Electrical energy and professions on electrical mobility and storage systems will play a vital role in facing common future technology challenges. As a result, a fast growing industry is in need of specialists and experts in the field of Technology in all kind of different systems focussing Electrical Energy Transformations. A new Master Degree Program has been created to address these needs: “Electrical Energy & Mobile Systems” is the only applied science course in electrical energy & mobility systems for applied research and development professions in technology engineering.
“Electrical Energy & Mobile Systems” prepares students for the upcoming challenges of future industry requirements. Technologies like Electrical Traction and Electrical Powertrain are already game-changing aspects of mobility that various manufactorers are just beginning to discover. Students get to experience a wide variety of current technical developments in an ever-changing, technology-driven world. This hands-on, practical degree program enables students to discover emerging areas: Electrical Drives & eMachines, Power Electronics & Power Control or Energy & Alternative Co-Generations will be thoroughly discussed during the course of the program.
In order to be prepared for the multitude of technical requirements future experts in Electrical Energy & Mobile Systems need to master, the program focuses on a range of important aspects of Electromobility. The program’s areas of expertise include Storage Units – „Battery“ Technology as well as Monitoring and Mobility Logistics. Equipped with this knowledge graduates are in high demand on the job market. They qualify for activities in private sector businesses as well as research institutions. “Electrical Energy & Mobility Systems” graduates are able to understand, develop and modify complex technical systems in the fields of electric power train development, drive control, electrical machines, mobile power electronics, battery technology, power electronics, alternative energy systems and mobility concepts. To support those careers, the program offers additional insights into Academic Competence Skills and Science Engineering.
Additional in-depth theoretical input is being provided during the course of the degree. The first semester, well combined with the Master degree program Biomimetics in Energy Systems, is followed by two semesters of specialisation on electrical power & drive systems, power electronics, mobile energy storage, energy systems, automotive controls, mobility systems, and automotive logistics. In the fourth semester the Master thesis will be written in conjunction with a work placement. On completing the final examination after four semesters, students are awarded the Master of Science in Engineering, MSc.
In addition to the formal requirements for admission, applicants to the Master’s program in Electrical Energy & Mobility Systems should:
- hold a degree of higher education (minimum 3-year Bachelor’s program) in the field of Electrical Engineering, Systems Engineering and Electronics
- provide excellent knowledge of English language
- demonstrate strengths in the following areas:
- creativity
- enjoyment of innovative developments
Graduates of the master degree course Electrical Energy & Mobility Systems are able to:
- analyze and evaluate modern, energy-technical systems in their complex structure and
- analyze the future challenges in the energy technology sector, understand modern and economically efficient energy conversion and distribution systems and modify them accordingly the system concept,
- analyze and regulate industrial, technical systems (processes),
- develop electrochemical storage systems,
- design and construe alternative energy systems,
- perform test procedures for electrical energy storage.
Current courses - EEMS - Electrical Energy & Mobility Systems
| Lecture | Type | SPPS | ECTS-Credits | Course number |
|---|---|---|---|---|
| Advanced Electrical Engineering | ILV | 3,0 | 4,0 | VEEMS-2.04 |
| Alternative Concepts | ILV | 2,0 | 3,0 | VEEMS-2.08 |
| Battery Lab | LB | 1,5 | 3,0 | VEEMS-2.03 |
| Battery Technologies | SE | 1,5 | 2,0 | VEEMS-2.01 |
| Electrical Machines | ILV | 2,0 | 3,0 | VEEMS-2.10 |
| Non-Renewable Energy Systems | ILV | 1,5 | 2,0 | VEEMS-2.06 |
| Power Electronic Systems | ILV | 2,0 | 3,0 | VEEMS-2.05 |
| Power Train and Traction | ILV | 2,5 | 4,0 | VEEMS-2.09 |
| Renewable Energy Systems | ILV | 1,5 | 2,0 | VEEMS-2.07 |
| Specialisation Lab in Science Engineering | SE | 2,0 | 2,0 | VEEMS-2.11 |
| Storage Systems | ILV | 1,5 | 2,0 | VEEMS-2.02 |
| Lecture | Type | SPPS | ECTS-Credits | Course number |
|---|---|---|---|---|
| Master Exam | DP | 3,0 | 3,0 | VEEMS-4.03 |
| Master Thesis | MT | 0,0 | 25,0 | VEEMS-4.01 |
| Master Thesis - Seminar | SE | 2,0 | 2,0 | VEEMS-4.02 |
| Lecture | Type | SPPS | ECTS-Credits | Course number |
|---|---|---|---|---|
| Academic Competence Skills | ILV | 1,5 | 1,5 | VEEMS-1.13 |
| Control Systems | ILV | 2,5 | 3,5 | VEEMS-1.10 |
| Control Systems Lab | LB | 2,0 | 3,0 | VEEMS-1.11 |
| Electrical Engineering | ILV | 1,5 | 2,0 | VEEMS-1.02 |
| Electrochemistry | ILV | 1,5 | 2,5 | VEEMS-1.01 |
| Experimental Lab in Science Engineering | LB | 2,5 | 2,5 | VEEMS-1.12 |
| Fluid Dynamics | ILV | 1,5 | 2,5 | VEEMS-1.09 |
| Industrial Data Processing | SE | 1,5 | 2,0 | VEEMS-1.06 |
| Mathematical Methods and Modelling | ILV | 3,0 | 4,5 | VEEMS-1.04 |
| Mechanical Dynamics | ILV | 1,5 | 2,0 | VEEMS-1.07 |
| Mechanical Engineering | ILV | 1,5 | 2,0 | VEEMS-1.03 |
| Thermodynamics | ILV | 1,5 | 2,0 | VEEMS-1.08 |
| Lecture | Type | SPPS | ECTS-Credits | Course number |
|---|---|---|---|---|
| Automotive Safety | ILV | 1,5 | 2,5 | VEEMS-3.06 |
| Electrical Drive and Drive Control | ILV | 2,0 | 2,0 | VEEMS-3.02 |
| Electrical Grids and Distribution | ILV | 2,0 | 3,0 | VEEMS-3.07 |
| Energy Automation | ILV | 1,5 | 2,0 | VEEMS-3.09 |
| Geoinformation Systems | ILV | 1,0 | 1,5 | VEEMS-3.04 |
| GUI and Usability | ILV | 1,5 | 2,0 | VEEMS-3.10 |
| Measurements and Monitoring | ILV | 1,5 | 2,5 | VEEMS-3.08 |
| Mobile Information Systems | ILV | 2,5 | 3,5 | VEEMS-3.05 |
| Mobility Concepts | ILV | 2,0 | 3,0 | VEEMS-3.11 |
| Mobility Concepts Lab | LB | 1,5 | 2,5 | VEEMS-3.12 |
| Motion Control | ILV | 1,0 | 2,0 | VEEMS-3.01 |
| Power Train Simulation | ILV | 2,0 | 3,5 | VEEMS-3.03 |
| Lecture | Type | SPPS | ECTS-Credits | Course number |
|---|---|---|---|---|
| Advanced Electrical Engineering | ILV | 3,0 | 4,0 | VEEMS-2.04 |
| Alternative Concepts | ILV | 2,0 | 3,0 | VEEMS-2.08 |
| Battery Lab | LB | 1,5 | 3,0 | VEEMS-2.03 |
| Battery Technologies | SE | 1,5 | 2,0 | VEEMS-2.01 |
| Electrical Machines | ILV | 2,0 | 3,0 | VEEMS-2.10 |
| Non-Renewable Energy Systems | ILV | 1,5 | 2,0 | VEEMS-2.06 |
| Power Electronic Systems | ILV | 2,0 | 3,0 | VEEMS-2.05 |
| Power Train and Traction | ILV | 2,5 | 4,0 | VEEMS-2.09 |
| Renewable Energy Systems | ILV | 1,5 | 2,0 | VEEMS-2.07 |
| Specialisation Lab in Science Engineering | SE | 2,0 | 2,0 | VEEMS-2.11 |
| Storage Systems | ILV | 1,5 | 2,0 | VEEMS-2.02 |
| Lecture | Type | SPPS | ECTS-Credits | Course number |
|---|---|---|---|---|
| Master Exam | DP | 3,0 | 3,0 | VEEMS-4.03 |
| Master Thesis | MT | 0,0 | 25,0 | VEEMS-4.01 |
| Master Thesis - Seminar | SE | 2,0 | 2,0 | VEEMS-4.02 |
| Lecture | Type | SPPS | ECTS-Credits | Course number |
|---|---|---|---|---|
| Academic Competence Skills | ILV | 1,5 | 1,5 | VEEMS-1.13 |
| Control Systems | ILV | 2,5 | 3,5 | VEEMS-1.10 |
| Control Systems Lab | LB | 2,0 | 3,0 | VEEMS-1.11 |
| Electrical Engineering | ILV | 1,5 | 2,0 | VEEMS-1.02 |
| Electrochemistry | ILV | 1,5 | 2,5 | VEEMS-1.01 |
| Experimental Lab in Science Engineering | LB | 2,5 | 2,5 | VEEMS-1.12 |
| Fluid Dynamics | ILV | 1,5 | 2,5 | VEEMS-1.09 |
| Industrial Data Processing | SE | 1,5 | 2,0 | VEEMS-1.06 |
| Mathematical Methods and Modelling | ILV | 3,0 | 4,5 | VEEMS-1.04 |
| Mechanical Dynamics | ILV | 1,5 | 2,0 | VEEMS-1.07 |
| Mechanical Engineering | ILV | 1,5 | 2,0 | VEEMS-1.03 |
| Thermodynamics | ILV | 1,5 | 2,0 | VEEMS-1.08 |
| Lecture | Type | SPPS | ECTS-Credits | Course number |
|---|---|---|---|---|
| Automotive Safety | ILV | 1,5 | 2,5 | VEEMS-3.06 |
| Electrical Drive and Drive Control | ILV | 2,0 | 2,0 | VEEMS-3.02 |
| Electrical Grids and Distribution | ILV | 2,0 | 3,0 | VEEMS-3.07 |
| Energy Automation | ILV | 1,5 | 2,0 | VEEMS-3.09 |
| Geoinformation Systems | ILV | 1,0 | 1,5 | VEEMS-3.04 |
| GUI and Usability | ILV | 1,5 | 2,0 | VEEMS-3.10 |
| Measurements and Monitoring | ILV | 1,5 | 2,5 | VEEMS-3.08 |
| Mobile Information Systems | ILV | 2,5 | 3,5 | VEEMS-3.05 |
| Mobility Concepts | ILV | 2,0 | 3,0 | VEEMS-3.11 |
| Mobility Concepts Lab | LB | 1,5 | 2,5 | VEEMS-3.12 |
| Motion Control | ILV | 1,0 | 2,0 | VEEMS-3.01 |
| Power Train Simulation | ILV | 2,0 | 3,5 | VEEMS-3.03 |
Students acquire detailed knowledge of electrical power & drive systems, power electronucs, mobile energy storage, energy systems, automotive controls, mobility systems and automotive logistics. These qualifications allow graduates to take up leading positions in reserach and development in a variety of fields.
The successful completion of the master program Electrical Energy & Mobility Systems in turn qualifies the graduate to undertake a doctorate according to FHStG [Fachhochschul Studies Act] § 6(4).
Faculty and Staff - EEMS - Electrical Energy & Mobility Systems
FH-Prof. Dipl.-Ing.
Winfried Egger
Mag.a
Elizabeth Maggauer-Hoffmann
Carina Jellitsch
DI
Christoph Uran, BSc
Alexander Elbe, BSc MSc
Marius Laux, BSc
Stephan Mark Thaler, BSc MSc MSc
DI
Christoph Aste, MSc.
Dipl.-Ing. Dr. techn.
Bernd Eichberger
Dr.
Sylvicley Figueira da Silva
Mag.a Dr.in
Magdalena Forster
Dipl.-Ing.
Erwin Fugger, MSc
Mag. art.
Bernhard Grossegger
DI
Simon Grünberger, MSc
DI Dr. techn.
Markus Heinrici
Dipl.-Ing.
Reinhard Ingruber
Dipl.-Ing.
Rafael Janski, BSc
DI (FH)
Severin Kampl, MSc
DI
Georg Schmeja
Dr.
Ingo Simonis
Dipl.-Ing.
Erwin Smole
DI Dr.
Andreas Sumper
Stefan Troger, BSc MSc
Campus
Campus Villach
Europastraße 4
9524 Villach, Austria
+43 5 90500 7700
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