MS004303-微波网络(部分全英文)

发布者:王源发布时间:2018-04-23浏览次数:1477

研究生课程开设申请表

开课院(系、所):信息学院,无线电工程系

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

微波网络

英文

Microwave Network

待分配课程编号

MS004303

课程适用学位级别

博士

  

硕士

总学时

48

课内学时

48

学分

 3

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()

信息学院,无线电工程系

开课学期

秋季

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

朱晓维

职称

教授

e-mail

xwzhu@seu.edu.cn

网页地址

  

授课语言

双语教学

课件地址

  

适用学科范围

二级

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

电磁场与电磁波、微波技术基础、线性代数

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

微波宽带匹配网络

自编

  

  

  

主要参考书

[1]Theory and design of broadband   matching network

Wai-kai   Chen

Pergamon   Press.

1976

1

[2]Computer-aided design of microwave   circuits

K.C.Gupta, et al

Artech   House, Inc.,

1981

1

[3]A simplified real frequency technique   applied to broadband multistage microwave amplifiers

B.S.Yarman   and H.J.Carlin,

IEEE   Trans. Vol. MTT-30,

1982.12

  















  

一、课程介绍(含教学目标、教学要求等)300字以内)

要求掌握不同类型网络的定义、特性,以及描述其特性的网络参数,如Z参数、Y参数、ABCD参数等,重点掌握散射矩阵的定义和特性,如无源、无耗、互易等,及其与S参数的相互关系;掌握微波网络特性的逼近方法,主要有butterworth响应、Chebyshev响应和椭圆函数响应;掌握宽带匹配的理论,S平面上零极点分解的条件,两端口网络后端反射系数的基本约束条件,无源负载下匹配网络的设计过程,双匹配的阻抗兼容性理论;特殊类型的有源阻抗,有源负载条件下的非互易反射式放大器设计、传输型放大器设计方法;实频率技术及应用,包括单匹配问题和双匹配问题。

  

二、教学大纲(含章节目录):(可附页)

说明:本课程采用自编讲义,讲义依据1976Wai-kai Chen出版的“Theory and design of broadband matching network, Pergamon Press编写。

课程由五章内容构成:

第一章:网络理论基础

第二章:网络特性的逼近

第三章:无源负载宽带匹配理论

第四章:有源负载宽带匹配理论

第五章:实频率技术及应用

-----------------------------------------------------------------------------------------

1.引言,介绍课程内容(2学时)

2.第一章网络理论基础(17学时)

l网络函数有关定理和定义

l网络的分类和定义

l网络的矩阵特性

a)阻抗矩阵,

b)导纳矩阵,

c)混合矩阵

l散射矩阵特性

3.第二章网络特性的逼近(4学时)

l最平坦响应

l等波纹响应

l椭圆响应

4.第三章无源负载宽带匹配理论(15学时)

l尤拉宽带匹配理论

l后端反射系数的基本约束条件

l匹配网络的设计

l双匹配问题——阻抗兼容性理论

5.第四章有源负载宽带匹配理论(10学时)

l特殊类型有源阻抗

l非互易负阻放大器设计

l传输功率放大器设计

6.第五章实频率技术及应用(4学时)

l等效双端口网络的增益方程

l单匹配问题和双匹配问题

全课内容复习总结(2学时)

  

三、教学周历

周次

教学内容

教学方式

1

有关线性代数和网络函数的若干定义和理论

讲课

2

网络的类型和定义

讲课

3

网络的矩阵特性

讲课

4

散射矩阵

讲课

5

butterworth响应

讲课

6

Chebyshev响应

讲课

7

椭圆函数响应

讲课

8

宽带匹配的理论

讲课

9

增益带宽的限制

讲课

10

均衡器的设计过程

讲课

11

双匹配问题——阻抗相容理论

讲课

12

反射式负阻放大器设计I

讲课

13

反射式负阻放大器设计II

讲课

14

传输型功率放大器设计

讲课

15

实频率技术

讲课

16

微波网络CAD

讲课

17

复习

  

18

考试

  

  

  

四、主讲教师简介:

朱晓维男,生于1963622。东南大学毫米波国家重点实验室教授,获东南大学无线电工程系《电磁场与微波技术专业》硕士和博士学位。

主要研究方向,无线通信系统的射频技术,微波/毫米波系统与电路。近年来负责承担了多项国家863计划的课题研究,其中主要的科研工作有:主持并完成了国家“863”计划中国第三代移动通信系统研究(C3G)子课题“WCDMA MT模拟前端研制开发 “宽带多频多模射频技术等,均通过国家科技部主持的验收,获得了Ab的成绩;还参加其他“863”课题的研究工作,如新型天线分集技术研究 “射频前端技术研究等项目,及国家自然科学基金委创新团体项目。当前科研工作的重点在无线通信系统射频技术和微波毫米波电路与网络方面,包括射频子系统、微波电路、功率放大器线性化技术等研究内容。

主撰和合撰学术论文50多篇,发表在国内外核心学术刊物《电子学报》、《通信学报》、《微波学报》、《Microwave Journal》和会议上,其中大部分被SCIEIISTP收录;获国家教委科技进步一等奖一项、江苏省科技进步二等奖一项;发明专利五项。

讲授两门研究生课程《微波网络》和《微波非线性网络》。

  

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

朱晓维

电磁场与微波技术


  


xwzhu@seu.edu.cn

  

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

微波网络

English

Microwave Network

Course Number

MS004303

Type of Degree

Ph. D

  

Master

Total Credit Hours

48

In Class Credit Hours

48

Credit

 3

Practice

  

Computer-using Hours

  

Course Type

Public Fundamental      Major Fundamental      Major Compulsory     Major Elective

School (Department)

School of Information Science and Engineering

Term

Autumn

Examination

A.PaperOpen-book   Closed-book  B.Oral  

C.Paper-oral   Combination                       D. Others

Chief

Lecturer

Name

Xiao Wei Zhu

Professional Title

Professor

E-mail

xwzhu@seu.edu.cn

Website

  

Teaching Language used in Course

Chinese-English

Teaching Material Website

  

Applicable Range of Discipline

second-class   discipline,

Name of First-Class Discipline

Electronic science and Technology

Number of Experiment

  

Preliminary Courses

Electromagnetic field and wave, Microwave Technology,   Matrix algebra

Teaching Books

Textbook Title

Author

Publisher

Year of Publication

Edition Number

Main Textbook

Microwave broadband matching network

Self-edit

  

  

  

Main   Reference Books

[1]Theory and design of broadband   matching network

Wai-kai   Chen

Pergamon   Press.

1976

1

[2]Computer-aided design of microwave   circuits

K.C.Gupta, et al

Artech   House, Inc.,

1981

1

[3]A simplified real frequency technique   applied to broadband multistage microwave amplifiers

B.S.Yarman   and H.J.Carlin,

IEEE   Trans. Vol. MTT-30,

1982.12

  















  

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

lThe network definition and characteristic in different types, as well as network parameters including Z-Parameter, Y-Parameter and Hybrid parameter, etc.

lScattering matrix characterization and definition of network, such as passive, lossless and reciprocal, and its relationship with S-parameter

lApproximation method of network characteristics, including Butterworth response,  Chebyshev response, Elliptic response

lTheory of broadband matching, the condition of zeros and poles factorization on S-plane

lBasic constraints on backend reflection coefficient, design of equalizer for passive load network, compatibility theory of impedance for double matching problem

lSpecial class of active impedance, design of nonreciprocal negative resistance amplifier, design of transmission-power amplifier

lReal frequency techniques and applications for single matching problem, simplified real frequency technique for double matching problem

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

Chapter1. Foundation of network Theory

lDefinitions and theorems about network function and matrix algebra

lClassification and definitions of networks

lMatrix characterizations of networks

lScattering matrix

Chapter2. Approximation of network characteristics

lThe Butterworth response

lThe Chebyshev response

lThe Elliptic function

Chapter3. Theory of broadband matching: The passive load

lYoula’s theory of broadband matching

lBasic constraints on backend reflection coefficient

lDesign of equalizer

lDouble matching problemcompatibility theory of impedance

Chapter4. Theory of broadband matching: The active load

lSpecial class of active impedance

lDesign of nonreciprocal negative resistance amplifier

lDesign of transmission-power amplifier

Chapter5. Real frequency techniques and its  applications

lGain equation of equalized two-port network

lReal frequency technique-Single matching problem

lDouble matching problem-simplified real frequency technique

III.Teaching Schedule:

Week

Course   Content

Teaching   Method

1

Definitions and   theorems about network function and matrix algebra

lecture

2

Classification and   definitions of networks

lecture

3

Matrix   characterizations of networks

lecture

4

Scattering matrix

lecture

5

The Butterworth   response

lecture

6

The Chebyshev   response

lecture

7

The Elliptic   response

lecture

8

Theory of broadband matching

lecture

9

Limit on   gain and bandwidth

lecture

10

Design step of   equalizer

lecture

11

Double matching   problemcompatibility theory of impedance

lecture

12

Design of   nonreciprocal negative resistance amplifier I

lecture

13

Design of   nonreciprocal negative resistance amplifier II

lecture

14

Design of   transmission-power amplifier

lecture

15

Real frequency techniques and applications

lecture

16

Microwave   network CAD

lecture

17

Course   review

  

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 GraduateSchool.

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)

IV.Brief Introduction of Chief lecturer:

Xiao Wei Zhuwas born in Nanjing, Jiangsu Province, P. R. China, in 1963. He received the M.S. and Ph.D degrees from SoutheastUniversity, Nanjing, China, all in radio engineering. From 1984 to 1991, he is currently a professor of the School of Information Science and Engineering, SoutheastUniversity.

His research interests include RF subsystem and module for wireless communication systems, such as B3G, WiMAX, UWB and so on. He is also interested in linear power amplifier, novel components development. He had accomplished many projects on RF subsystem as well as key techniques for mobile communication systems from 863 National High Technology Program, which including RF front-end research and development for W-CDMA MT, “Wide band RF module for multi-band and multi-mode”, “Power amplifier linearization technique for base station and so on.

He has published over 50 technique papers in Journal and international conference, in which some papers have been embodied in SCI and EI systems. He is owner of several patents. He was the recipient of the National Education Committee First Awards on S&T Advance and Jiangsu Province Second Awards on S&T Achievement. He was also invited to visit The Chinese University of Hong  Kong and University College Dublin, Ireland. He is member of IEEE and member National microwave integrated circuit and mobile communication committee

V.Lecturer Information (include chief lecturer)

Lecturer

Discipline

(major)

Office

Phone Number

Home Phone Number

Mobile Phone Number

Email

Address

Postcode

Zhu Xiao Wei

Electromagnetic field and microwave Technology


  


xwzhu@seu.edu.cn

  

210096