電源管理集成電路設計.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: Power Management Integrated Circuit Design 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): (if any) This course starts from a single transistor, with introductions on transistor fabrication and electrical characteristics. Then, single-stage analog amplifier will be analyzed, design and analyses of two-stage amplifier will be discussed. After we know the analog integrated circuit (IC) design basics, we will learn the basic components of power management ICs: low-dropout regulators, inductor-based and switched-capacitor DC-DC converters. Last but not least, wireless power transfer circuits and systems will be briefly introduced. This course enables students to have:  An ability to introduce the essential knowledge in power management integrated circuits design.  An ability to design and simulate power management ICs using EDA tools with CMOS process.  An ability to design a low-dropout regulator to meet full design constraints.  An ability to analyze a DC-DC converter seen for the first time.  An ability to present design project results both orally and in IEEE-style reports. Test(s) 20 % √ Others (please specify) Listening & Oral Assessments / tests √ Reading & Writing Assessments / tests % Company visits 20 Field study Assignment(s) Internship √ Service learning Exercises & problems Writing Assignment Group discussions Group project / paper Individual project / paper Student Presentation Role Playing Case Study Class Participation / Discussion __10___% Others: Project MI – Minor FE – Free Elective English Major Assessment Methods: Examination * GE – General Education √ % 50 √ % ‐ ‐ ‐ Course Content: (topic outline) ‐ ‐ ‐ Template revised on 20 Oct 2017 √ Introduction and background, review of analog basics. Analog low-dropout regulators: feedback loops, super source follower, flipped-voltage follower, PMOS/NMOS regulator. Digital low-dropout regulators: digital control loop design, analog-assisted digital control, and PID control analysis for regulators. Inductor-based DC-DC converters: switching power converter topologies, converter analyses methods, loss analyses Switched-capacitor DC-DC converters: charge redistribution loss, switched-capacitor DC-DC topologies, loss analyses Wireless power transfer circuits and systems: wireless power transfer applications, system overview, rectifier design, output voltage/current regulation methods 1