CMOS · Circuit Design, Layout, and Simulation by Baker, R. Jacob -- Read -- Imperial Library of Trantor

Index

Cover Square-Law Equations Half Title Page Title Page Copyright Dedication Preface Chapter 1: Introduction to CMOS Design

1.1 The CMOS IC Design Process 1.2 CMOS Background 1.3 An Introduction to SPICE

Chapter 2: The Well

2.1 Patterning 2.2 Laying Out the N-well 2.3 Resistance Calculation 2.4 The N-well/Substrate Diode 2.5 The RC Delay through an N-well 2.6 Twin Well Processes

Chapter 3: The Metal Layers

3.1 The Bonding Pad 3.2 Design and Layout Using the Metal Layers 3.3 Crosstalk and Ground Bounce 3.4 Layout Examples

Chapter 4: The Active and Poly Layers

4.1 Layout using the Active and Poly Layers 4.2 Connecting Wires to Poly and Active 4.3 Electrostatic Discharge (ESD) Protection

Chapter 5: Resistors, Capacitors, MOSFETs

5.1 Resistors 5.2 Capacitors 5.3 MOSFETs 5.4 Layout Examples

Chapter 6: MOSFET Operation

6.1 MOSFET Capacitance Overview/Review 6.2 The Threshold Voltage 6.3 IV Characteristics of MOSFETs 6.4 SPICE Modeling of the MOSFET 6.5 Short-Channel MOSFETs

Chapter 7: CMOS Fabrication

7.1 CMOS Unit Processes 7.2 CMOS Process Integration 7.3 Backend Processes 7.4 Summary

Chapter 8: Electrical Noise: An Overview

8.1 Signals 8.2 Circuit Noise 8.3 Discussion

Chapter 9: Models for Analog Design

9.1 Long-Channel MOSFETs 9.2 Short-Channel MOSFETs 9.3 MOSFET Noise Modeling

Chapter 10: Models for Digital Design

10.1 The Digital MOSFET Model 10.2 The MOSFET Pass Gate 10.3 A Final Comment Concerning Measurements

Chapter 11: The Inverter

11.1 DC Characteristics 11.2 Switching Characteristics 11.3 Layout of the Inverter 11.4 Sizing for Large Capacitive Loads 11.5 Other Inverter Configurations

Chapter 12: Static Logic Gates

12.1 DC Characteristics of the NAND and NOR Gates 12.2 Layout of the NAND and NOR Gates 12.3 Switching Characteristics 12.4 Complex CMOS Logic Gates

Chapter 13: Clocked Circuits

13.1 The CMOS TG 13.2 Applications of the Transmission Gate 13.3 Latches and Flip-Flops 13.4 Examples

Chapter 14: Dynamic Logic Gates

14.1 Fundamentals of Dynamic Logic 14.2 Clocked CMOS Logic

Chapter 15: VLSI Layout Examples

15.1 Chip Layout

Chapter 16: Memory Circuits

16.1 Array Architectures 16.2 Peripheral Circuits 16.3 Memory Cells

Chapter 17: Sensing Using ΔΣ Modulation

17.1 Qualitative Discussion 17.2 Sensing Resistive Memory 17.3 Sensing in CMOS Imagers

Chapter 18: Special Purpose CMOS Circuits

18.1 The Schmitt Trigger 18.2 Multivibrator Circuits 18.3 Input Buffers 18.4 Charge Pumps (Voltage Generators)

Chapter 19: Digital Phase-Locked Loops

19.1 The Phase Detector 19.2 The Voltage-Controlled Oscillator 19.3 The Loop Filter 19.4 System Considerations 19.5 Delay-Locked Loops 19.6 Some Examples

Chapter 20: Current Mirrors

20.1 The Basic Current Mirror 20.2 Cascoding the Current Mirror 20.3 Biasing Circuits

Chapter 21: Amplifiers

21.1 Gate-Drain-Connected Loads 21.2 Current Source Loads 21.3 The Push-Pull Amplifier

Chapter 22: Differential Amplifiers

22.1 The Source-Coupled Pair 22.2 The Source Cross-Coupled Pair 22.3 Cascode Loads (The Telescopic Diff-Amp) 22.4 Wide-Swing Differential Amplifiers

Chapter 23: Voltage References

23.1 MOSFET-Resistor Voltage References 23.2 Parasitic Diode-Based References

Chapter 24: Operational Amplifiers I

24.1 The Two-Stage Op-Amp 24.2 An Op-Amp with Output Buffer 24.3 The Operational Transconductance Amplifier (OTA) 24.4 Gain-Enhancement 24.5 Some Examples and Discussions

Chapter 25: Dynamic Analog Circuits

25.1 The MOSFET Switch 25.2 Fully-Differential Circuits 25.3 Switched-Capacitor Circuits 25.4 Circuits

Chapter 26: Operational Amplifiers II

26.1 Biasing for Power and Speed 26.2 Basic Concepts 26.3 Basic Op-Amp Design 26.4 Op-Amp Design Using Switched-Capacitor CMFB

Chapter 27: Nonlinear Analog Circuits

27.1 Basic CMOS Comparator Design 27.2 Adaptive Biasing

Chapter 28: Data Converter Fundamentals

28.1 Analog Versus Discrete Time Signals 28.2 Converting Analog Signals to Digital Signals 28.3 Sample-and-Hold (S/H) Characteristics 28.4 Digital-to-Analog Converter (DAC) Specifications 28.5 Analog-to-Digital Converter (ADC) Specifications 28.6 Mixed-Signal Layout Issues

Chapter 29: Data Converter Architectures

29.1 DAC Architectures 29.2 ADC Architectures

Chapter 30: Implementing Data Converters

30.1 R-2R Topologies for DACs 30.2 Op-Amps in Data Converters 30.3 Implementing ADCs

Chapter 31: Feedback Amplifiers

31.1 The Feedback Equation 31.2 Properties of Negative Feedback on Amplifier Design 31.3 Recognizing Feedback Topologies 31.4 The Voltage Amp (Series-Shunt Feedback) 31.5 The Transimpedance Amp (Shunt-Shunt Feedback) 31.6 The Transconductance Amp (Series-Series Feedback) 31.7 The Current Amplifier (Shunt-Series Feedback) 31.8 Stability 31.9 Design Examples

Index About the Author

← Prev
Back
Next →

← Prev
Back
Next →