Laboratory for High Power Electronic SystemsOpen OpportunitiesIn this project, you will compare conventional LCL-filter design methods and analyze the impact of controllers on the design methods. Then, you will investigate a new design method of LCL filters when MPC is applied. - Electrical Engineering
- Master Thesis
| In this project, you will first analyse an implemented quadratic program (QP) solver using Intel high-level-synthesis (HLS) tool and develop an optimization routine to compare the performance considering hardware resource constraints. - Electrical Engineering
- Master Thesis
| In this project, you will search the suitable current measurement methods and design the measurement system for strand current. You will validate your design with simulation tools like FEM. Finally you will implemented and test your design. - Electrical Engineering
- Master Thesis
| In this project, you will implement analytical switching loss models from literature in Matlab, simulate switching losses in LTspice, and compare them to the measurement results with an existing PCB. - Electrical and Electronic Engineering
- Master Thesis, Semester Project
| Development of a software tool which visualises the geometry of a basic switching cell based on geometrical parameters derived by converter optimisation procedures - Electrical Engineering
- Master Thesis, Semester Project
| Development of switching cell mechanical models in the X3D format based on geometrical parameters derived by converter optimisation procedures - Electrical Engineering
- Master Thesis, Semester Project
| In this project, you will extend an analytical SiC MOSFET switching loss model to GaN HEMTs in Matlab, simulate switching losses in LTspice, and compare them to the measurement results with an existing PCB. - Electrical and Electronic Engineering
- Master Thesis, Semester Project
| In this project you will model the 3D geometry of litz wire by a mathematical algorithm. Furthermore, the current density distribution and the eddy current losses should be calculated for different termination strategies and for different litz wire geometries by FEM. The impact of improper terminations should be qualitatively/quantitatively analysed. - Electrical and Electronic Engineering
- Semester Project
| The project focuses on optimizing the compact Marx generator, which charges capacitors in parallel and discharges in series to produce high-voltage pulses. Through FEM simulations, the objective is to design capacitor arrangements that limit the electrical field, mitigating equipment failures, and extracting parasitic elements. - Electrical Engineering
- Master Thesis
| The goal of the project is to develop a system-level design for a particle accelerator. - Electrical Engineering
- Master Thesis, Semester Project
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