课程大纲

COURSE SYLLABUS

课程代码/名称

Course Code/Title

先进电源转换器分析与设计

Advanced Power Converters Analysis and Design

课程性质

Compulsory/Elective

专业选修课

Major Elective Courses

课程学分/学时

Course Credit/Hours

3/64 (32 理论 lecutre + 32 实验 lab project)

授课语言

Teaching Language

英

English

授课教师

Instructor(s)

高源 Gao Yuan

先修要求

Pre-requisites

模拟电路、信号与系统

Analog Circuits, Signals and Systems

教学目标

Course Objectives

本课程重点讲授包括电感开关电源、电容开关电源、无线功率传输等电源转换系统的拓扑结

构、工作原理及其相应控制芯片的设计方法。通过该课程以及实验项目培养学生掌握对不同应

用领域电源转换系统基本的分析能力以及结合系统需求设计实现相应芯片的能力。

This course introduces the topologies and principles of power conversion systems for different applications

as well as the design techniques for the related controller IC implementation. Three main parts are included:

inductive switchi

ng converters, capacitive switching converters, and wireless power transfer systems. After

the completion of the lectures and the

lab project, students should not only be able to analyze the steady and

dynamic performance of a power converter but also be capable of designing a transistor-

level IC to meet the

system requirement.

教学方法

Teaching Methods

讲授

Lectures

，习题

辅导

讨论

Tutorials,

实验项目

Lab Project

教学内容

Course Contents

Section 1 (2 hours)

Introduction to Power Converter Systems and Applications

Section 2 (4 hours)

Inductive Switching Converters: power stage steady state analysis, volt-second

balance equation, operation modes, efficiency analysis

Section 3 (2 hours)

Inductive Switching Converters: voltage mode control, current mode control

Section 4 (4 hours)

Inductive Switching Converters: feedback and stability, type-I type-II and type-

III compensator

Section 5 (4 hours)

Inductive Switching Converters IC design: error amplifier and compensator,

comparator, ramp generator, power transistor and gate drive, active diode,

integrated current sensor

Section 6 (4 hours)

Capacitive Switching Converters: operation principle, efficiency analysis and

charge redistribution loss, topologies of step-up and step-down converters

Section 7 (4 hours)

Capacitive Switching Converters IC design techniques: reconfiguration, multi-

phase, interleaving, bottom-plate parasitic capacitor loss reduction, gate drive

Section 8 (2 hours)

Capacitive Switching Converters: control and regulation

Section 9 (6 hours)

Wireless Power Transfer: introduction of capacitive and inductive WPT systems,

operation principle, compensation design, data communication

Lab Project (32 hours)

The lab project helps the students to better understand the design and analysis

approaches taught in the lectures with a practical design procedure of switching

power

converter IC from the design specifications to the transistor level

implementation. The lab project includes:

Learn to use the EDA tools (i.e. Cadence spectre) for IC design and learn to be

familiar with the basic simulation methods. (4 hours)

Learn to design and simulate the power stage of a monolithic switching

converter. (4 hours)

3. Learn to run simulations of PWM DC-

DC converter with the PSS/PTSB

analysis approach. (2 hours)

4. Design the commonly used building blocks in the controller of a powe

converter IC, such as Error amplifier, comparator, relaxation oscillator, and ramp

generator (10 hours)

Design a power converter chip in the transistor level, which includes the key

blocks and meets the given specs on efficiency, input/output voltage ran

ge, loop

bandwidth, and phase margin, and transient response time. Students need to give

a presentation about their project and also write a project report. (12 hours)

10.

课程考核

Course Assessment

出勤及课堂表现

Attendance and class performance 10%

测试 Quiz 25%

平时作业 Assignments 25%

课程项目及报告

Project and presentation 40%

11.

教材及其它参考资料

Textbook and Supplementary Readings

• R. W. Erickson and D. Maksimovic, Fundamentals of Power Electronics, 2nd Edition, Springer,

2001.

• Daniel W. Hart, Power Electronics, McGraw-Hill, 2009.

• Behzad Razavi, Design of Analog CMOS Integrated Circuits, McGraw-Hill, 2000.