MS004406-微波毫米波单片集成电路设计（停开）

发布者：王源发布时间：2020-10-22浏览次数：1810

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）

课程

名称

中文

微波毫米波单片集成电路设计

英文

MMIC Design and Technology

待分配课程编号

课程适用学位级别

博士

硕士

√

总学时

课内学时

学分

实践环节

用机小时

课程类别

□公共基础 □ 专业基础 √专业必修 □ 专业选修

开课院(系)

信息科学与工程学院

开课学期

春季

考核方式

A.□笔试（□开卷 □闭卷） B. □口试

C.□笔试与口试结合 D. □其他

课程负责人

教师

姓名

李芹

职称

副教授，硕导

e-mail

liqin_iroi@seu.edu.cn

网页地址

iroi.seu.edu.cn

授课语言

中文

课件地址

iroi.seu.edu.cn

适用学科范围

电子、计算机、通讯

所属一级学科名称

电子科学与技术

实验(案例)个数

先修课程

模拟电子线路、通信电子技术，微波技术

教学用书

教材名称

教材编者

出版社

出版年月

版次

主要教材

单片射频微波集成电路技术与设计

Ian Robertson

Stepan Lucyszyn(编)

文光俊、谢甫珍等译

电子工业出版社

2007.2

主要参考书

Microwave Solid State Circuit Design

Inder Bahl

A John Wiley &Sons INC., Publication

一、课程介绍（含教学目标、教学要求等）（300字以内）

本课程着重介绍单片射频微波集成电路技术与设计方法。在详细地介绍了单片射频微波集成电路的制造工艺、可用的无源和有源器件结构与模型、设计与仿真方法、测试技术、的基础上，全面阐述了各种单元基础电路与集成系统的设计方法及新技术，应用与发展趋势。在课程中结合电路基本理论，给出了多个电路设计案例。本课程主要为电路与系统专业的硕士研究生而开设，同时面向高年级本科生和其他电路设计人员，使学生能够全面了解MMIC设计的关键技术，掌握基本的设计原则和技巧，了解目前技术发展动态和发展方向，具备在相关领域进行科研开发的能力。

二、教学大纲（含章节目录）：（可附页）

第1章　绪论

1.1MMIC技术发展简史

1.2MMIC技术中的常用工艺与器件

1.3GaAs器件的优点　

1.4MMIC未来发展趋势

第2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3章微波基础理论

3.1传输线理论

3.2 Smith圆图的应用

3.3匹配技术

第4章　微波无源微带器件

4.1　传输线特性

4.2　耦合传输线

4.3　耦合器与功分器

4.4　巴伦

4.5　变压器

4.6　设计案例

第5章微波控制电路

5.1 MESFET的开关等效模型

5.2 开关设计

5.3 衰减器设计

5.4 移相器设计

5.4 设计案例

第6章　混频器

6.1 有源FET混频器结构

6.2 电阻性FET混频器结构

6.3 二极管无源混频器结构

6.4 设计案例

　第7章　低噪声放大器

7.1低噪声放大器噪声机理

7.2 噪声匹配

7.3小信号放大器设计

7.4 设计案例

第8章　功率放大器

8.1 功率放大器特性

8.2 负载牵引技术

8.3设计案例

第9章镜像抑制混频器

9.1　理想混频器的性能

9.2　抑制镜像频率干扰的方法

9.3镜像抑制混频器电路结构

9.4 IQ混频器设计案例

第10章太赫兹电路

10.1　太赫兹倍频器

10.2　太赫兹振荡器

10.3　太赫兹集成电路设计案例

第11章　测试技术

11.1　引言

11.2　测试夹具测量

11.3　探针台测试

11.4　热特性及低温测量

11.5　实验性场探测技术

11.6　小结

三、教学周历

周次	教学内容	教学方式
1	第一章绪论：MMIC技术发展简史，MMIC技术中的常用工艺与器件	讲课
2	第一章绪论：GaAs器件的优点，MMIC未来发展趋势第二章　CAD技术	讲课
3	第三章微波基础理论：传输线理论，Smith圆图的应用	讲课
4	第三章微波基础理论：匹配技术第四章微波无源微带器件：传输线特性，耦合传输线	讲课
5	第四章微波无源微带器件：耦合器与功分器，巴伦，变压器，设计案例	讲课
6	第五章微波控制电路：MESFET的开关等效模型，开关设计，衰减器设计	讲课
7	第五章微波控制电路：移相器设计，设计案例	讲课
8	第六章混频器：有源FET混频器结构，电阻性FET混频器结构	讲课
9	第六章混频器：二极管无源混频器结构，设计案例	讲课
10	第七章低噪声放大器：低噪声放大器噪声机理，噪声匹配	讲课
11	第七章低噪声放大器：小信号放大器设计，设计案例	讲课
12	第八章功率放大器，功率放大器特性，负载牵引技术，设计案例	讲课
13	第九章镜像抑制混频器：理想混频器的性能，抑制镜像频率干扰的方法	讲课
14	第九章镜像抑制混频器：镜像抑制混频器电路结构，IQ混频器设计案例	讲课
15	第十章太赫兹电路：太赫兹倍频器，太赫兹振荡器	讲课
16	第十章太赫兹电路：太赫兹集成电路设计案例	讲课
17	第十一章测试技术	讲课
18	考试

四、主讲教师简介：

李芹，副教授，1994年~1998年就读于杭州电子工业学院通信工程系，学历为本科工学学士。1998年~2001年就读于东南大学无线电系的微波与毫米波国家重点实验室，研究方向：微波混合电路设计，学历为工学硕士。2002年~2005年于东南大学的信息科学与工程学院的射频与光电集成电路研究所攻读博士学位，研究方向：微波单片集成电路设计

2005年年底在，射频与光电集成电路研究所工作，任职讲师，2012年为副教授和硕导，已指导博士研究生共近10名。

已开设的课程：《通信电子线路》、《电子电路与综合实验》、《微波毫米波单片集成电路》（博士）。

目前研究兴趣：射频集成电路设计，微波毫米波集成电路设计，太赫兹集成电路设计。

发表EI/SCI检索论文十余篇。

五、任课教师信息（包括主讲教师）：

任课教师

学科专业

办公电话

住宅电话

手机

电子邮件

通讯地址

邮政

编码

李芹

电路与系统

83793303

liqin_iroi

@seu.edu.cn

四牌楼2号

李文正楼

210096

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）

Course Name

Chinese

微波毫米波单片集成电路设计

English

MMIC Design and Technology

Course Number

Type of Degree

Ph. D

Master

√

Total Credit Hours

In Class Credit Hours

Credit

Practice

Computer-using Hours

Course Type

□Public Fundamental □Major Fundamental√Major Compulsory □Major Elective

School (Department)

Department of Information Science and Engineering, IROI

Term

Spring

Examination

A.√Paper（□Open-book√ Closed-book）B. □Oral

C. □Paper-oral Combination D. □ Others

Chief

Lecturer

Name

Li Qin

Professional Title

Associate Professor

E-mail

liqin_iroi@seu.edu.cn

Website

Iroi.seu.edu.cn

Teaching Language used in Course

Chinese

Teaching Material Website

Iroi.seu.edu.cn

Applicable Range of Discipline

Electronic System, Telecommunication

Name of First-Class Discipline

Electronic Science and technology

Number of Experiment

Preliminary Courses

RF circuit design

Analog circuit design

Microwave techiques

Teaching Books

Textbook Title

Author

Publisher

Year of Publication

Edition Number

Main Textbook

RFIC and MMIC Design and Techology

Ian Robertson Stepan Lucyszyn(compile)

Wen Guangjun, Xie Puzhen(translate)

Electronic industry

Publishing company

2007

First

Main Reference Books

Microwave Solid State Circuit Design

Inder Bahl

A John Wiley& Sons INC., Publication

2003

First

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

The course focus on the design theory and technique of the MMIC. The chapters consist of fabrication process of MMIC, structures and models of the passive and active devices, methods of the design and simulation, measurement techniques, etc. The course also gives all the key techniques for design of microwave components and building blocks. The latest progress and trend in the research area are presented finally. Several circuit examples are provided in combination with the fundamental theory. This course is designed for junior postgraduate students majoring in circuits and systems. It is also applicable to senior undergraduate students and engineers. The ultimate goal is to establish necessary background and motivation that enable the audience for more advanced research and develop work.

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

1 Introduction

1.1 A brief history of MMIC technology

1.2 Active device technologies

1.3 Advantage of MMICs

1.4 Future trend of MMIC

2 CAD techniques

2.1CAD package features

2.2 Circuit simulation engines

2.3 Electromagnetic simulation tools

3 Microwave theory

3.1 Transmission line theory

3.2 Smith chart

3.3 Match techniques

4 Microstrip hybrid

4.1Transmission line features

4.2Coupled line

4.3Microstrip couplers and power splitters

4.4Balun

4.5Transformers

4.6Design examples

5 Microwave controlling circuits

5.1 Switched FET equivalent circuit

5.2 Implementation of MMIC switches

5.3 Switched attenuators

5.4 Phase shifters

5.5 Design examples

6 Mixers

6.1 Active FET mixers

6.2 Resistive FET mixers

6.3 Diode mixers

6.4 Design examples

7 Low noise amplifers

7.1 LNA noise mechanism

7.2 Noise match

7.3 Small-signal amplifiers

7.4 Design examples

8 Power amplifiers

8.1 PA features

8.2 Loadpull techniques

8.3 Design examples

9 Image-rejection mixers

9.1 Ideal mixer features

9.2 Method of image-rejection

9.3 Image-rejection mixers

9.4 IQ mixer design example

10 Terahertz circuits

10.1 THz doublers

10.2 THz oscillators

10.3 Design example

11 Measurement techiques

11.1 Introduction

11.2 Test fixture measurements

11.3 Probe station measurements

11.4 Thermal and cryogenic measurements

11.5 Experimental field probing techniques

Teaching Schedule: Week	Course Content	Teaching Method
1	Chapter One, Introduction: A brief history of MMIC technology, Active device technologies, Advantage of MMICs, Future trend of MMIC	prelection
2	Chapter One, Introduction: Advantage of MMICs, Future trend of MMIC Chapter two, CAD techniques	prelection
3	Chapter three,Microwave theory: Transmission line theory, Smith chart,	prelection
4	Chapter three, Microwave theory: Match techniques Chapter four, Microstrip hybrid: Transmission line features, Coupled line,	prelection
5	Chapter four, Microstrip hybrid: Microstrip couplers and power splitters, Balun, Transformers, Design examples	prelection
6	Chapter five, Microwave controlling circuits: Switched FET equivalent circuit, Implementation of MMIC switches, Switched attenuators	prelection
7	Chapter five, Microwave controlling circuits: Phase shifters, Design examples	prelection
8	Chapter six, Mixers: Active FET mixers, Resistive FET mixers, Diode mixers, Design examples	prelection
9	Chapter six, Mixers: Diode mixers, Design examples	prelection
10	Chapter senven, Low noise amplifers: LNA noise mechanism, Noise match	prelection
11	Chapter senven, Low noise amplifers: Small-signal amplifiers, Design examples	prelection
12	Chapter eight, Power amplifiers: PA features, Loadpull techniques, Design examples	prelection
13	Chapter nine, Image-rejection mixers: Ideal mixer features, Method of image-rejection	prelection
14	Chapter nine, Image-rejection mixers: Image-rejection mixers, IQ mixer design example	prelection
15	Chapter ten, Terahertz circuits, THz doublers, THz oscillators	prelection
16	Chapter ten, Terahertz circuits: Design example	prelection
17	Chapter eleven , Measurement techiques	prelection
18	Examination

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)

Brief Introduction of Chief lecturer:

Li Qin , Associate Professor,

Education: Li Qin received the Ph. D in circuit & system MS degrees in electromagnetic field & microwave technology from Southeast universtiy in 2005 and 2001. Her research interests include RF and MMIC designs for wireless communications, Terahertz circuit techniques. She has published over 10 technical papers in major academic journals and conferences.

Lecturer Information (include chief lecturer)

Lecturer

Discipline

(major)

Office

Phone Number

Home Phone Number

Mobile Phone Number

Address

Postcode

Li Qin

Circuit &System

83793303

liqin_iroi@seu.edu.cn

Nanjing,

Sipailou 2

210096