ELT10140 – Electric Drive Systems

Module
Electric Drive Systems
Electric Drive Systems
Module number
ELT10140
Version: 1
Faculty
Electrical Engineering
Level
Master
Duration
1 Semester
Semester
Summer semester
Module supervisor

Prof. Dr. Johann Zitzelsberger
Johann.Zitzelsberger(at)fh-zwickau.de

Lecturer(s)

Prof. Dr. Johann Zitzelsberger
Johann.Zitzelsberger(at)fh-zwickau.de
Lecturer in: "Electric Drive Systems"

Laboringenieure Ringo Lehmann

Lecturer in: "Electric Drive Systems"

Course language(s)

English
in "Electric Drive Systems"

ECTS credits

5.00 credits

Workload

150 hours

Courses

4.00 SCH (2.00 SCH Internship | 2.00 SCH Lecture with integrated exercise / seminar-lecture)

Self-study time

90.00 hours
30.00 hours Examination preparation - Electric Drive Systems
30.00 hours Projekt(e) - Electric Drive Systems
30.00 hours Beleg und Vortragsausarbeitung - Electric Drive Systems

Pre-examination(s)

Beleg und Präsentation
in "Electric Drive Systems"

Examination(s)

mündliche Prüfungsleistung
Module examination | Examination time: 30 min | Weighting: 100% | wird in englischer Sprache abgenommen
in "Electric Drive Systems"

Media type
No information
Instruction content/structure

The module ELT10140 "Electric Drive Systems" provides an overview of the components of modern electric drive systems and the associated research topics in this area. It focuses on the particularly relevant areas of topology, digitalization and multi-modal integration.

The module is subdivided in the following main topics:

  • Structure and components of electric drive systems
  • Sensor and control technologies in electric drive systems
  • ICT in electric drive systems
  • Modelling of electric drive systems
  • Safety and security aspects of electric drive systems
Qualification objectives

After completing the module, students can

  • name and explain topologies of modern electric drive systems
  • design and document electric drive systems
  • classify and use dedicated simulation tools
  • organize and evaluate hazard and risk analyses
  • generate and validate scientific questions related to electric drive systems

by applying their theoretical knowledge both technologically and methodically to a practical project and documenting the results in a scientific manner. Thus, the students obtain the skills to initiate and scientifically support technological innovations in the drive-related R&D area.

Special admission requirements

keine

Recommended prerequisites
No information
Continuation options
keine Angabe
Literature

References to basic or specialized literature can be found in the module materials.

As course materials a script and several presentations will be provided digitally.

Notes
No information
Assignment to curriculum
No information