79.6

Mark J. Scott

Miami University

Mark J. Scott's research has significantly contributed to the development of condition monitoring techniques for DC-link capacitors in power electronics applications, including transformerless inverters for photovoltaic systems. Their work employs time-frequency analysis and machine learning classification methods to detect anomalies and predict failures. Additionally, Scott's team has explored modeling and evaluation of electromagnetic interference (EMI) from silicon (Si) and silicon carbide (SiC) devices in aerospace machines. They have also designed and evaluated various types of inverters, including dual-mode inverters, boost inverters, and energy storage systems. These studies aim to improve the efficiency and reliability of power conversion systems for renewable energy applications and advanced technologies.

Multilevel ConvertersGaN Power DevicesSwitched-Capacitor CircuitsDC-DC ConvertersVoltage Source InvertersIsolated Bidirectional ConvertersVoltage Boosting TechniquesPower DevicesEMI SuppressionEMC AnalysisGaNWide Bandgap SemiconductorsEMIMedium Voltage DrivesSTEM Education
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The Curators Of The University Of Missouri, Infineon Technologies Austria Ag

Commercial signal 79.8
Scientific signal 77.7
Social signal 80.0
Papers 47
32 Patent-to-paper cites
1,093 Paper cites

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