Semiconductor devices such as integrated circuits and photonic devices permeate every aspect of our present day lives. This
course introduces the basic concepts of the fundamental operation of the semiconductor devices. Topics to be discussed include
semiconductor materials, basic device physics, p-n junctions and bipolar transistors.
This course should provide the students with a basic understanding of the semiconductor physics and principles of operation
of the most important semiconductor devices in modern microelectronics and photonics.
- will comprehend about energy band theory.
- will comprehend about conductive theory of semiconductors.
- will comprehend about fundamental theories of p-n junction.
- will comprehend about properties of semiconductors.
- will comprehend about mechanism of fundamental semiconductor device operations.
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Classical Physics and Quantum Physics | Read pp.1-15 in textbook. | 70minutes |
| To review the content of the lesson. | 120minutes | ||
| 2. | Wave–particle Duality and Schrodinger Equation | Read pp.16-21 in textbook. | 70minutes |
| To review the content of the lesson. | 120minutes | ||
| 3. | Band Theory | Read pp.23-27 in textbook. | 70minutes |
| To review the content of the lesson. | 120minutes | ||
| 4. | Mid-Term Examination 1 and Analysis of Questions | Review the learned contents. | 120minutes |
| To review the content of the lesson. | 70minutes | ||
| 5. | Metal, Semiconductor, Insulator | Read pp.42-55 in textbook. | 70minutes |
| To review the content of the lesson. | 120minutes | ||
| 6. | Development History of Semiconductor Devices | Read pp.56-62 in textbook. | 70minutes |
| To review the content of the lesson. | 120minutes | ||
| 7. | Conductive Theory of Semiconductors | Review the learned contents. | 70minutes |
| To review the content of the examination. | 120minutes | ||
| 8. | P-n Junction | Read the text book of "Introduction to Electronic Materials" | 70minutes |
| To review the content of the lesson. | 120minutes | ||
| 9. | Mid-Term Examination 2 and Analysis of Questions | Review the learned contents. | 120minutes |
| To review the content of the lesson. | 70minutes | ||
| 10. | Transistor and Integrated Circuit | Read pp.112-127 in textbook. | 70minutes |
| To review the content of the lesson. | 120minutes | ||
| 11. | Physical Properties of Semiconductors (Thermoelectricity, Electromagnetic Properties) | Read pp.128-153 in textbook. | 70minutes |
| To review the content of the lesson. | 120minutes | ||
| 12. | Physical Properties of Semiconductors (Optoelectric Properties) | Read pp.182-194 in textbook. | 70minutes |
| To review the content of the lesson. | 120minutes | ||
| 13. | LED and Optoelectronics | Read pp.195-235 in textbook. | 70minutes |
| To review the content of the lesson. | 120minutes | ||
| 14. | Final Examination and Analysis of Questions | Review the learned contents. | 120minutes |
| To review the content of the examination. | 70minutes | ||
| Total. | - | - | 2660minutes |
| Mid-Term Examination 1 | Mid-Term Examination 2 | Final Examination | Total. | |
|---|---|---|---|---|
| 1. | 30% | 30% | ||
| 2. | 20% | 20% | ||
| 3. | 10% | 10% | ||
| 4. | 20% | 20% | ||
| 5. | 20% | 20% | ||
| Total. | 30% | 30% | 40% | - |
Mid-Term Examination 1 (30%), Mid-Term Examination 2 (30%) and Final Examination (40%).
Will pass this course by total score of 60 or higher.
Will pass this course by total score of 60 or higher.
Studied “Introduction to Electromagnetism”, “Introduction to Electronic Materials” and “Introduction to Solid State Physics”.
- Questions and consultations are accepted by email.
If necessary, specify a virtual interview.
- Course that cultivates an ability for utilizing knowledge
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| N/A | N/A |
Last modified : Wed May 12 04:47:04 JST 2021