MS004312-微波毫米波测量技术(全英文)

发布者:王源发布时间:2018-04-23浏览次数:1683

 

研究生课程开设申请表

开课院(系、所):金沙js800000

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

微波毫米波测量技术

英文

Microwave and Millimeter Wave Measurement Technology

待分配课程编号

MS004312

课程适用学位级别

博士


硕士

总学时

32

课内学时

32

学分

2

实践环节

18

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()

金沙js800000

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   实验设计与测试报告                 

课程负责人

教师

姓名

翟建锋

职称

讲师(博士)

e-mail

jfzhai@emfield.org

网页地址


授课语言

汉语

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

6

先修课程

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






主要参考书

微波技术与实验

彭沛夫

清华大学出版社

2007.11

1

现代微波与天线测量技术

戴晴等

电子工业出版社

2008.7

1

现代电子测试技术-信息化武器装备的质量卫士

李立功等

国防工业出版社

2008.7

2


一、课程介绍(含教学目标、教学要求等)300字以内)

目前,在微波毫米波测量技术和仪器使用方面,多数研究生没有得到系统的学习和实践。鉴于此,申请在2011年春季开设《微波毫米波测量技术》课程,为微波领域的研究生开展科学研究打下实验基础。

本课程主要针对电磁场与微波技术专业的研究生,通信、电路与系统等相关专业的研究生也可选修。

通过本课程的学习,学生应当掌握微波电路与系统主要参数,如信号特征、频谱、网络参数、系统收发信机参数的测量原理和测量方法,为进一步学习微波毫米波电路打下必要的基础;也为信息与通信专业的学生了解微波和射频系统的测量技术提供必要的基础知识。通过该课程的学习,不但可以引导学生科研兴趣,而且可以提供给学生理论与实践相结合的机会,提高实验中分析和解决问题能力。


二、教学大纲(含章节目录):(可附页)

 第一章:微波毫米波系统的构成和基本概念

1、微波毫米波系统的构成

2、微波毫米波测量仪器的分类和发展

3、微波毫米波元部件参数和测量方法介绍:滤波器、衰减器、功分器、耦合器、放大器、振荡器、混频器、天线等

 第二章:信号源的基本原理和使用

1、微波信号源的分类

2、矢量信号源的原理、构成和指标

3、矢量信号源的使用

 第三章:信号分析仪的基本原理和使用

1、频谱分析仪的原理、构成和指标

2、矢量信号分析仪的原理、构成和指标

3、矢量信号分析仪的使用

 第四章:网络分析仪的基本原理和使用

1、网络分析仪的原理、结构

2、网络分析仪的校准

3、网络分析仪的典型器件的测量:滤波器、功分器、耦合器、放大器。

 第五章:天线的测量原理和应用

1、天线的设计和测量原理

2、实际的暗室天线测量

 第六章:相位噪声的测量

1、相位噪声的测量原理和方法

2、实际的相位噪声的测量

 第七章:网络分析仪的高级应用

1、高级网络分析仪的功能介绍

2、网络分析仪的时域测量

 第八章:逻辑分析仪和仪器自动控制

1、逻辑分析仪的原理和测量

2、仪器自动控制的介绍

 实验一、利用网络分析仪进行无源器件测量

1、常用微波测量系统的认识,简要了解其工作原理

2、掌握网络分析仪的测量步骤和校准过程

3、没有校准情况下,滤波器、功分器和耦合器的测量和分析

4、校准情况下,滤波器、功分器和耦合器的测量和分析。

 实验二、微波毫米波信号源和频谱仪的基本测量

1、掌握微波毫米波信号源和频谱仪的工作原理

2、掌握微波毫米波信号源和频谱仪的基本操作方法

 实验三、利用网络分析仪进行有源器件测量

1、放大器的S参数网络分析仪测量和分析

2、放大器的非线性特性的测量和分析

 实验四、微波毫米波信号源矢量波形下载

1、利用现有软件下载矢量波形

2、利用Matlab程序下载矢量波形

 实验五、微波放大器的矢量信号分析

1、单音和双音信号输入下,利用信号源和频谱分析仪对放大器测量和分析

2、矢量调制信号输入下,利用信号源和频谱分析仪对放大器测量和分析

 实验六:微波毫米波频谱分析仪的矢量信号测量

1、熟悉频谱分析仪的使用

2、矢量信号的测量和分析

 实验七、微波毫米波天线实际测量

1、微波暗室的介绍和参观

2、天线实际测量和分析

 实验八、验收考核


三、教学周历

 周次

 教学内容

 教学方式

1

 微波系统的构成和基本概念

 讲课

2

 信号源的基本原理和使用

 讲课

3

 信号分析仪的基本原理和使用

 讲课

4

 网络分析仪的基本原理和使用

 讲课

5

 天线的测量原理和应用

 讲课

6

 相位噪声的测量

 讲课

7

 网络分析仪的高级应用

 讲课

8

 逻辑分析仪和仪器自动控制

 讲课

9

 实验一、利用网络分析仪进行无源器件测量

 实验

10

 实验二、微波毫米波信号源和频谱仪的基本测量

 实验

11

 实验三、利用网络分析仪进行有源器件测量

 实验

12

 实验四、微波毫米波信号源矢量波形下载

 实验

13

 实验五、微波放大器的矢量信号分析

 实验

14

 实验六、微波毫米波频谱分析仪的矢量信号测量

 实验

15

 实验七、微波毫米波暗室中天线实际测量

 实验

16

 试验八、考核验收

 实验

17



18



 注:1.以上一、二、三项内容将作为中文教学大纲,在研究生院中文网页上公布,四、五内容将保存在研究生院。2.开课学期为:春季、秋季或春秋季。3.授课语言为:汉语、英语或双语教学。4.适用学科范围为:公共,一级,二级,三级。5.实践环节为:实验、调研、研究报告等。6.教学方式为:讲课、讨论、实验等。7.学位课程考试必须是笔试。8.课件地址指在网络上已经有的课程课件地址。9.主讲教师简介主要为基本信息(出生年月、性别、学历学位、专业职称等)、研究方向、教学与科研成果,以100500字为宜。

四、主讲教师简介:

翟建锋,男,生于198110月,2004年获得金沙js800000无线电系学士学位,并保送本校攻读硕士,20063月提前攻读博士,20096月获得电磁场与微波技术专业博士学位。博士课题方向:功率放大器的行为模型和数字预失真技术。现为金沙js800000讲师。

博士期间,参与的课题有:国家自然科学基金委创新群体基金(60621002);国家自然科学基金 (60702027);国家863计划(2007AA01Z2B4);国际合作的3.5GHz WiMAX RF 模块的研发;国际合作的2.5GHz WiMAX RF模块的研发。

作为负责人之一正在进行的课题有:国家973项目“硅基毫米波亚毫米波集成电路与系统的基础研究”(2010CB327400)的“110800GHz硅基新型无源元件的设计与实验研究”子课题。

相关论文和专利:

  1. Zhai Jianfeng, Zhou Jianyi, Zhang Lei, Zhao Jianing, and Hong Wei. The Dynamic Behavioral Model of RF Power Amplifiers with Modified ANFIS[J]. IEEE Trans. on Microwave Theory and Technique, 2009, 57(1): 27-35.

  2. Zhai Jianfeng, Zhou Jianyi, Zhang Lei, Zhao Jianing, Hong Wei. Dynamic Behavioral Modeling of Power Amplifiers Using ANFIS-based Hammerstein[J]. IEEE Microwave and Wireless Components Letters, 2008, 18(10): 704-706.

  3. Zhai Jianfeng, Zhou Jianyi, Zhao Jianing, Zhang Lei, Hong Wei. Behavioral Modeling of RF Power Amplifiers with Time-delay Feed-forward Neural Networks[J]. Journal of Southeast University (English Edition), March 2008, 24(1): 6-9.

  4. Zhai Jianfeng, Zhou Jianyi, Zhang Lei, Zhao Jianing, Hong Wei. ANFIS Implementation in FPGA for Power Amplifier Linearization with Digital Predistortion[C]. 2008 International Conference on Microwave and Millimeter Wave Technology (ICMMT2008), NanjingChinaApril 20083: 1474-1476.

  5. Zhai Jianfeng, Xie Ningde, Zhou Jianyi, Zhao Jianing, Zhang Lei, Hong Wei. A Novel Adaptive Baseband Digital Predistortion Technique[J]. International Journal of Microwave and Optical Technology (ISSN 1553-0396), April 2007, 2(2): 119-123.

  6. 翟建锋,周健义,洪伟,张雷.有记忆效应的功率放大器实数延时模糊神经网络模型[J].微波学报.(已录用)

  7. 基于模糊神经网络的哈默斯坦模型的功放预失真方法。发明人:周健义、翟建锋、洪伟; 申请号:200810022631.8;申请人:金沙js800000;申请日:2008.7.18


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

翟建锋

电磁场与微波技术




jfzhai@emfield.org

金沙js800000 金沙js800000 毫米波国家重点实验室

210096

蒋政波

电磁场与微波技术




jzb@seu.edu.cn

同上

210096

蒯振起

电磁场与微波技术




zqkuai@emfield.org

同上

210096







六、课程开设审批意见

所在院(系)



负责人:

期:

所在学位评定分

委员会审批意见



分委员会主席:

期:

研究生院审批意见




负责人:

期:


说明:1.研究生课程重开、更名申请也采用此表。表格下载:http:/seugs.seu.edu.cn/down/1.asp

2.此表一式三份,交研究生院、院(系)和自留各一份,同时提交电子文档交研究生院。




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

微波毫米波测量技术

English

Microwave and Millimeter Wave Measurement Technology

Course Number

MS004312

Type of Degree

Ph. D

Master

Total Credit Hours

32

In Class Credit Hours

32

Credit

2

Practice

24

Computer-using Hours


Course Type

Public Fundamental    □Major Fundamental    □Major CompulsoryMajor Elective

School (Department)

School of Information Science and Engineering

Term

Spring

Examination

A.PaperOpen-book   □ Closed-bookB.Oral   

C.Paper-oral Combination           D.Others  Experiment design and measurement report

Chief

Lecturer

Name

Jianfeng Zhai

Professional Title

Lecturer(Ph. D)

E-mail

jfzhai@emfield.org

Website


Teaching Language used in Course

Chinese

Teaching Material Website


Applicable Range of Discipline

second-class discipline

Name of First-Class Discipline

Electronic Science And Technology

Number of Experiment

6

Preliminary Courses

Microwave techniques

Teaching Books

Textbook Title

Author

Publisher

Year of Publication

Edition Number

Main Textbook






Main Reference Books

Microwave techniques and experiments

Peng Peifu, etc

Tsinghua University press

2007.11

1

The measurement techniques of modern microwave and antenna

Dai Qing, etc

Publishing house of electronics industry

2008.7

1

The modern electronic measurement techniques-

Li Ligong,etc

National defense industry press

2008.7

2


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

Now most postgraduate students have no chance to get systematical learning of microwave and millimeter wave measurement technology and using of microwave instruments in experiment. Hence, the course of Microwave and Millimeter Wave Measurement Technology is applied in spring term, 2011, and it will lay a good foundation for postgraduate students of microwave area in their research.

It is not only a major course for postgraduate students, who major in electromagnetic and microwave techniques, but also an elective course for postgraduate students, who major in communications and circuits and system.

After learning this course, students should master the main parameters of microwave and millimeter wave circuits and system, such as signal characteristics, spectrum, network parameters, measurement principal and methods of parameters in transmitters and receivers. It will lay a necessary foundation for students in microwave and RF circuits learning. For students, majored in information and communication, it will supply necessary basic knowledge in learning measurement techniques of microwave and RF system. The course can not only guide students' interest, but also give a chance to combine theory with practice, and improve the ability to analyze and solve problems in experiment.


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

Chapter 1: The structure and basic concepts of microwave and millimeterwave systems

1. The structure of microwave and millimeterwave systems

2. The classification and development of microwave and millimeterwave measurement instruments

3. Introduction of parameters and measurement of microwave and millimeterwave device, such as filter, attenuator, power divider, coupler, amplifier, oscillator, mixer, antenna, etc.

Chapter 2: The basic theory and use of signal generator

1. The classification of microwave signal generator

2. The principle, structure and feature of vector signal generator

3. The use of vector signal generator

Chapter 3: The basic theory and use of signal analyzer

1. The principle, structure and feature of spectrum analyzer

2. The principle, structure and feature of vector signal analyzer

3. The use of vector signal analyzer

Chapter 4: The basic theory and use of network analyzer

1. The principle, structure of network analyzer

2. The calibration of network analyzer

3. The typical device measurement by network analyzer: filter, power divider, coupler, amplifier.

Chapter 5: The basic theory and application of antenna

  1. The basic theory and design of antenna

  2. The measurement of antenna in anechoic chamber

Chapter 6: The measurement of phase noise

  1. The measurement theory of phase noise

  2. The real measurement technology of phase noise

Chapter 7: The professional application of vector network analyzer

  1. The introduction of the professional application of vector network analyzer

  2. The time domain measurement technology of vector network analyzer

Chapter 8: Logic analyzer and automatic control of instruments

  1. The basic theory and measurement of logic analyzer

  2. The automatic control of instruments


Experiment 1. The measurement of passive devices by network analyzer

1. The understanding of microwave measurement system, and its principle

2. Master the calibration and measurement procedure of network analyzer

3. The measurement and analysis of filter, power divider and coupler without calibration

4. The measurement and analysis of filter, power divider and coupler with calibration

Experiment 2. The basic measurement of microwave and millimeterwave signal generator and analyzer

  1. The basic theory of microwave and millimeterwave signal generator and analyzer

  2. The basic use of microwave and millimeterwave signal generator and analyze

Experiment 3. The measurement of active devices by network analyzer

1. The S parameter measurement and analysis of amplifier by network analyzer

2. The nonlinear measurement and analysis of amplifier by network analyzer

Experiment 4. Download modulated signals in microwave and millimeterwave signal generator

1. Download modulated signals in microwave signal generator with WinIQSim software.

2. Download modulated signals in microwave signal generator with Matlab software.


Experiment 5. The analysis of microwave amplifier with vector signals

1. The measurement and analysis of amplifier with single and two tone input by signal generator and analyzer

2. The measurement and analysis of amplifier with IQ modulated signal input by signal generator and analyzer

Experiment 6. The measurement of modulated signals with microwave and millimeterwave signal analyzer

  1. The familiarity with the modulated signals of the microwave signal analyzer

  2. The measurement and analysis of modulated signals

Experiment 7. The measurement of microwave and millimeterwave antenna

1. The introduction and visit of microwave Anechoic Chamber

2. The measurement and analysis of antenna

Experiment 8. Check and accept



  1. Teaching Schedule:


Week

Course Content

Teaching Method

1

The structure and basic concepts of microwave systems

lecture

2

The basic theory and use of signal generator

lecture

3

The basic theory and use of signal analyzer

lecture

4

The basic theory and use of network analyzer

lecture

5

The basic theory and application of antenna

lecture

6

The measurement of phase noise

lecture

7

The professional application of vector network analyzer

lecture

8

Logic analyzer and automatic control of instruments

lecture

9

Experiment 1. The measurement of passive devices by network analyzer

practice

10

Experiment 2. The basic measurement of  microwave and millimeter wave signal generator and analyzer

practice

11

Experiment 3. The measurement of active devices by network analyzer

practice

12

Experiment 4.  Download modulated signals in microwave and millimeter wave signal generator

practice

13

Experiment 5.  The analysis of microwave amplifier with vector signals

practice

14

Experiment 6. The measurement of modulated signals with microwave  and millimeterwave signal analyzer

practice

15

Experiment 7. The measurement of microwave and millimeterwave antenna

practice

16

Experiment 8. Check and accept

practice

17



18



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)


  1. Brief Introduction of Chief lecturer:

Jianfeng Zhai, male, born in Oct.1981, received the B.S. degree in radio engineering from Southeast University in 2004, and recommended for admission to M.S. degree learning in 2004, Ph.D. learning in 2006, and received Ph.D. degree in electromagnetic field and microwave techniques in 2009. His Ph.D. thesis title is “Study on Behavioral Modeling and Linearization of wideband Power Amplifiers”. He is a lecturer of Southeast University.

During the period of Ph.D, his research and participate projects include, the National Science Foundation of China (NSFC) under Grant 60702027 and Grant 60621002, the National High-Tech Project under Grant 2007AA01Z2B4 and the international cooperation of 3.5GHz & 2.5GHz Wimax RF module.

The projects as the person in charge include the sub-project "The design and experimental research of 110~800GHz silicon-based novel passive devices" of National 973 project " The basic research of  millimeter and sub-millimeter wave silicon-based integrated circuit and system " under Grant 2010CB327400.

Related Publications and patents:

  1. Zhai Jianfeng, Zhou Jianyi, Zhang Lei, Zhao Jianing, and Hong Wei. The Dynamic Behavioral Model of RF Power Amplifiers with Modified ANFIS[J]. IEEE Trans. on Microwave Theory and Technique, 2009, 57(1): 27-35.

  2. Zhai Jianfeng, Zhou Jianyi, Zhang Lei, Zhao Jianing, Hong Wei. Dynamic Behavioral Modeling of Power Amplifiers Using ANFIS-based Hammerstein[J]. IEEE Microwave and Wireless Components Letters, 2008, 18(10): 704-706.

  3. Zhai Jianfeng, Zhou Jianyi, Zhao Jianing, Zhang Lei, Hong Wei. Behavioral Modeling of RF Power Amplifiers with Time-delay Feed-forward Neural Networks[J]. Journal of Southeast University (English Edition), March 2008, 24(1): 6-9.

  4. Zhai Jianfeng, Zhou Jianyi, Zhang Lei, Zhao Jianing, Hong Wei. ANFIS Implementation in FPGA for Power Amplifier Linearization with Digital Predistortion[C]. 2008 International Conference on Microwave and Millimeter Wave Technology (ICMMT2008), NanjingChinaApril 20083: 1474-1476.

  5. Zhai Jianfeng, Xie Ningde, Zhou Jianyi, Zhao Jianing, Zhang Lei, Hong Wei. A Novel Adaptive Baseband Digital Predistortion Technique[J]. International Journal of Microwave and Optical Technology (ISSN 1553-0396), April 2007, 2(2): 119-123.

  6. Zhai Jianfeng, Zhou Jianyi, Hong Wei, Zhang Lei. A Real-valued Time-delay Neuro-Fuzzy Model for Power Amplifier with Memory Effects[J]. Journal of Microwaves.(accepted)

  7. The power amplifier predistortion method of the ANFIS-based Hammerstein modelThe inventorsZhou Jianyi, Zhai Jianfeng, Hong Wei, The application No.200810022631.8The applicant: Southeast Universitythe date of applicationJuly 28, 2008.


  1. Lecturer Information (include chief lecturer)


Lecturer

Discipline

(major)

Office

Phone Number

Home Phone Number

Mobile Phone Number

Email

Address

Postcode

Zhai Jianfeng

The electromagnetic field and microwave techniques




jfzhai@emfield.org

State Key Lab of Millimeter Waves,

Southeast University,

Sipailou 2,

Nanjing


210096

Jiang Zhengbo

The electromagnetic field and microwave techniques




jzb@seu.edu.cn

State Key Lab of Millimeter Waves,

Southeast University,

Sipailou 2,

Nanjing


210096

Kuai Zhenqi

The electromagnetic field and microwave techniques




zqkuai@emfield.org

State Key Lab of Millimeter Waves,

Southeast University,

Sipailou 2,

Nanjing


210096