Semiconductor Physics II
Semiconductor Physics 2 (Halbleiterphysik)
Its a masters level course only taught for students still registered in the old examination regulations of the University. It is no more offered to new students
Module leader: Prof. Dr. B. Choubey
Lecturer: Prof. Dr. B. Choubey
Language: English
Time Commitment: In person: 60 h, Self study: 50 h, Examination preparation: 40 h
Credit points: 5
Learning Outcomes
The aim of the course Semiconductor Electronics II is imparting knowledge in the field of High-level semiconductor devices using solid-state physical models. The exemplary and in-depth treatment of basic components such as Bipolar transistor and MOS field effect transistor with the aim of description of the performance data of these components as functional semiconductors, technological and geometric parameters should enable the students to handle similar problems, as they are arise in the development and optimization of modern Semiconductor devices in science, research and application in industry. The acquired knowledge should be able to assist the students in the microelectronics industry and at scientific institutions to become self-employed, in particular in the Research and development, production and product development.
Syllabus
In the course Semiconductor Electronics, we will consider elementary physical processes in the semiconductor and the properties of the main semiconductor devices, in perticular MOS and MOSFET devices. The exercises include practical calculation exercises as a supplement to the rather theoretical lecture.
Examination Style: K2
Media: Presentations placed online on Moodle
Textbook
- Solid State Electronic Devices by Ben Streetman and Sanjay Banerjee, Prentice Hall
- Semiconductor Physics and Devices by Donald Neamen, McGraw-Hill, Inc. New York, NY, USA
- Semiconductor Devices, K. Kano, Prentice Hall
- Physics of Semiconductor Devices, S.M. Sze and K.K. Ng, Wiley