Students at SDU test the user electronics of the future and green, sustainable technologies

2019-05-28
At the University of Southern Denmark, engineering students are taught electronics and challenged with real-life industrial equipment driven by electric motors and drives manufactured by Nidec.


SDU gives young engineering students an opportunity to be part of developing the green technology of the future in a creative study environment with modern teaching facilities and dedicated teachers.

The use of high-tech technologies in the form of real-life industrial equipment and advanced electronic techniques is an important part of the teaching and education of Denmark’s future electronics specialists.

As part of the teaching projects, the institute and the students have access to several advanced electronic test benches, which gives them a good insight into the handling, testing and research of different combinations of industrial electronic equipment and teaches them to test torque, speed, load, etc. under realistic conditions.




High-tech electric motors
The test benches combine different set-ups of advanced variable speed drives and high-tech electric motors, which have the flexibility to test a wide variety of electronic equipment.

The test benches at the University of Southern Denmark use Nidec Leroy-Somer motor units (servo motors, LSMV and IMfinity induction ranges) and Control Techniques Unidrive M600/M700 drives.




Realistic go-kart test bench
Each semester, the electronic engineering degree programme includes project work on a current topic, for example how to design the electronic controller of an electric go-kart motor.

In the course of the project, the students work with the design of variable speed drives, programming, modulation and simulation of the drives as well as the design of electronic hardware.

In connection with the project, the students have access to a genuine go-kart with an electric motor as well as a corresponding test bench with programmable drives and electric motors.

All in all, the realistic project provides useful knowledge and intuitive understanding of the control of electric motors, which can also be used in connection with variable speed drives for electric cars, robots, etc.