DB004403-微波与毫米波单片集成电路

研究生课程开设申请表

开课院（系、所）：信息科学与工程学院        

课程申请开设类型： 新开□     重开√    更名□（请在□内打勾，下同）

一、课程介绍（含教学目标、教学要求等）（300字以内）

MMIC技术已经为许多微波/毫米波通信、雷达、传感等系统提供了关键的核心元器件。本课程主要详细介绍了面向应用的单片射频微波集成电路与系统。本课程首先介绍了MMIC技术，给出了它们的应用和未来发展趋势。然后介绍了用于MMIC设计的不同的有源器件，如MESFET和HEMT、PHEMT，比较了它们的性能。然后在后面的课程中分别介绍了MMIC中的关键电路：开关和可变衰减器、低噪声放大器、混频器、功率放大器、镜像抑制混频器电路等。在课程中结合电路原理，给出了多个电路设计案例。本课程主要针对进行微波电路及微波毫米波单片集成电路设计研究的博士研究生，使学生能够全面了解MMIC设计的关键技术，

二、教学大纲（含章节目录）：（可附页）

第1章 绪论

1.1 MMIC技术发展简史

1.2单片微波集成电路的优点和不足

1.3有源器件技术

第二章 CAD技术

2.1集成的CAD设计环境

2.2 电路模拟引擎

2.3电磁模拟工具

第三掌 微波基础理论

3.1传输线技术

3.2匹配技术

3.3耦合器与分配合成器

第四章 微波控制电路

4.1 MESFET的开关等效模型

4.2 开关设计

4.3 衰减器设计

4.4 设计案例

第五章 低噪声放大器

5.1低噪声放大器噪声机理

5.2 噪声匹配

5.3小信号放大器设计

5.4 设计案例

第五章 混频器

5.1 混频器类型

5.2 无源混频器

5.3 设计案例

第六章

6.1 功率放大器特性

6.2 负载牵引技术

6.3设计案例

三、教学周历

四、主讲教师简介：

王志功 1954年5月 男 博士，教授。研究方向：从事以砷化镓工艺为主的超高速, 微波和毫米波集成电路,光电集成电路设计。已在国际和国家级重要会议和核心期刊上发表200余篇论文，获得2项中国、7项德国和3项国际发明专利；1998年被遴选为"863"计划光电子主题专家组成员, 并荣获"国家杰出青年科学基金"；1999年进入全国"百千万人才工程"第一、二层次人选，享受国务院"政府特殊津贴"，2000年荣获"教育部长江学者特聘教授"。2002年荣获江苏省"劳动模范"称号。2003年荣获中央组织部,国务院教育部和科技部等6部联合授予的“优秀留学回国人员”荣誉称号,2004年荣获“全国侨界十杰”荣誉称号。2006年荣获全国“五一劳动奖章”。

五、任课教师信息（包括主讲教师）：

Application Form For Opening Graduate Courses

 School (Department/Institute)：School of Information Science and Engineering

Course Type: New Open □   Reopen √   Rename □（Please tick in □, the same below）

1. Course Introduction (including teaching goals and requirements) within 300 words:

GaAs MMIC technology has provided core components for many microwave and millimeter system such as radar,sensor and communication.。This course mainly introduces the MMIC circuit and system. Firstly , the history and the future trend are introduced in this course. Then active devices such as MESFET, HEMT and pHEMT are described  and their different characterization are  compared. Emphasis is paid  on the design of critical circuit schu as switch and variable attenuator , LNA, mixer ,power amplifier and  image rejection mixer.. Several design examples are present in this couse on the basis of circuit theory.It is suitable for undergraduates whose reseach field are RFIC and MMIC designing.

2. Teaching Syllabus (including the content of chapters and sections. A sheet can be attached):

1 Introduction

1.1 A Brief history of MMIC techology

 1.2 Advantage and disadvantage of MMICs

1.3 Active device technology

2 CAD Techniques

       2.1 Integrated CAD design environment

       2.2 Circuit simulation engines

       2.3 Elecromagnetic simulation tools

   3 Microwave basic theory

       3.1 Transimmison line technology

 3.2 Matching technique

   3.3 Coupler and hybrid

   4 Microwave Control Circuit

       4.1 MESFET Modeling for control Circuit

       4.2 Design of Switch

       4.3 Design of attenuator

       4.4 Design Example

 5 Low Noise amplifier

   5.1General noise analysis

   5.2 noise matching

   5.3 small-signal amplifier design

   5.4 design example

 6 mixer

     5.1 mixer introduction

     5.2 passive mixer

     5.3 design example

 7 power amplifier

  6.1 analysis of power amplifier

  6.2 load pull technique

  6.3 design example

3. Teaching Schedule:

Note: 1.Above one, two, and three items are used as teaching Syllabus in Chinese and announced on the Chinese website of Graduate School. The four and five items are preserved in Graduate School.

 2. Course terms: Spring, Autumn , and Spring-Autumn term.   

 3. The teaching languages for courses: Chinese, English or Chinese-English.  

 4. Applicable range of discipline: public, first-class discipline, second-class discipline, and third-class discipline.  

 5. Practice includes: experiment, investigation, research report, etc.  

 6. Teaching methods: lecture, seminar, practice, etc.  

 7. Examination for degree courses must be in paper.  

 8. Teaching material websites are those which have already been announced.  

 9. Brief introduction of chief lecturer should include: personal information (date of birth, gender, degree achieved, professional title), research direction, teaching and research achievements. (within 100-500 words)  

4. Brief Introduction of Chief lecturer:

Prof. Dr. Zhi-Gong Wang ,born in 1953.5, male , has more than 30 years of research experiences on high-speed, high-frequency and opto-electronic IC design.    He had designed several hundreds ICs and published more than 200 papers. More than 70 papers are recorded by SCI, EI, and ISTP. He has held 2 Chinese, 7 German and 3 international patents. He is a Senior Member of China Institute of Electronics and IEEE.   After his return to China, Prof. Dr. Z.-G. Wang joined Southeast University and has been engaged as a doctoral supervisor and the leader of the discipline of Circuits and Systems in the Department of Radio Engineering. In 1998, he was elected as a member of the Opto-Electronics Experts' Group of the National High-Tech-Program and was funded by the "National Outstanding Young Scientists Foundation", the top one of high-level funds in China. In 2000 he has become one of the 'Changjiang Scholastic Professors' conferred by the Ministry of Education. In 2004 he has been honored as “National 10 Excellent Overseas Chinese.”

5. Lecturer Information (include chief lecturer)