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Parasitic Capacitance Modelling of Transformers
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Keywords: xxx
Magnetic components,
such as transformers and inductors, are pivotal for
advancing the field of power electronics. Leveraging these components to their
full capability is essential for enabling the optimal use of Wide Bandgap
semiconductor s in power electronics applications
Frenetic, a pioneering startup
based in Madrid & San Francisco with research
office in Zurich , offers comprehensive solutions for magnetics from design to
production, emphasizing the importance of accurate mode l ling.
Currently,
we are seeking motivated students that work on extracting the
parasitic capacitances of transformers and their inclusion in equivalent circuits .
In this work you will develop and impl ement models based on Maxwell’s
equations and a rtific ial i ntelligence . Ultimately, you will design and build
transformers for model verification by measurements and perform FEM
simulations. You will gain hands on experience, merging theory with practice ,
contributing to sign ificant advancements in power electronics.
Magnetic components, such as transformers and inductors, are pivotal for advancing the field of power electronics. Leveraging these components to their full capability is essential for enabling the optimal use of Wide Bandgap semiconductor s in power electronics applications Frenetic, a pioneering startup based in Madrid & San Francisco with research office in Zurich , offers comprehensive solutions for magnetics from design to production, emphasizing the importance of accurate mode l ling. Currently, we are seeking motivated students that work on extracting the parasitic capacitances of transformers and their inclusion in equivalent circuits . In this work you will develop and impl ement models based on Maxwell’s equations and a rtific ial i ntelligence . Ultimately, you will design and build transformers for model verification by measurements and perform FEM simulations. You will gain hands on experience, merging theory with practice , contributing to sign ificant advancements in power electronics.
Dr. Richard Schlesinger, richard.schlesinger@frenetic.ai
Dr. Richard Schlesinger, richard.schlesinger@frenetic.ai
40 % Coding
20 % Laboratory
40 % Theory
40 % Coding 20 % Laboratory 40 % Theory
Interest and knowledge in power electronic systems, Interest in the physics, modelling, and
design of magnetic components, Working language: English/German
Interest and knowledge in power electronic systems, Interest in the physics, modelling, and design of magnetic components, Working language: English/German