● 課程說明(Course Desc<x>ription)
<br>
<br>The ob<x>jectives of this course aim to provide students with comprehension of 
<br>semiconductor physics and principles related to semiconductor devices. These 
<br>ob<x>jectives serve two purposes: 
<br>(a) laying the necessary groundwork (physical principles) for electrical 
<br>engineering majors to progress to advanced courses, and 
<br>(b) establishing fundamental knowledge regarding the operation and limitations of 
<br>the three key electronic devices—1) p-n junctions, 2) bipolar transistors, and 3) 
<br>field-effect transistors. 
<br>
<br>This knowledge proves valuable for both electrical, device and computer engineers, 
<br>enabling them to stay updated on advancements in semiconductor devices and 
<br>integrated circuits throughout their extended careers in either field.
<br>
<br>● 指定用書(Text Books)
<br>
<br>Fundamentals of Semiconductor Devices by Betty L. Anderson & Richard L. Anderson 
<br>(Mc GRAW.HILL)
<br>Physics of Semiconductor Devices, 4th Edition, Simon M. Sze, Yiming Li, Kwok K. Ng
<br>
<br>● 參考書籍(References)
<br>
<br>Advanced Semiconductor Fundamentals, 2nd Edition, by Robert F. Pierret 
<br>R.F. Pierret, Advanced Semiconductor Fundamentals, 2nd ed., Pearson
<br>Education, Inc., 2003
<br>D. Neaman, Semiconductor Physics and Devices: Basic Principles, 4th ed.
<br>
<br>● 教學方式(Teaching Method)
<br>In-person lecture
<br>Homework will be given in various forms. 
<br>Basic coding and simulation skill (matlab & python) is needed
<br>
<br>● 教學進度(Syllabus)
<br>introduction to quantum mechanics and the quantum theory of solids
<br>Electron Energy and States in Semiconductors
<br>Homogeneous Semiconductors
<br>Current Flow in Homogeneous Semiconductors
<br>Non-Homogeneous Semiconductors
<br>Prototype and Considerations pn Homojunctions & Diodes
<br>The MOSFET and other FETs
<br>Quantum transport and current flow
<br>
<br>
<br>● 採用 AI 使用規則
<br>有條件開放參考範例(2)