# VLSI Analog Circuits: Algorithms, Architecture, Modeling, and Circuit Implementation, Second Edition

by: Hongjiang Song, Ph.D.

**Abstract:**VLSI signal processing principles, practices, and applications. This comprehensive resource shows how very-large-scale integration (VLSI) technology can be effectively deployed in real-world electronics to meet cost, power, function, and reliability requirements. VLSI Analog Circuits: Algorithms, Architecture, Modeling, and Circuit Implementation, Second Edition, is a textbook for advanced electrical engineering courses that shows, step-by-step, how to analyze and solve practical design problems using VLSI. You will get up-to-date discussions on VLSI passive, active-RC, MOS-C, Gm-C, CTI, SC, and SI analog filter circuits. Mixed-mode configurations, VLSI RF signal processing, and circuit tuning techniques are explained in full detail. Coverage includes: • VLSI continuous-time signal processing fundamentals • VLSI active-RC, MOS-C, and VLSI Gm-C circuits • VLSI continuous-time current-mode filters • VLSI discrete-time signal processing systems • VLSI switched-capacitor and switched-current circuits • Frequency-scaling and frequency-transformation techniques • Mixed-mode VLSI analog signal processing • Component and ladder simulation–based VLSI design • Practical design aspects of VLSI analog filters • VLSI RF signal processing circuits • Digital-based analog signal processing circuits

Full details

## Table of Contents

**A.**About the Author**B.**Preface**1.**Introduction**2.**VLSI Continuous-Time Signal Processing System Fundamentals**3.**Introduction to VLSI Active-RC Circuit Techniques**4.**Introduction to VLSI MOS-C Circuit Techniques**5.**Introduction to VLSI Gm-C Circuit Techniques**6.**Introduction to VLSI Continuous-Time Current-Mode Circuit Techniques**7.**VLSI Discrete-Time Signal Processing System Fundamentals**8.**Introduction to VLSI Switched-Capacitor Circuit Techniques**9.**Introduction to VLSI Switched-Current Circuit Techniques**10.**Frequency-Scaling and -Transformation Techniques**11.**Design of VLSI Active-RC Filters**12.**Design of VLSI MOS-C Filters**13.**Design of VLSI Gm-C Filters**14.**Design of VLSI Continuous-Time Current-Mode Filters**15.**Design of VLSI Switched-Capacitor Filters**16.**Design of VLSI Switched-Current Filters**17.**Mixed-Mode VLSI Analog Signal Processing Circuit Configurations**18.**Component Simulation–Based VLSI Filter Design**19.**Ladder Simulation–Based VLSI Filter Design**20.**Tuning Circuit Techniques for VLSI Analog Filters**21.**Practical Design Aspects of VLSI Analog Filters**22.**Design of VLSI Polyphase Filters**23.**Introduction to VLSI RF Signal Processing Circuits**24.**Introduction to Digital-Based Analog Signal Processing Circuits

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## Expanded Table of Contents

**A.**About the Author**B.**Preface**1.**Introduction**2.**VLSI Continuous-Time Signal Processing System Fundamentals**3.**Introduction to VLSI Active-RC Circuit Techniques**4.**Introduction to VLSI MOS-C Circuit Techniques**5.**Introduction to VLSI Gm-C Circuit Techniques**6.**Introduction to VLSI Continuous-Time Current-Mode Circuit Techniques**7.**VLSI Discrete-Time Signal Processing System Fundamentals**8.**Introduction to VLSI Switched-Capacitor Circuit Techniques**9.**Introduction to VLSI Switched-Current Circuit Techniques**10.**Frequency-Scaling and -Transformation Techniques**11.**Design of VLSI Active-RC Filters**12.**Design of VLSI MOS-C Filters**13.**Design of VLSI Gm-C Filters**14.**Design of VLSI Continuous-Time Current-Mode Filters**15.**Design of VLSI Switched-Capacitor Filters**16.**Design of VLSI Switched-Current Filters**17.**Mixed-Mode VLSI Analog Signal Processing Circuit Configurations**18.**Component Simulation–Based VLSI Filter Design**19.**Ladder Simulation–Based VLSI Filter Design**20.**Tuning Circuit Techniques for VLSI Analog Filters**21.**Practical Design Aspects of VLSI Analog Filters**22.**Design of VLSI Polyphase Filters**23.**Introduction to VLSI RF Signal Processing Circuits**24.**Introduction to Digital-Based Analog Signal Processing Circuits

**Book Details**

**Title: **VLSI Analog Circuits: Algorithms, Architecture, Modeling, and Circuit Implementation, Second Edition

**Publisher: **McGraw-Hill Education: New York, Chicago, San Francisco, Athens, London, Madrid, Mexico City, Milan, New Delhi, Singapore, Sydney, Toronto

**Copyright / Pub. Date: **2017 Hongjiang Song

**ISBN: **9781259644931

**Authors:****Hongjiang Song, Ph.D.**
is an adjunct professor in the School of Electrical, Computer, and Energy Engineering at Arizona State University, where he has taught a series of VLSI circuit design courses in analog signal processing, high-speed I/O, structural analog circuit design, and modulation circuits since 2002. Dr. Song earned his Ph.D. from ASU and has been working in the VLSI circuit industry as a senior design engineer and circuit architect with Intel Corporation since 1994. He holds 30 U.S. patents related to VLSI circuits. He is also author of a few VLSI circuit design textbooks.

**Description: **
VLSI signal processing principles, practices, and applications.
This comprehensive resource shows how very-large-scale integration (VLSI) technology can be effectively deployed in real-world electronics to meet cost, power, function, and reliability requirements. VLSI Analog Circuits: Algorithms, Architecture, Modeling, and Circuit Implementation, Second Edition, is a textbook for advanced electrical engineering courses that shows, step-by-step, how to analyze and solve practical design problems using VLSI. You will get up-to-date discussions on VLSI passive, active-RC, MOS-C, Gm-C, CTI, SC, and SI analog filter circuits. Mixed-mode configurations, VLSI RF signal processing, and circuit tuning techniques are explained in full detail.
Coverage includes:
• VLSI continuous-time signal processing fundamentals
• VLSI active-RC, MOS-C, and VLSI Gm-C circuits
• VLSI continuous-time current-mode filters
• VLSI discrete-time signal processing systems
• VLSI switched-capacitor and switched-current circuits
• Frequency-scaling and frequency-transformation techniques
• Mixed-mode VLSI analog signal processing
• Component and ladder simulation–based VLSI design
• Practical design aspects of VLSI analog filters
• VLSI RF signal processing circuits
• Digital-based analog signal processing circuits