Computational Electromagnetic Compatibility (CEMC)

Our research group advances electromagnetic compatibility (EMC) engineering through the development and application of cutting-edge simulation techniques. Recognizing that EMC is a critical enabler in today's increasingly electrified world, we focus on addressing real-world challenges and enhancing the design of robust and reliable systems.

We foster a collaborative research environment, integrating academic rigor with practical applications from industry. Our work explores innovative computational methods to model and optimize complex EMC systems, tackling the challenges posed by modern technologies.

We aim to bridge the gap between theoretical advancements and real-world impact by collaborating with industry experts and focusing on problems with significant practical relevance. Our research seeks to equip the next generation of engineers with the skills and knowledge to excel in the field, fostering a culture of innovation and contributing to the ongoing evolution of EMC engineering.

Own software

  • Pyrit (Finite element solver in Python)

Cooperations and sponsorships

Research Interests (2023)

Yvonne Späck-Leigsnering from the Technical University of Darmstadt and Robert Bosch GmbH is honoured for the development of key technologies for the construction of a future energy distribution system for renewable energies. One concrete example is the availability of reliable, underground extra-high voltage cables.

Lear more

Meet the makers

How can this balancing act between technology and social issues be achieved? How can we inspire young people to contribute to a better future? Yvonne Späck-Leigsnering, Athene Young Investigator at TU Darmstadt, and Myriam Koch, Professor of High-Voltage Equipment and Systems at TU Darmstadt, combine their research approaches and enthusiasm for energy technology problems.

Employees

Photo Name Working area(s) Contact
Research Group Leaders and Readers
Dr.-Ing. Yvonne Späck-LeigsneringComputational Electromagnetic Compatibility
+49 6151 16-24031
S2|17 133
Scientific Staff
Christian Bergfried M.Sc.Electric and thermal stresses in insulation systems of electric machines
+49 6151 16-24028
S2|17 120
Dr.-Ing. Jonas BundschuhFinite-element simulation of homogenized field models for foil windings
+49 6151 16-24022
S2|17 125
Dr.-Ing. Maren Greta Ruppert-SchmidtElectrothermal Simulation of HVDC Cable Joints
+49 6151 16-24022
S2|17 125

Former Employees

  Name Working area(s) Contact
Dr.-Ing. Laura D‘AngeloComputational Magnet Analysis and Dynamics
+49 6151 16-24029
S2|17 142