模擬電路芯片設計方法.pdf

Major Programme: Master of Science in Microelectronics & Master of Philosophy in Microelectronics CM – Compulsory Major L&S – Languages and Skills CPE – Community and Peer Education Course Type:  RE – Required Elective Course Title: Analog IC Design Methodology Suggested Year of Study: Year 1 Duration:  Semester Course Yearly Course Credit Units: 3 Grading System:  Letter Grade P/NP Pre-requisite: None (in Chinese and English) Medium of Instruction: Course Description: Intended Learning Outcomes (ILO): * GE – General Education (if any) MI – Minor FE – Free Elective English This course provides the necessary systematic approach methodology in generic analog IC designs. The topics covered include the technique in systematic method in analysis and design of the amplifiers and opamps, such as using the scaled current and multiplier techniques, the impedance rules-of-thumb, and layout-oriented amplifier design techniques. Advanced layout techniques in detail, the analog IC simulations methodology, etc. will be covered. Project-based evaluations will be the primary assessments for the students’ performance. This course enables students to have:  Understand the systematic design approach on how to design amplifiers and opamps,  An ability familiar with the advanced layout techniques;  To understand the theories for simulations;  To master the above topics through practical design projects. Others (please specify) Listening & Oral Assessments / tests Reading & Writing Assessments / tests Company visits Field study Internship Service learning Exercises & problems √ Writing Assignment Group project / paper √ Group discussions Individual project / paper Student Presentation Role Playing Case Study Major Assessment Methods: Class Participation / Discussion ___0___% Assignment(s) 0 % Test(s) 0 % Examination 0 % Others: Project 100 Course Content: (topic outline) Template revised on 20 Oct 2017 % ‐ Introduction: the objective and learning outcomes of this course ‐ Overview of systematic analog IC design methodology ‐ Systematic design methodology of amplifiers and operational amplifiers, and impedance rule of thumbs; ‐ Process-tracked biasing techniques; scaled current and multipliers opamp design technique ‐ Advanced analog layout considerations; ‐ Theory of simulations in Analog IC Designs: DC, AC, Noise, Transient, Transient-Noise, PSS, PAC and PNoise analysis. ‐ Practical projects: related to opamp, layout designs with simulations 1