Top
| Preface | |
| Introduction | |
| Overview | |
| Basic Concepts | |
| Circuits | |
| DC Circuits | |
| Ohm's Law | |
| Kirchhoff's Law | |
| Single-Loop Circuits | |
| Single-Node-Pair Circuits | |
| Resistor Combinations | |
| Nodal Analysis | |
| Loop and Mesh Analysis | |
| Superposition | |
| Source Exchange | |
| Thevenin's and Norton's Theorems | |
| Measurements and the Wheatstone Bridge | |
| Transient Analysis | |
| Capacitors and Inductors | |
| First Order Circuits | |
| Second-Order Circuits | |
| AC Steady State Analysis | |
| Sinusoidal Functions | |
| The Sinusoidal Function/Complex Number Connection | |
| Phasor Relationships for Circuit Elements | |
| Impedance and Admittance | |
| Y & Delta; Transformations | |
| Basic Analysis Using Kirchhoff's Laws | |
| Nodal Analysis | |
| Mesh and Loop Analysis | |
| Superposition | |
| Source Transformation | |
| Thevenin's and Norton's Theorems | |
| Nonsinusoidal Steady State Response | |
| Steady State Power Analysis | |
| Instantaneous Power | |
| Average Power | |
| Effective or RMS Values | |
| The Power Factor | |
| Complex Power | |
| Power Factor Correction | |
| Typical Residential AC Power Circuits | |
| Three-Phase Circuits | |
| Magnetically Coupled Circuits and Transformers | |
| Magnetic Circuits | |
| Mutual Inductance | |
| The Linear Transformer | |
| The Ideal Transformer | |
| Transformer Applications | |
| Network Frequency Characteristics | |
| Sinusoidal Frequency Analysis | |
| Passive Filter Networks | |
| Resonant Circuits | |
| Electronics | |
| Introduction to Electronics | |
| Energy and Power | |
| Analog and Digital Systems; Signals and Pulses | |
| Analog Systems; Amplifiers and Gain | |
| Modulation and Demodulation; Encoding and Decoding | |
| Digital Systems; Information, Sampling and Logic Gates | |
| Electronic Instrumentation and Measurement Systems | |
| Operational Amplifiers (OpAmps) | |
| The Ideal Op Amp | |
| The Noninverting Amplifier | |
| The Unity-Gain Buffer | |
| The Inverting Amplifier | |
| The Principle of Negative Feedback | |
| The Differential Amplifier | |
| The Summing Circuit | |
| The Integrator | |
| The Active Filter | |
| The Current-to-Voltage Convertor | |
| The Nonideal Op-Amp | |
| Semiconductors, Diodes, and Power Supplies | |
| P- and N- Type Semiconductors | |
| Current Conduction in Semiconductors | |
| The p-n Junction Diode | |
| Diode Circuit Models | |
| Power Supply Circuits | |
| Wave Shaping: Clippers and Clampers | |
| The Zener or Avalanche Diode | |
| Load Lines and Graphical Solutions | |
| Photodiodes and Light Emitting Diodes | |
| Transistor Fundamentals: Switches, Large-Signal Amplifiers and Power Electronics | |
| MOSFET Fundamentals | |
| MOSFET Output Curves and Regions of Operation | |
| The NOT Gate: MOSFET Implementation | |
| Other FET Types | |
| Large Signal Amplifiers: Using the MOSFET | |
| BJT Fundamentals | |
| BJT Output Curves | |
| The NOT Gate: BJT Implemenatation | |
| Large-Signal Amplifiers: Using the BJT | |
| Power and Voltage Limits of MOSFETs and BJTs | |
| Thyristors, Silicon-Controlled Rectifiers (SCRs) and Motor Control | |
| Small Signal Transistor Amplifiers | |
| General Linear Two-Port Models | |
| The MOSFET Small-Signal Model | |
| MOSFET Amplifier Circuits: Small-Signal Analysis | |
| Voltage Gain Loss at the Input | |
| The BJT Small-Signal Model | |
| BJT Amplifier Circuits: Small Signal Analysis | |
| Multi-Stage Amplifiers | |
| Digital Logic Circuits | |
| Number Systems | |
| Boolean Algebra | |
| Truth Tables | |
| Switching Networks | |
| Canonical Forms | |
| Function Minimization | |
| Combinatorial Logic Design | |
| Sequential Logic Circuits | |
| Digital Electronic Logic Gates | |
| Review of Ideal Logic Gates | |
| Real Logic Gates: Speed | |
| Basic Logic Gates Using Relays | |
| Basic Logic Gates Using MOSFETs | |
| Basic Logic Gates Using BJTs | |
| Electromechanical Systems | |
| DC Machines | |
| Fundamental Concepts | |
| A Simple Rotating Machine | |
| The Basic DC Machine | |
| Equivalent Circuits and Analysis | |
| AC Polyphase Machines | |
| The Revolving Magnetic Field | |
| The Polyphase Induction Machine: Balanced Operation | |
| The Polyphase Synchronous Machine: Balanced Operation | |
| AC Machine Applications | |
| Complex Numbers | |
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