| Detailed Table of Contents | |
| Each chapter begins with an Introduction and ends with a Summary and Problems | |
| Preface | |
| Devices and Basic Circuits | |
| Introduction to Electronics | |
| Signals | |
| Frequency Spectrum of Signals | |
| Analog and Digital Signals | |
| Amplifiers | |
| Signal Amplification | |
| Amplifier Circuit Symbol | |
| Voltage Gain | |
| Power Gain and Current Gain | |
| Expressing Gain in Decibels | |
| The Amplifier Power Supplies | |
| Amplifier Saturation | |
| Nonlinear Transfer Characteristics and Biasing | |
| Symbol Convention | |
| Circuit Models for Amplifiers | |
| Voltage Amplifiers | |
| Cascaded Amplifiers | |
| Other Amplifier Types | |
| Relationships Between the Four Amplifier Models | |
| Frequency Response of Amplifiers | |
| Measuring the Amplifier Frequency Response | |
| Amplifier Bandwidth | |
| Evaluating the Frequency Response of Amplifiers | |
| Single-Time-Constant Networks | |
| Classification of Amplifiers Based on Frequency Response | |
| Digital Logic Inverters | |
| function of the Inverter | |
| The Voltage Transfer Characteristic (VTC) | |
| Noise Margins | |
| The Ideal VTC | |
| Inverter Implementation | |
| Power Dissipation | |
| Propagation Delay | |
| Circuit Simulation Using SPICE | |
| Operational Amplifiers | |
| The Ideal Op Amp | |
| The Op-Amp Terminals | |
| Function and Characteristics of the Ideal Op Amp | |
| Differential and Common-Mode Signals | |
| The Inverting Configuration | |
| The Closed-Loop Gain | |
| Effect of Finite Open-Loop Gain | |
| Input and Output Resistances | |
| An Important Application--The Weighted Summer | |
| The Noninverting Configuration | |
| The Closed-Loop Gain | |
| Characteristics of the Noninverting Configuration | |
| Effect of Finite Open-Loop Gain | |
| The Voltage Follower | |
| Difference Amplifiers | |
| A Single Op-Amp Difference Amplifier | |
| A Superior Circuit--The Instrumentation Amplifier | |
| Effect of Finite Open-Loop Gain and Bandwidth on Circuit Performance | |
| Frequency Dependence of the Open-Loop Gain | |
| Frequency Response of Closed-Loop Amplifiers | |
| Large-Signal Operation of Op Amps | |
| Output Voltage Saturation | |
| Output Current Limits | |
| Slew Rate | |
| Full-Power Bandwidth | |
| DC Imperfections | |
| Offset Voltage | |
| Input Bias and Offset Currents | |
| Integrators and Differentiators | |
| The Inverting Configuration with General Impedances | |
| The Inverting Integrator | |
| The Op-Amp Differentiator | |
| The SPICE Op-Amp Model and Simulation Examples | |
| Linear Macromodel | |
| Nonlinear Macromodel | |
| Diodes | |
| The Ideal Diode | |
| Current-Voltage Characteristic | |
| A Simple Application: The Rectifier | |
| Another Application: Diode Logic Gates | |
| Terminal Characteristics of Junction Diodes | |
| The Forward-Bias Region | |
| The Reverse-Bias Region | |
| The Breakdown Region | |
| Modeling the Diode Forward Characteristic | |
| |
| Table of Contents provided by Publisher. All Rights Reserved. |