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- Eindhoven University of Technology
- Eindhoven University of Technology (TU/e)
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layout selection after an exhaustive search, which becomes suboptimal, and even infeasible for a large number of antennas. Besides, the electromagnetic (EM) effects, such as mutual coupling, are ignored in
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Electronics, Electromagnetic Compatibility, Energy Access, Smart Grids, Power Electronics Technology, and Power and Energy Measurement Systems. It poses excellent laboratory facilities for performing advanced
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mechanisms; • electromagnetic system modelling and simulation; • multiphysics modelling and simulation; • ball bearing loading/strength and stiffness analysis; • test data acquisition and post-processing
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for a large number of antennas. Besides, the electromagnetic (EM) effects, such as mutual coupling, are ignored in the system development phase, which causes performance degradation (degree of arrival
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, the faculty has approximately 1200 Bachelor and Master students and more than 300 PhD students. The vacancy is part of the research groups "Integrated Circuits (IC)" and 'Electromagnetics (EM)' in the EE
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of VFRMs using various control algorithms. The work will demand the following affinities: Multi-domain modeling of electrical machines, including electromagnetic, thermal, and structural properties, Coupling
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affinities: Multi-domain modeling of electrical machines, including electromagnetic, thermal, and structural properties, Coupling of nonlinear material properties in the simulation models, Electrical machine
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pulse source, optimizing energy efficiency of the source, studying the interaction between the pulse source and the plasma, countering electromagnetic interference and many more, all the while working in
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the plasma, countering electromagnetic interference and many more, all the while working in a state-of-the-art high-voltage lab with the newest equipment. The total TU/e executing project team consists
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techniques that you combine with a state-of-the-art electromagnetic solver, and you will show how these can be used to find optimal, sensitive and robust designs, within the constraints on material and