Analog integrated circuit design

Analog integrated circuit design

Chan Carusone, Tony
Johns, David A.
Martin, Kenneth W.

60,31 €(IVA inc.)

The 2nd Edition of Analog Integrated Circuit Design focuses on more coverage about several types of circuits that have increased in importance in the past decade. Furthermore, the text is enhanced with material on CMOS IC device modeling, updated processing layout and expanded coverage to reflect technical innovations. CMOS devices and circuits have more influence in this edition as well as a reduced amount of text on BiCMOS and bipolar information. New chapters include topics on frequency response of analog ICs and basic theory of feedback amplifiers. INDICE: CHAPTER 1 INTEGRATED CIRCUIT DEVICES AND MODELLING 11.1 Semiconductors and pn Junctions 11.2 MOS Transistors 141.3 Device Model Summary 381.4 Advanced MOS Modelling 421.5 SPICE Modelling Parameters 501.6 Passive Devices 541.7 Appendix 601.8 Key Points 681.9 References 691.10 Problems 69Summary 70Modelling Parameters 711.10.4 Section 1.6: Passive Devices 71CHAPTER 2 PROCESSINGAND LAYOUT 732.1 CMOS Processing 732.2 CMOS Layout and Design Rules 862.3 Variability 972.4 Analog Layout Considerations 1042.5 Key Points 1142.6 References 1152.7 Problems 116CHAPTER 3 BASIC CURRENT MIRRORS AND SINGLE-STAGE AMPLIFIERS 1193.1 Simple CMOS Current Mirror 1203.2 Common-Source Amplifier 1223.3 Source-Follower or Common-Drain Amplifier 1243.4 Common-Gate Amplifier 1263.5 Source-Degenerated Current Mirrors 1293.6 Cascode Current Mirrors 1313.7 Cascode Gain Stage 1373.8 MOS Differential Pair and Gain Stage 1373.9 Key Points 1403.10 References 1413.11 Problems 141CHAPTER 4 FREQUENCY RESPONSE OF ELECTRONIC CIRCUITS 1464.1 Frequency Response of Linear Systems 1464.2 Frequency Response of Elementary Transistor Circuits 1674.3 Cascode Gain Stage 1834.4 Source-Follower Amplifier 1904.5 Differential Pair 1964.6 Key Points 2004.7 References 2014.8 Problems 201CHAPTER 5 FEEDBACK AMPLIFIERS 2075.1 Ideal Model of Negative Feedback 2075.2 Dynamic Response of Feedback Amplifiers 2115.3 First- and Second-Order Feedback Systems 2165.4 Common Feedback Amplifiers 2245.5 Summary of Key Points 2395.6 References 2405.7 Problems 240CHAPTER 6 BASIC OPAMP DESIGN AND COMPENSATION 2466.1 Two-Stage CMOS Opamp 2466.2 Opamp Compensation 2586.3 Advanced Current Mirrors 2656.4 Folded-Cascode Opamp 2726.5 Current Mirror Opamp 2796.6 Linear Settling Time Revisited 2836.7 Fully Differential Opamps 2856.8 Common-Mode Feedback Circuits 2916.9 Summary of Key Points 2956.10 References 2966.11 Problems 297CHAPTER 7 BIASING, REFERENCES, AND REGULATORS 3057.1 Analog Integrated Circuit Biasing 3057.2 Establishing Constant Transconductance 3107.3 Establishing Constant Voltages and Currents 3137.4 Voltage Regulation 3247.5 Summary of Key Points 3307.6 References 3307.7 Problems 331CHAPTER 8 BIPOLAR DEVICES AND CIRCUITS 3348.1 Bipolar-Junction Transistors 3348.4 Bipolar and BICMOS Processing 3498.4.1 Bipolar Processing 3498.5 Bipolar Current Mirrorsand Gain Stages 3528.6 Appendix 3598.7 Summary of Key Points 3628.8 References 3638.9 Problems 363CHAPTER 9 NOISE AND LINEARITY ANALYSIS AND MODELLING 3679.1 Time-Domain Analysis 3679.2 Frequency-Domain Analysis 3719.3 Noise Models for Circuit Elements 3819.3.8 Input-Referred Noise 3889.4 Noise Analysis Examples 3919.5 Dynamic Range Performance 4019.6 Key Points 4089.7 References 4099.8Problems 410CHAPTER 10 COMPARATORS 41710.1 Comparator Specifications 41710.2 Using an Opamp for a Comparator 41910.3 Charge-Injection Errors 42210.4 Latched Comparators 43010.5 Examples of CMOS and BiCMOS Comparators 43510.6 Examplesof Bipolar Comparators 44110.7 Key Points 44310.8 References 44410.9 Problems444CHAPTER 11 SAMPLE-AND-HOLD AND TRANSLINEAR CIRCUITS 44811.1 Performance ofSample-and-Hold Circuits 44811.2 MOS Sample-and-Hold Basics 45011.3 Examples of CMOS S/H Circuits 45611.4 Bipolar and BiCMOS Sample and Holds 46011.5 Translinear Gain Cell 46411.6 Translinear Multiplier 46611.7 Key Points 46811.8 References 46911.9 Problems 470CHAPTER 12 CONTINUOUS-TIME FILTERS 47312.1 Introduction to Continuous-Time Filters 47312.2 Introduction to Gm-C Filters 47512.3 Transconductors using Fixed Resistors 48312.5 CMOS Transconductors Using Active Transistors 49712.6 Bipolar Transconductors 50412.7 BiCMOS Transconductors 51112.8 Active RC and MOSFET-C Filters 51412.9 Tuning Circuitry 52212.10 Introduction to Complex Filters 53012.11 Key Points 53612.12 References 53812.13 Problems 540CHAPTER 13 DISCRETE-TIME SIGNALS 54313.1 Overview of Some Signal Spectra 54313.2 Laplace Transforms of Discrete-Time Signals 54313.2.1 Spectra of Discrete-Time Signals 54613.3 z-Transform 54713.4 Downsampling and Upsampling 54913.5 Discrete-Time Filters 55113.6 Sample-and-Hold Response 55813.7 Key Points 56013.8 References 56113.9 Problems 561CHAPTER 14 SWITCHED-CAPACITOR CIRCUITS 56314.1 Basic Building Blocks 56314.2 Basic Operation and Analysis 56614.3 Noise in Switched-Capacitor Circuits 57614.4 First-Order Filters 57814.5 Biquad Filters 58314.6 Charge Injection 59114.7 Switched-Capacitor Gain Circuits 59414.8 Correlated Double-Sampling Techniques 59914.9 Other Switched-Capacitor Circuits 60014.10 Key Points 60614.11 References 60714.12 Problems 608CHAPTER 15 DATA CONVERTER FUNDAMENTALS 61215.1 Ideal D/A Converter 61215.2 Ideal A/D Converter 61415.3 Quantization Noise 61515.3.1 Deterministic Approach 61515.3.2 Stochastic Approach 61615.4 Signed Codes 61815.5 Performance Limitations 62015.5.1 Resolution 62015.5.2 Offset and Gain Error 62115.5.3 Accuracy and Linearity 62115.6 Key Points 62615.7 References 62615.8 Problems 626CHAPTER 16 NYQUIST-RATE D/A CONVERTERS 60316.1 Decoder-Based Converters 62916.2 Binary-Scaled Converters 63416.3 Thermometer-Code Converters 64016.4 Hybrid Converters 64616.5 Key Points 64816.6 References 64916.7 Problems 649CHAPTER 17 NYQUIST-RATE A/D CONVERTERS 65217.1 Integrating Converters 65617.2 Successive-Approximation Converters 65617.3 Algorithmic (or Cyclic) A/D Converter 66817.4 Pipelined A/D Converters 67117.5 Flash Converters 67917.5.1 Issues in Designing Flash A/D Converters 68117.6 Two-Step A/D Converters 68317.7 Interpolating A/D Converters 68617.8 Folding A/D Converters 68917.9 Time-Interleaved A/D Converters 69317.10 Key Points 69617.11 References 69717.12 Problems 698CHAPTER 18 OVERSAMPLING CONVERTERS 70218.1 Oversampling without Noise Shaping 70218.2 Oversampling with Noise Shaping 70818.3 System Architectures 71718.4 Digital Decimation Filters 72018.5 Higher-Order Modulators 72418.6 Bandpass Oversampling Converters 72718.7 Practical Considerations 72818.8 Multi-Bit Oversampling Converters 73318.9 Third-Order A/D Design Example 73618.10 Key Points 73918.11 References 74018.12 Problems 741CHAPTER 19 PHASE-LOCKED LOOPS 74419.1 Basic Phase-Locked Loop Architecture 74419.2 Linearized Small-Signal Analysis 75419.3 Jitter and PhaseNoise 76219.4 Electronic Oscillators 77119.5 Jitter and Phase Noise in PLLS 78319.6 Key Points 78719.7 References 78819.8 Problems 788

  • ISBN: 978-1-118-09233-0
  • Editorial: John Wiley & Sons
  • Encuadernacion: Rústica
  • Páginas: 824
  • Fecha Publicación: 09/05/2012
  • Nº Volúmenes: 1
  • Idioma: Inglés