Course content
Within the short degree program you will have to follow one year of modules and projects in a specialisation of your choice (EIE or EEET). Besides the basic technical knowledge, you will follow modules in the areas of math, analog and digital electronics and programming, you will work in project teams and learn how to go through a development process. Learning to work in teams, communicate, present, report and demonstrate are essential elements here and you will learn to put the acquired knowledge into practice. The second year is dependent on your background and experience and can include an internship period or a multidisciplinary project semester and a graduation semester.
- Contact hours 18-24 hours
per week
- Self-study 18-24 hours
per week
- Extra costs € 300
per year for books and other study materials
- Progression rate 71%
proceed to the second year of study
THE FIRST YEARElectrical and Electronics Engineering has two specialisations:
-
Electrical Information Engineering (EIE)
You will learn all about microelectronics and the link to the ‘real world’ with sensors. You will also learn techniques for making chips work properly, how to program chips, and about wireless communication. - Electrical Engineering for Energy Transition (EEET)
How do you make electrical energy available to people as sustainably as possible? This includes the smart use of wind turbines and solar farms as well as the range of the electric car or solutions in Industrial Automation topics.
Will you choose EIE or EEET?
If you choose the EIE specialisation in the second year, you will work together with Applied Computer Science students. For example, you will work on a wireless heart rate monitor. In the EEET specialisation you will work on an industrial automation project and on the latest developments in the field, such as sustainable energy transistion systems, direct current networks, and sustainable generation. This is done in collaboration with companies.
First year courses
- Control engineering
- Object-oriented programming
- Electromagnetic compatibility (EMC)
- Microcontrollers and programmable hardware (FPGA & HDL)
- Data networks and telecommunications
- Analogue and power electronics
- Personal development
- Projects: simulation and implementation, electronic system
- Control engineering
- Electromagnetic compatibility (EMC)
- Power electronics
- Sustainable energy supply: smart grids, power quality, generation, transport, and distribution
- Electric drives
- Personal development
- Projects: simulation and implementation, industrial automation system
More about the study structure
Would you like more information about the content, courses and tests of this program within the various years? Click on the button and view this training in the Saxion Course Catalog for detailed information.
Open Course CatalogueTHE SECOND YEAR
The second year is dependent on your background and experience and can include an internship period or a multidisciplinary project semester and a graduation semester.
- Control engineering
- Object-oriented programming
- Electromagnetic compatibility (EMC)
- Microcontrollers and programmable hardware (FPGA & HDL)
- Data networks and telecommunications
- Analogue and power electronics
- Personal development
- Projects: simulation and implementation, electronic system
- Control engineering
- Electromagnetic compatibility (EMC)
- Power electronics
- Sustainable energy supply: smart grids, power quality, generation, transport, and distribution
- Electric drives
- Personal development
- Projects: simulation and implementation, industrial automation system
Degree: Bachelor of Science (BSc)
After completing the programme you may use the BSc degree title. You can work for various companies and choose a profession as a technician, developer, or researcher.