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| Preface | |
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| Introduction | |
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| Electronic Systems | |
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| The Design Process | |
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| Integrated Circuits | |
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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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| Decibel Notation | |
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| Amplifier Models | |
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| Ideal Amplifiers | |
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| Amplifier Frequency Response | |
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| Differential Amplifiers | |
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| Summary | |
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| Problems | |
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| Operational Amplifiers | |
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| The Ideal Operational Amplifier | |
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| The Summing-Point Constraint | |
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| The Inverting Amplifier | |
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| The Noninverting Amplifier | |
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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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| Large-Signal Operation | |
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| DC Imperfections | |
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| Computer-Aided Analysis of Op-Amp Circuits | |
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| A Collection of Amplifier Circuits | |
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| Integrators and Differentiators | |
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| Diodes and Diode Circuits | |
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| Diode Characteristics | |
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| Load-Line Analysis | |
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| The Ideal-Diode Model | |
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| Rectifier Circuits | |
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| Wave-Shaping Circuits | |
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| Diode Logic Circuits | |
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| Voltage-Regulator Circuits | |
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| Linear Small-Signal Equivalent Circuits | |
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| Basic Semiconductor Concepts | |
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| Physics of the Junction Diode | |
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| Switching and High-Frequency Behavior | |
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| Computer-Aided Analysis of Diode Circuits | |
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| Summary | |
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| Problems | |
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| Anatomy of a Circuit Design: A Function Generator | |
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| Bipolar Junction Transistors | |
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| Basic Operation of the npn Bipolar Junction Transistor | |
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| Load-Line Analysis of a Common-Emitter Amplifier | |
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| The pnp Bipolar Junction Transistor | |
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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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| The Common-Emitter Amplifier | |
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| The Emitter Follower | |
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| The BJT as a Digital Logic Switch | |
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| Summary | |
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| Problems | |
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| Field-Effect Transistors | |
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| NMOS 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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| The Common-Source Amplifier | |
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| The Source Follower | |
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| JFETs, Depletion-Mode MOSFETs, and p-Channel Devices | |
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| Summary | |
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| Problems | |
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| Anatomy of a Circuit Design: A Discrete Multistage Amplifier | |
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| Digital Logic Circuits | |
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| Basic Concepts | |
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| Electrical Specifications for Logic Gates | |
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| The Resistor-Pull-Up NMOS Inverter | |
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| Dynamic Response of the Resistor-Pull-Up NMOS Inverter | |
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| The CMOS Inverter | |
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| Propagation Delay of the CMOS Inverter | |
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| CMOS NOR and NAND Gates | |
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| Dynamic Logic | |
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| The CMOS Transmission Gate and Pass Transistor Logic | |
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| Summary | |
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| Problems | |
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| Differential and Multistage IC Amplifiers | |
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| Design Rules for Discrete and Integrated Circuits | |
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| IC Biasing with BJTs | |
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| IC Biasing with FETs | |
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| Large-Signal Analysis of the Emitter-Coupled Differential Pair | |
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| Small-Signal Equivalent-Circuit Analysis of the Emitter-Coupled Differential Pair | |
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| Design of the Emitter-Coupled Differential Amplifier | |
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| The Source-Coupled Differential Pair | |
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| Examples of Multistage IC Amplifiers | |
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| Summary | |
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| Problems | |
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| Frequency Response | |
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| Bode Plots | |
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| The FET Common-Source Amplifier at High Frequencies | |
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| The Miller Effect | |
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| The Hybrid-[pi] Model for the BJT | |
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| Common-Emitter Amplifiers at High Frequencies | |
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| Common-Base, Cascode, and Differential Amplifiers | |
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| Emitter Followers | |
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| Low-Frequency Response of RC-Coupled Amplifiers | |
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| Summary | |
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| Problems | |
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| Feedback and Oscillators | |
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| Effects of Feedback on Gain | |
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| Reduction of Nonlinear Distortion and Noise | |
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| Input and Output Impedances | |
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| Practical Feedback Networks | |
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| Design of Feedback Amplifiers | |
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| Transient and Frequency Response | |
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| Effects of Feedback on Pole Locations | |
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| Gain Margin and Phase Margin | |
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| Dominant-Pole Compensation | |
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| Examples of IC Amplifiers with Feedback | |
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| Oscillator Principles | |
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| The Wien-Bridge Oscillator | |
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| Summary | |
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| Problems | |
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| Anatomy of a Circuit Design: A Cardiac Pacemaker | |
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| Output Stages and Power Supplies | |
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| Thermal Considerations | |
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| Power Devices | |
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| Class-A Output Stages | |
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| Class-B Amplifiers | |
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| Linear Voltage Regulators | |
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| Linear-Power-Supply Design | |
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| Summary | |
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| Problems | |
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| Active Filters and Tuned Circuits | |
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| Active Low-Pass Filters | |
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| Active High-Pass Filters | |
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| Active Bandpass Filters | |
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| The Series Resonant Circuit | |
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| The Parallel Resonant Circuit | |
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| Series-Parallel Transformations | |
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| Impedance-Matching Networks: A Design Example | |
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| Tuned Amplifiers | |
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| LC Oscillators | |
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| Crystal-Controlled Oscillators | |
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| Summary | |
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| Problems | |
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| Waveshaping Circuits and Data Converters | |
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| Comparators and Schmitt Trigger Circuits | |
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| Astable Multivibrators | |
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| The 555 Timer | |
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| Precision Rectifiers | |
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| Precision Peak Detector | |
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| Sample-and-Hold Circuits | |
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| Precision Clamp Circuits | |
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| Data Conversion | |
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| Digital-to-Analog Converters | |
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| Analog-to-Digital Converters | |
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| Summary | |
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| Problems | |
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| Anatomy of a Circuit Design: A Precision AC-to-DC Converter | |
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| Discrete Resistors | |
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| Data Sheet for the 2N2222A BJT | |
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| References | |
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| Index | |