
Detailed information 
Original study plan 
Bachelor's programme Electronics and Information Technology 2022W 
Objectives 
Students have developed a fundamental understanding on working principls for semiconductor devices (diodes, bipolar and field effect transtors, operational amplifiers) and understanding of device behavior and ability to work with the associated equations and characteristics, ability to design fundamental circuits.
The level of mathematical modeling and analysis of the mentioned topics is similar to that in the textbooks Göbel, Einführung in die Halbleiterschaltungstechnik, Springer 2014 and Hartl et al, Elektronische Schaltungstechnik, Pearson 2008

Subject 
 physical foundations of semiconductors
 diodes and bipolar transistors
 fundamental circuits (constant current source, current mirror, constant voltage source)
 differential amplifiers and operational amplifiers
 noise in transistors
 large signal behavior
 oscillators
 cascaded amplifiers
 bipolar logic circuits
 field effect transisstors (function and characteristics, fundamental circuits, logic circuits)

Criteria for evaluation 
Written exam including theory and design problems, subesequently oral exam (if written exam above entry level), final grade based on both exams.

Methods 
Lecture with handouts/sheets

Language 
German 
Study material 
Presentation sheets and lecture notes
Göbel, Einführung in die Halbleiterschaltungstechnik, Springer 2014
Hartl et al, Elektronische Schaltungstechnik, Pearson 2008

Changing subject? 
No 
Corresponding lecture 
^{(*)}MEBPDVOHLST: VO Halbleiterschaltungstechnik (3 ECTS)

