VLSI Analog Circuits : Algorithms, Architecture, Modeling, and Circuit Implementation /

Complete coverage of VLSI signal processing circuits-from scientific theory to design and practical applications.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Song, Hongjiang (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, N.Y. : McGraw-Hill Education, [2016]
Edición:Second edition.
Colección:McGraw-Hill's AccessEngineering.
Temas:
Integrated circuits > Very large scale integration.
Linear integrated circuits.
Electronic books.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Title Page
  • Copyright Page
  • About the Author
  • Contents at a Glance
  • Contents
  • Preface
  • 1 Introduction
  • 1.1 Organization of This Book
  • References
  • 2 VLSI Continuous-Time Signal Processing System Fundamentals
  • 2.1 Characterization of Linear Continuous-Time Systems
  • 2.2 Analysis of Continuous-Time Filters
  • 2.3 Block Diagram and Signal Flow Graph
  • References
  • 3 Introduction to VLSI Active-RC Circuit Techniques
  • 3.1 VLSI Operational Amplifier Circuit Structures
  • 3.2 VLSI Resistor Structures
  • 3.3 VLSI Capacitor Structures
  • References
  • 4 Introduction to VLSI MOS-C Circuit Techniques
  • 4.1 Basic MOS Voltage-Controlled Resistors
  • 4.2 Differential Linear MOS VCR Structures
  • 4.3 Grounded Linear MOS VCR Structures
  • 4.4 Distributed MOS-RC Circuits
  • 4.5 Basic MOS-C Signal Processing Circuit Structures
  • References
  • 5 Introduction to VLSI Gm-C Circuit Techniques
  • 5.1 Basic VLSI Gm Circuit Structures
  • 5.2 Linear-Based MOS Gm Circuit Structures
  • 5.3 Saturation-Based MOS Gm Circuit Structures
  • References
  • 6 Introduction to VLSI Continuous-Time Current-Mode Circuit Techniques
  • 6.1 Basic MOS CTI Circuit Structures
  • 6.2 Introduction to Current Conveyor Circuits
  • 6.3 CMOS CCII Circuit Structures
  • References
  • 7 VLSI Discrete-Time Signal Processing System Fundamentals
  • 7.1 Discrete-Time Signals and Sampling Process
  • 7.2 Discrete-Time System Responses
  • 7.3 Z-Domain Transfer Function and System Responses
  • 7.4 Z-Domain Block Diagram and Signal Flow Graph
  • 7.5 S-to-Z Transformations
  • References
  • 8 Introduction to VLSI Switched-Capacitor Circuit Techniques
  • 8.1 Basic VLSI Switched-Capacitor Circuits
  • 8.2 Basic VLSI SC Circuit Elements
  • 8.3 VLSI Sample/Hold Circuit Structures
  • References
  • 9 Introduction to VLSI Switched-Current Circuit Techniques
  • 9.1 Basic VLSI Switched-Current Circuit
  • 9.2 Basic VLSI Switched-Current Signal Processing Elements.
  • 9.3 VLSI Dynamic Switched-Current-Mirror Structures
  • 9.4 Switched-Current Charge Injection Compensation Techniques
  • References
  • 10 Frequency-Scaling and -Transformation Techniques
  • 10.1 Low-Pass Prototype Filters
  • 10.2 Frequency-Scaling Techniques
  • 10.3 Frequency-Transformation Techniques
  • References
  • 11 Design of VLSI Active-RC Filters
  • 11.1 SFG-Based VLSI Active-RC Filter Design Methods
  • 11.2 Cascade-Based VLSI Active-RC Filter Design Methods
  • 11.3 Sallen-Key Circuits
  • 11.4 Delyiannis-Friend Circuits
  • 11.5 Design Example
  • References
  • 12 Design of VLSI MOS-C Filters
  • 12.1 SFG-Based VLSI MOS-C Filter Design Methods
  • 12.2 Cascade-Based VLSI MOS-C Filter Design Methods
  • References
  • 13 Design of VLSI Gm-C Filters
  • 13.1 SFG-Based VLSI Gm-C Filter Design Methods
  • 13.2 Cascade-Based VLSI Gm-C Filter Design Methods
  • References
  • 14 Design of VLSI Continuous-Time Current-Mode Filters
  • 14.1 SFG-Based CTI Filter Design Methods
  • 14.2 Cascade-Based CTI Filter Design Methods
  • References
  • 15 Design of VLSI Switched-Capacitor Filters
  • 15.1 SFG-Based VLSI Oversampling SC Filter Design Methods
  • 15.2 S-to-Z Transform?Based SC Filter Design Methods
  • 15.3 SC Filter Design from Active-RC Circuit Structures
  • 15.4 Exact SFG-Based SC Filter Design Methods
  • 15.5 Cascade-Based SC Filter Design Methods
  • References
  • 16 Design of VLSI Switched-Current Filters
  • 16.1 SFG-Based SI Filter Design Methods
  • 16.2 S-to-Z Transform?Based SI Filter Design Methods
  • 16.3 Cascade-Based SI Filter Design Methods
  • 16.4 Design Examples
  • References
  • 17 Mixed-Mode VLSI Analog Signal Processing Circuit Configurations
  • 17.1 Mixed-Mode Signal Processing Systems
  • 17.2 Basic VLSI V/I and I/V Circuit Structures
  • 17.3 Current-Mode-Based Design of Active-RC Filters
  • 17.4 Current-Mode-Based Design of Gm-C Filters
  • 17.5 Current-Mode-Based Design of SC Filters.
  • 17.6 Voltage-Mode-Based Design of CTI Filters
  • 17.7 Voltage-Mode-Based Design of SI Filters
  • References
  • 18 Component Simulation?Based VLSI Filter Design
  • 18.1 Active-RC General Impedance Converter Circuits
  • 18.2 Gm-C General Impedance Converter Circuits
  • 18.3 VLSI Impedance Converter Circuit Structures
  • References
  • 19 Ladder Simulation?Based VLSI Filter Design
  • 19.1 Mixed-Mode Ladder Simulation
  • 19.2 Node Voltage?Based Ladder Simulation
  • 19.3 VLSI Active Circuit Simulation of All-Pole Ladder Filters
  • 19.4 VLSI Active Circuit Simulation of Band-Pass Ladder Filters
  • 19.5 Design Examples
  • References
  • 20 Tuning Circuit Techniques for VLSI Analog Filters
  • 20.1 Classification of VLSI Filter-Tuning Circuits
  • 20.2 VLSI Analog Filter-Tuning Architectures
  • 20.3 VLSI Filter-Tuning Circuits Implementations
  • 20.4 S-Domain Tuning Loops
  • 20.5 Z-Domain Tuning Loops
  • 20.6 Mixed-Domain Tuning Loops
  • References
  • 21 Practical Design Aspects of VLSI Analog Filters
  • 21.1 Design for Robustness
  • 21.2 Designs for Low Noise
  • 21.3 Designs for High Linearity
  • References
  • 22 Design of VLSI Polyphase Filters
  • 22.1 VLSI Polyphase Filters
  • 22.2 Classic Polyphase Filters
  • 22.3 Polyphase SFG Representations
  • 22.4 Design of VLSI Active Polyphase Filters
  • References
  • 23 Introduction to VLSI RF Signal Processing Circuits
  • 23.1 VLSI RF Circuit Component Structures
  • 23.2 Impedance Transformation and Matching Techniques
  • 23.3 Frequency Translation Techniques
  • 23.4 Voltage-Controlled Oscillator (VCO) Circuits
  • 23.5 Polyphase Clock Generation Techniques
  • 23.6 Distributed Amplifier Circuits
  • References
  • 24 Introduction to Digital-Based Analog Signal Processing Circuits
  • 24.1 Signal Processing Circuits for SOC Applications
  • 24.2 Digital-Based Analog (DBA) Signal Processing Solutions
  • 24.3 Design Examples
  • Appendix
  • References
  • Index
  • A
  • B
  • C
  • D
  • E
  • F
  • G
  • H
  • I
  • J
  • L
  • M
  • N
  • O
  • P
  • Q
  • R
  • S
  • T
  • U
  • V
  • W
  • Z.

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