● 課程說明(Course Description)
This course aims to provide entry level graduate students with basic knowledge
and training in the field of semiconductor devices that are mostly used in
integrated circuits. The course content covers basic semiconductor physics, PN
junctions, Bipolar Junction Transistors, and metal-Oxide-Semiconductor Field
Effect Transistors, and some advanced devices. The students will learn physics,
design principles, and circuit models of these devices.

● 指定用書(Text Books)


● 參考書籍(References)
D. Neamen, Semiconductor Physics and Devices: Basic Principles (4th Edition),
McGraw-Hill, 2012.
R. Pierret, Advanced Semiconductor Fundamentals (2nd Edition), Pearson, 2002.
C. Hu, Modern Semiconductor Devices for Integrated Circuits, Pearson, 2010.

● 教學方式(Teaching Method)
課堂講授或是遠端教學(視疫情狀況而定)

● 教學進度(Syllabus)
1. Introduction / Crystal Structure of Solids
2. Quantum Mechanics / Schrodinger Equation
3. Energy Bands / Energy Bands in 3D Crystals
4. Density of States / Fermi-Dirac Statistics
5. Doping / Equilibrium Statistics / Carrier Conc.
6. Non-Equilibrium Statistics: Recombination-Generation
7. Carrier Transport / Semiconductor Equations
8. PN Junction Electrostatics / I-V Characteristics
9. PN Junctions – non-ideal / AC Resp. / Trans
10. metal-Semiconductor Junctions
11. Bipolar Transistors I
12. Bipolar Transistors II
13. MOS Electrostatics
14. MOSFETS: Ideal
15. MOSFETS: Advanced/Nonideal

● 成績考核(Evaluation)
3 Exams 100%

● 可連結之網頁位址 相關網頁(Personal Website)
https://elearn.nthu.edu.tw/