E025 – Electrical Engineering Fundamentals 2

Module
Electrical Engineering Fundamentals 2
Electrical Engineering Fundamentals 2
Module number
E025
Version: 2
Faculty
Electrical Engineering
Level
Bachelor/Diploma
Duration
1 Semester
Semester
Summer semester
Module supervisor

Prof. Dr.-Ing. Thomas Schuhmann
thomas.schuhmann(at)htw-dresden.de

Lecturer(s)

Prof. Dr.-Ing. Ralf Collmann
ralf.collmann(at)htw-dresden.de
Lecturer in: "Electrical Engineering Fundamentals 2"

Prof. Dr.-Ing. Gudrun Flach
gudrun.flach(at)htw-dresden.de
Lecturer in: "Electrical Engineering Fundamentals 2"

Prof. Dr.-Ing. Thomas Schuhmann
thomas.schuhmann(at)htw-dresden.de
Lecturer in: "Electrical Engineering Fundamentals 2"

Course language(s)

English
in "Electrical Engineering Fundamentals 2"

ECTS credits

5.00 credits

Workload

150 hours

Courses

5.00 SCH (2.00 SCH Lecture | 2.00 SCH Seminar | 1.00 SCH Internship)

Self-study time

75.00 hours

Pre-examination(s)
None
Examination(s)

Written examination
Examination time: 120 min | Weighting: 100% | tested in English language
in "Electrical Engineering Fundamentals 2"

Alternative examination - Practical laboratory course
Weighting: 0% | not graded | tested in English language
in "Electrical Engineering Fundamentals 2"

Form of teaching
  • lecture
  • tutorial
  • practical courses in the Electrical Engineering Laboratory
Media type
  • lectures based on blackboard and beamer presentation
  • exercise booklet for tutorials
  • lecture notes
  • instructions for practical courses
Instruction content/structure
  • networks at varying frequency (25 %)
  • specific alternating current circuits (25 %)
  • transformer (15 %)
  • three-phase systems (20 %)
  • transient processes (15 %)
Qualification objectives

Knowledge:

  • function of electrical networks
  • locus plots
  • Bode diagram
  • behavior of specific AC circuits (low pass, high pass, band pass, oscillating circuits)
  • transformation of resistance and conductance
  • electrical transformer
  • fundamentals of three-phase systems
  • transient phenomena at DC and AC voltage

Skills:

  • expression of network functions
  • delineation of frequency responses
  • calculation of transformer equivalent circuits
  • construction of locus curves and phasor diagrams
  • calculations in three-phase systems
  • analysis of transient phenomena in electric circuits

Competencies:

  • the students are able to describe the behavior of electric circuits at varying frequencies as well as at switch-on and switch-off processes
Social and personal skills
  • analytical and conceptual abilities
  • structured thinking in context
  • purposefulnes
  • interaction in heterogeneous groups
Special admission requirements
No information
Recommended prerequisites
  • Electrical Engineering Fundamentals 1
Continuation options
  • Elektrotechnik 3
Literature
  • standard literature for electrical engineering fundamentals (available at HTW library)
  • A. R. Hambley, Electrical Engineering Principles and Applications, Pearson
  • M. S. Sarma, Introduction to Electrical Engineering, Oxford University Press
  • E. Hughes, Electrical and Electronic Technology, Pearson
  • S. N. Makarov et al., Practical Electrical Engineering, Springer
  • T. L. Floyd, Principles of Electric Circuits, Pearson
  • Harriehausen et al., Moeller Grundlagen der Elektrotechnik, Springer
  • Weißgerber, Elektrotechnik für Ingenieure, Bd. 1-3, Springer
  • Paul et al., Grundlagen der Elektrotechnik und Elektronik
Current teaching resources
  • beamer presentation slides
  • exercise booklet
  • lecture notes
  • practical course instructions
Notes
No information