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职业迁徙
个人简介
He is a patent holder and has authored numerous technical publications.
My PhD research focused on high frequency power conversion techniques for isolated and non-isolated power electronics applications ranging from 10 to 600 watts with gallium nitride transistors. High frequency integrated non-isolated DC/DC modules were designed with advanced packaging techniques to minimize module parasitics, manage thermal limitations, and increase the level of integration of the active and passive components into the module. For isolated applications, advanced resonant topologies utilizing circuit parasitics to achieve soft switching were applied. This allowed for an increase in switching frequency and reduction in size of the passive components, improving converter power density. The impact of frequency on transformer size and the limitations of traditional transformer design in high frequency applications were addressed. A novel integrated matrix transformer design was proposed to improve high frequency module performance by reducing winding resistance, leakage inductance, and the required transformer magnetic material.
My MS research focused on soft switching topologies for high frequency, high current computer power supplies. The impact of high frequency transformer design on circuit performance was considered and an improved power transformer structure was proposed to improve converter performance by minimizing leakage inductance and winding resistance of the power transformer.
My PhD research focused on high frequency power conversion techniques for isolated and non-isolated power electronics applications ranging from 10 to 600 watts with gallium nitride transistors. High frequency integrated non-isolated DC/DC modules were designed with advanced packaging techniques to minimize module parasitics, manage thermal limitations, and increase the level of integration of the active and passive components into the module. For isolated applications, advanced resonant topologies utilizing circuit parasitics to achieve soft switching were applied. This allowed for an increase in switching frequency and reduction in size of the passive components, improving converter power density. The impact of frequency on transformer size and the limitations of traditional transformer design in high frequency applications were addressed. A novel integrated matrix transformer design was proposed to improve high frequency module performance by reducing winding resistance, leakage inductance, and the required transformer magnetic material.
My MS research focused on soft switching topologies for high frequency, high current computer power supplies. The impact of high frequency transformer design on circuit performance was considered and an improved power transformer structure was proposed to improve converter performance by minimizing leakage inductance and winding resistance of the power transformer.
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PCIM Europe 2019; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Managementpp.1-8, (2019)
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semanticscholar(2019)
PCIM Europe 2018; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Managementpp.1-7, (2018)
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PCIM Europe 2018; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Managementpp.1-8, (2018)
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CIPS 2018; 10th International Conference on Integrated Power Electronics Systemspp.1-6, (2018)
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