifier | |
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pnp Bipolar Junction Transistors | |
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Large-Signal DC Circuit Models | |
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Large-Signal DC Analysis of BJT Circuits | |
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Small-Signal Equivalent Circuits | |
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Common-Emitter Amplifiers | |
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Emitter Followers | |
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Summary | |
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Problems | |
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Operational Amplifiers | |
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Ideal Operational Amplifiers | |
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Inverting Amplifiers | |
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Noninverting Amplifiers | |
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Design of Simple Amplifiers | |
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Op-Amp Imperfections in the Linear Range of Operation | |
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Nonlinear Limitations | |
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DC Imperfections | |
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Differential and Instrumentation Amplifiers | |
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Integrators and Differentiators | |
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Active Filters | |
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Summary | |
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Problems | |
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Magnetic Circuits and Transformers | |
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Magnetic Fields | |
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Magnetic Circuits | |
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Inductance and Mutual Inductance | |
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Magnetic Materials | |
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Ideal Transformers | |
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Real Transformers | |
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Summary | |
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Problems | |
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DC Machines | |
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Overview of Motors | |
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Principles of DC Machines | |
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Rotating DC Machines | |
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Shunt-Connected and Separately Excited DC Motors | |
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Series-Connected DC Motors | |
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Speed Control of DC Motors | |
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DC Generators | |
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Summary | |
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Problems | |
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AC Machines | |
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Three-Phase Induction Motors | |
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Equivalent-Circuit and Performance Calculations for Induction Motors | |
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Synchronous Machines | |
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Single-Phase Motors | |
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Stepper Motors and Brushless DC Motors | |
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Summary | |
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Problems | |
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Appendices | |
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Complex Numbers | |
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Summary | |
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Problems | |
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Nominal Values and the Color Code for Resistors | |
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The Fundamentals of Engineering Examination | |
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Answers for the Practice Tests | |
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On-Line Student Resources | |