Table of contents for Microelectronics : circuit analysis and design / Donald A. Neamen.


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Microelectronics: Circuit Analysis and Design

Prologue I: Prologue to Electronics Brief History Passive and Active Devices Electronic Circuits Discrete and Integrated Circuits Analog and Digital Signals Notation Summary Part I: Semiconductor Devices and Basic Applications Chapter 1: Semiconductor Materials and Diodes 1.0 Preview 1.1 Semiconductor Materials and Properties 1.2 The pn Junction 1.3 Diode Circuits: DC Analysis and Models 1.4 Diode Circuits: AC Equivalent Circuit 1.5 Other Diode Types 1.6 Design Application 1.7 Summary Problems Chapter 2: Diode Circuits 2.0 Preview 2.1 Rectifier Circuits 2.2 Zener Diode Circuits 2.3 Clipper and Clamper Circuits 2.4 Multiple Diode Circuits 2.5 Photodiode and LED Circuits 2.6 Summary Problems Chapter 3: The Field-Effect Transistor 3.0 Preview 3.1 Basic Bipolar Junction Transistor 3.2 DC Analysis of Transistor Circuits 3.3 Basic Transistor Applications 3.4 Bipolar Transistor Biasing 3.5 Multistage Circuits 3.6 Design Application 3.7 Summary Problems Chapter 4: Basic FET Amplifiers 4.0 Preview 4.1 Analog Signals and Linear Amplifiers 4.2 The Bipolar Linear Amplifier 4.3 Basic Transistor Amplifier Configurations 4.4 Common-Emitter Amplifiers 4.5 AC Load Line Analysis 4.6 Common-Collector (Emitter-Follower) Amplifier 4.7 Common-Base Amplifier 4.8 The Three Basic Amplifiers: Summary and Comparison 4.9 Multistage Amplifiers 4.10 Power Considerations 4.11 Design Application 4.12 Summary Problems Chapter 5: Bipolar Junction Transistor 5.0 Preview 5.1 MOS Field-Effect Transistor 5.2 MOSFET DC Circuit Analysis 5.3 Basic MOSFET Applications: Switch, Digital Logic Gate, and Amplifier 5.4 Constant Current Biasing 5.5 Multistage MOSFET Circuits 5.6 Junction Field-Effect Transistors 5.7 Design Application 5.8 Summary Problems Chapter 6: Basic BJT Amplifiers 6.0 Preview 6.1 The MOSFET Amplifier 6.2 Basic Transistor Amplifier Configurations 6.3 The Common-Source Amplifier 6.4 The Source-Follower Amplifier 6.5 The Common-Gate Amplifier 6.6 The Three Basic Amplifier Configurations: Summary and Comparison 6.7 Single-Stage Integrated Circuit MOSFET Amplifiers 6.8 Multistage Amplifiers 6.9 Basic JFET Amplifiers 6.10 Summary Problems Chapter 7: Frequency Response 7.0 Preview 7.1 Amplifier Frequency Response 7.2 System Transfer Functions 7.3 Frequency Response: Transistor Amplifiers with Circuit Capacitors 7.4 Frequency Response: Bipolar Transistor 7.5 Frequency Response: The FET 7.6 High-Frequency Response Transistor Circuits 7.7 Summary Problems Chapter 8: Output Stages and Power Amplifiers 8.0 Preview 8.1 Power Amplifiers 8.2 Power Transistors 8.3 Classes of Amplifiers 8.4 Class-A Power Amplifier 8.5 Class-AB Push-Pull Complementary Output Stages 8.6 Summary Problems Prologue II: Prologue to Electronic Design Preview Design Approach System Design Electronic Design Conclusion Part II: Analog Electronics Chapter 9: Ideal Operational Amplifiers and Op-Amp Circuits 9.0 Preview 9.1 The Operational Amplifier 9.2 Inverting Amplifier 9.3 Summing Amplifier 9.4 Noninverting Amplifier 9.5 Op-Amp Applications 9.6 Operational Transconductance Amplifiers 9.7 Op-Amp Circuit Design 9.8 Design Application 9.9 Summary Problems Chapter 10: Integrated Circuit Biasing and Active Loads 10.0 Preview 10.1 Bipolar Transistor Current Sources 10.2 FET Current Sources 10.3 Circuits and Active Loads 10.4 Small-Signal Analysis: Active Load Circuits 10.5 Summary Problems Chapter 11: Differential and Multistage Amplifiers 11.0 Preview 11.1 The Differential Amplifier 11.2 Basic BJT Differential Pair 11.3 Basic FET Differential Pair 11.4 Differential Amplifier with Active Load 11.5 BiCMOS Circuits 11.6 Gain Stage and Simple Output Stage 11.7 Simplified BJT Operational Amplifier Stage 11.8 Diff-Amp Frequency Response 11.9 Summary Problems Chapter 12: Feedback and Stability 12.0 Preview 12.1 Introduction to Feedback 12.2 Basic BJT Differential Pair 12.3 Basic FET Differential Pair 12.4 Voltage (Series-Shunt) Amplifier 12.5 Current (Shunt-Series) Amplifier 12.6 Transconductance (Series-Series) Amplifier 12.7 Transresistance (Shunt-Shunt) Amplifier 12.8 Loop Gain 12.9 Stability of the Feedback Circuit 12.10 Frequency Compensation 12.11 Summary Problems Chapter 13: Operational Amplifier Circuits 13.0 Preview 13.1 General Op-Amp Design 13.2 A Bipolar Operational Amplifier Circuit 13.3 CMOS Operational Amplifier Circuits 13.4 BiCMOS Operational Amplifier Circuits 13.5 JFET Operational Amplifier Circuits 13.6 Summary Problems Chapter 14: Nonideal Effects in Operational Amplifier Circuits 14.0 Preview 14.1 Practical Op-Amp Parameters 14.2 Finite Open-Loop Gain 14.3 Frequency Response 14.4 Offset Voltage 14.5 Input Bias Current 14.6 Additional Nonideal Effects 14.7 Summary Problems Chapter 15: Applications and Design of Integrated Circuits 15.0 Preview 15.1 Active Filters 15.2 Oscillators 15.3 Schmitt Trigger Circuits 15.4 Nonsinusoidal Oscillators and Timing Circuits 15.5 Integrated Circuit Power Amplifiers 15.6 Voltage Regulators 15.7 Summary Problems Prologue III: Prologue to Digital Electronics Introduction Logic Functions and Logic Gates Logic Levels Noise Margin Propagation Delay Times and Switching Times Summary Part III: Digital Electronics Chapter 16: MOSFET Digital Circuits 16.0 Preview 16.1 NMOS Inverters 16.2 NMOS Logic Circuits 16.3 CMOS Inverter 16.4 CMOS Logic Circuits 16.5 Clocked CMOS Logic Circuits 16.6 Transmission Gates 16.7 Sequential Logic Circuits 16.8 Memories: Classification and Architectures 16.9 RAM Memory Cells 16.10 Read-Only Memory 16.11 D/A Converters 16.12 A/D Converters 16.13 Summary Problems Chapter 17: Bipolar Digital Circuits 17.0 Preview 17.1 Emitter-Coupled Logic (ECL) 17.2 Modified ECL Circuit Configurations 17.3 Schottky Transistor-Transistor Logic 17.4 BiCMOS Digital Circuits 17.5 Summary Problems Appendices


Library of Congress subject headings for this publication:
Electronic circuit design.
Semiconductors -- Design and construction.