Course Objectives and Outcomes
1.
Course code and title:
EE4647-Microelectronic Devices
2.
Number of AUs:
3
4.
Course schedule:
Lecture:
Lecture: 2 hours/week for 13 weeks
Tutorial:
Tutorial: 1 hour/week for 12 weeks
5.
Course assessment:
3.
Course type:
Assignment:
0%
Quiz:
20%
Exam:
80%
Core
6.
Course prerequisites:
EE2003/Semiconductor Fundamentals
7.
Course description:
This course provides a detailed fundamental analysis and discussion
on various semiconductor devices. It covers characteristics and
operation principle of diode, Bipolar junction transistor (BJT), metaloxide semiconductor field effect transistor (MOSFET) and
heterojunction devices. After successful completion of the course,
students will acquire a thorough understanding on the devices and
be able to apply the knowledge to the development of new and novel
devices for different applications.
8.
Textbook(s):
• S. M Sze, Semiconductor Devices Physics and Technology, John
Wiley & Son, Inc. 2nd edition, 2002
• Donald A. Neamen, Semiconductor Physics and Devices Basic
Principles, McGraw Hill, 3rd edition, 2003.
9.
Reference Book(s)
• R. F. Pierret, Semiconductor device fundamentals, AddisonWesley, 1996.
• K. Kano, Semiconductor devices, Prentice Hall, 1998.
• S. O. Kasap, Principles of electrical engineering materials and
devices, McGraw-Hill, 2000.
10.
Level of course contribution to Learning Outcomes
COURSE CODE AND TITLE
EE4647 MICROELECTRONIC DEVICES
Legend
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STUDENT LEARNING OUTCOME
a
b
●
Fully consistent (contributes to more than 75% of the SLO)
Partially consistent (contributes to about 50% of the SLO)
Weakly consistent (contributes to about 25% of the SLO)
Blank Not related to the SLO
c
●
d
e
f
g
h
i
j