Course Structure:

Semester 1 Modules:

Electric engineering 1 & practical course

Physics

Programming 1& practical course

Digital Technology & practical course

Mathematics 1Analysis 1

Mathematics 2Linear Algebra

Semester 2 Modules:

Electrical engineering 3 & practical course

Metrology 1& practical course

Machine design

Material Science

Mathematics 3Analysis 2

Semester 3 Modules:

Electrical engineering 3

Electronics

Automotive engineering

Design and Construction & practical course

Circuit Design 1& practical course

Robotics

Semester 4 Modules:

Power electronics

Digital Signal processing

Electric drives

Circuit design 2

Professional English

Semester 5 Modules:

INTERNSHIP

Semester 6 Modules:

Energy Storage

Automotive electronics

Traffic and Telematics

Scientific Project

Microcontroller& practical course

Embedded systems

Semester 7 Modules:

Bachelor-Thesis

Renewable Energies

Control Engineering & practical course

Elective module

Perspective & Job Prospects

People’s need to be mobile is elementary and unabated. As an engineer of electromobility, it is your task to technically implement the idea of environmental protection also in the field of mobility. Rising energy costs, scarcer resources and environmental concerns prompt us to rethink our mobility concepts; new ones are therefore needed! Electric powertrains, autonomous vehicles and smart grids will dramatically transform automotive engineering and traffic in the future. Engineers make use of these technologies in electromobility and the renewable energies to technically improve electric cars inasmuch way that they can be used economically, comprehensively, reliably and safely. This includes the provision of the energy required by exploiting the multiple environmentally friendly sources of green energies.

Language knowledge required

international, bilingual course

English spoken the first four semesters; German spoken the last three starting every summer semester