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O.F.J. Krugers Dagneaux
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Design of a high voltage pulse power supply
A study on high voltage transformers
Bachelor thesis
(2025)
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O.F.J. Krugers Dagneaux, Matteo Corradetti, M. Ghaffarian Niasar, H.W. van Zeijl, L.F.A. Wymenga, J. van Turnhout
This report covers the design of a high voltage power supply that is designed for seed disinfection applications using plasma activated water (PAW). The goal is to have a safe and reliable pulse power supply that can be used to power a Dielectric Barrier Discharge (DBD) load. Multiple setups were designed and analyzed. Different transformers were designed and compared with differing core dimensions, inner radius, number of windings and type of winding. Furthermore, a bipolar driver was built and tested. The results demonstrate that the current design is a solid foundation for small-scale plasma-activated water generation and that it can be scaled with a segmented setup consisting of multiple smaller loads. Future iterations should focus on improving thermal dissipation, switching efficiency, and transformer insulation.
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This report covers the design of a high voltage power supply that is designed for seed disinfection applications using plasma activated water (PAW). The goal is to have a safe and reliable pulse power supply that can be used to power a Dielectric Barrier Discharge (DBD) load. Multiple setups were designed and analyzed. Different transformers were designed and compared with differing core dimensions, inner radius, number of windings and type of winding. Furthermore, a bipolar driver was built and tested. The results demonstrate that the current design is a solid foundation for small-scale plasma-activated water generation and that it can be scaled with a segmented setup consisting of multiple smaller loads. Future iterations should focus on improving thermal dissipation, switching efficiency, and transformer insulation.