【10本科】关于全英文《电子线路》课程报名的通知

各位10级同学，想要报名该课程全英文的同学将报名表格中所需要的信息发送给各班学习委员，各班学习委员于2011.12.25（周日）晚10：00之前将班级所有信息发送给岳帅邮箱250113116@qq.com，联系电话：15605198322

关于全英文《电子线路》课程报名的通知

         根据学校的安排，2011-2012第三学期中将邀请美国圣地亚哥大学教授Susan M. Lord为电子学院、信息学院和吴健雄学院10级的同学开设全英文《电子线路》课程。该课程将取代面上课程计划中《电子线路》必修课程。请相关院系同学到班长处报名，报名时请提供校英语4、6级、国家4、6级英语考试成绩以及其它英语水平测试成绩（托福、雅思等）。因为班级规模的限制，将在报名的同学中挑选约30人参加该课程的学习。报名截止期：12月28日。请各班班长在截止前将本班报名名单报送各自学院教务办公室。

       欢迎具有良好的基础课程成绩和英语听说能力同学参加。

东南大学电子科学与工程学院

东南大学吴健雄学院

2011/12/22

附：报名名单表格

附：课程简介 Course Information

Instructor:               Dr. Susan M. Lord, 260-4507, Loma 214, slord@sandiego.edu

Textbook:                R. Spencer and M. Ghausi, Introduction to Electronic Circuit Design, Prentice Hall, Upper Saddle River, NJ, 2003.  ISBN 0-201-36183-3

Catalog data:           Analysis and design of analog and digital electronic devices, circuits and systems including single and multiple transistor amplifiers, logic gates and other digital logic building block elements; low frequency models of bipolar junction transistors and field effect transistors; design features and characteristics of integrated circuit operational amplifiers; computer-aided analysis and design; laboratory design, testing and verification. Three hours lecture and one laboratory weekly.

Course Goals:          To provide students with a fundamental understanding of the behavior and modeling of electronic devices and to introduce students to the design and analysis of linear and non-linear electronic circuits.

Learning

Objectives:              By the end of the course, students should be able to:

1.       Model the low-frequency behavior of several common electronic devices:  operational amplifiers, semiconductor diodes, bipolar junction transistors (BJTs) and field effect transistors (FETs).

2.       Use device models appropriately in the analysis of simple linear and non-linear electronic circuits.

3.       Design simple linear and non-linear electronic circuits.

4.       Use a circuit simulation tool (PSpice) as an aid in the analysis and design of simple electronic circuits.

5.       Measure low-frequency device parameters experimentally.

6.       Construct simple electronic circuits and verify performance characteristics experimentally.

Laboratory:               Meets weekly.  Students will work in instructor-assigned teams of 2 - 3 in lab.  Details on laboratory policies will be provided in lab. 

Homework:               Assigned weekly.  Generally, due in class one week after being assigned.          No late homework will be accepted.

Tentative Schedule of topics

1.                   OpAmps  (2 weeks) 

2.                   Diodes and Circuit Applications (2 weeks) 

3.                   BJTs (2 weeks)

4.                   FETs (2 weeks)

5.                   Single Transistor Amplifiers (3 weeks)

6.                   Multiple Transistor Amplifiers (2 weeks) 

7.                 Tests (1 week)