Here, you will find an overview of the courses offered by the IEW. After a short introduction text there is a corresponding link to the module in Campus. There, you can find information concerning the location and time of the events. For specific questions regarding a course, please contact us via the respective e-mail address.
- Magnetism and basics of magnetic circuits
- Drive engineering correlations
- Presentation of the types of losses occurring in electrical machines
- Linear and nonlinear magnetic materials and permanent magnets
- Reluctance force and reluctance machine
- Alternating magnetic fields and rotating fields
- Mode of operation, simplified equivalent circuit diagrams, power consideration, and current locus curves of synchronous and asynchronous machines
Contact: em@iew.uni-stuttgart.de
- Rotary field: space vector theory, stator and rotor fixed coordinate system
- Synchronous machine: complete dynamic equivalent circuit diagram, rotor flux oriented model
- Asynchronous machine: complete dynamic equivalent circuit diagram, rotor flux oriented model
- Operation of electrical machines: test bench topologies and components, advanced operating strategyies
Contact: em@iew.uni-stuttgart.de
- Topology of electric machines (DC machine, synchronous machine, asynchronous machine)
- Structure and modeling of electromagnetic circuits
- Windings for electric machines
- Analytical calculation and numerical simulation of electric machines
- Electromagnetic design of electric machines
- Practical part: Design and simulation of a PMSM
Contact: em@iew.uni-stuttgart.de
- Functionality of inductive charging systems
- Coil systems
- Reactive power compensation
- Topologies and converters
- Properties and control strategies
- Security issues
Contact: IL@iew.uni-stuttgart.de
- Energy industry law
- Plant and product-related environmental law
- Calibration law and data protection
- Legal requirements for network expansion
- Public road, traffic and construction law
- Further current topics, if required
see German page
Students learn about the design and function of electronic motors (brushless DC machines).
Introduction to the construction and modeling of electromagnetic circuits, magnetic and electrical circuit diagrams, construction and function of the electronic motor, practical design method for EC motors as well as independent design - and construction of a prototype engine and its commissioning.
For general questions about student theses at IEW
Adrian Schäfer, M.Sc.
Research Associate