E026 – Electronics 1

Module
Electronics 1
Elektronik 1
Module number
E026
Version: 1
Faculty
Electrical Engineering
Level
Bachelor/Diploma
Duration
1 Semester
Semester
Summer semester
Module supervisor

Prof. Dr.-Ing. habil. Lutz Göhler
lutz.goehler(at)htw-dresden.de
Lecturer(s)

Prof. Dr.-Ing. habil. Lutz Göhler
lutz.goehler(at)htw-dresden.de
Course language(s)

German - 50.00%
in "Elektronik 1"

English - 50.00%
in "Elektronik 1"
ECTS credits

6.00 credits

Workload

180 hours

Courses

5.00 SCH (3.00 SCH Lecture | 1.00 SCH Seminar | 1.00 SCH Internship)
Self-study time

105.00 hours

Pre-examination(s)
None
Examination(s)

Alternative examination - Practical laboratory course
Weighting: 0% | not graded
in "Elektronik 1"

Written examination
Examination time: 90 min | Weighting: 100%
in "Elektronik 1"
Form of teaching

Lectures, exercises, laboratory course
Media type
No information
Instruction content/structure
  • Basics of semiconductor physics
  • Structure and function of semiconductor devices (diodes, transistors)
  • Characteristics of typical semiconductor devices
  • Large and small signal equivalent circuits
  • Design methods
  • Diode circuits (rectification, stabilisation with Zener diodes etc.)
  • Basic amplifier circuits (principle of operation, biasing, negative feedback, equivalent circuit, frequency response)
  • Power amplifiers
  • Introduction into circuit simulation
Qualification objectives

Knowledge:

  • The students know typical electronic devices and their properties.
  • The students know typical analog circuits and their properties.

Skills:

  • The students are able to develop and size electronic circuits.
Social and personal skills

Ability to work in a team (processing of the laboratory course in groups of 2 to 3 students)
Special admission requirements
No information
Recommended prerequisites

Basic knowledge in physics and math, Electrical Engineering 1
Continuation options
No information
Literature

Tille/Schmitt-Landsiedel: Mikroelektronik

Reisch: Elektronische Bauelemente

Tietze/Schenk: Halbleiterschaltungstechnik

Koß/Reinhold: Lehr- und Übungsbuch Elektronik

Heinemann: PSPICE - Einführung in die Elektroniksimulation

Brocrad/Engelhardt: Simulation in LTSpice IV

Siegl/Zocher: Schaltungstechnik

Sedra/Smith: Microelectronic Circuits

Baker: CMOS - Circuit Design, Layout, and Simulation

Johns/Martin: Analog Integrated Circuit Design
Current teaching resources

Slides, exercises and instructions for the lab courses available for download
Notes

 
Link to course/learning resources in OPAL
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