2024年4月12日发(作者:)

CMOS Super Large Scale Integrated Circuit Design

Teaching Plan (4th Edition English Version)

Introduction

The study of CMOS (Complementary Metal-Oxide-Semiconductor) Super

Large Scale Integrated Circuit (SLIC) design is essential for

electronics and integrated circuit engineering students. This teaching

plan provides a roadmap for instructing CMOS SLIC design in the fourth

edition of the English version of the textbook.

Objectives

The primary objective of this teaching plan is to equip students

with the necessary skills and knowledge of designing CMOS SLICs. The

underlying goal is for students to apply systematic design methodologies

with an emphasis on understanding the theories, concepts, and principles

of SLIC design. This will enable students to develop solutions to

practical problems in a variety of fields.

Course Outline

Week 1 - Introduction to CMOS SLIC Design

• Definition of CMOS technology

• Brief history of CMOS technology

• Advantages and disadvantages of CMOS technology

• Introduction to SLIC design concepts

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Week 2 - CMOS Device Physics

• MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor)

physics

• CMOS inverter operation

• Non-ideal effects in MOSFET

Week 3 - CMOS Circuit Design Fundamentals

• CMOS Logic design

• CMOS transmission gate design

• CMOS Tristate buffer design

Week 4 - CMOS Circuit Design Advanced Topics

• CMOS Operational Amplifier design

• Dynamic Logic

• Low power CMOS design

Week 5 - Layout Design

• Introduction to Layout Design

• Stick diagram and layout design

• CMOS Gate layout design

Week 6 - Simulation and Verification

• Circuit and layout simulation tools

• Verification of CMOS circuits using SPICE

Week 7 - Project Work

• Design, simulation and layout of a CMOS circuit

• Evaluating CMOS circuit performance

• Project report and presentation

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Textbook

The recommended textbook for learning CMOS SLIC design is the

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