Researcher Profile

Markus Makoschitz DI Dr.

 Makoschitz DI Dr.

Function

Scientist

Center

Energy

Competence Unit

Electric Energy Systems

E-Mail

Markus.Makoschitz(at)ait.ac.at

Phone

+43 50550 6317

Address

TECHbase Vienna, Giefinggasse 2, 1210 Vienna

Career

Field: Smart Grids

Main Research: Power Electronics

Experience:

Design and Implementation of Single and Three-Phase Power Electronics Circuits, Power Factor Correction, Power Quality, Power Management, Current/Voltage Control, Power Semiconductor Components, Wide-Bandgap Devices

  • 2011-2012: Intern
    ABB Corporate Research Center / Switzerland
  • 2012-2016: Project Assistant
    Vienna University of Technology / Austria
  • 2016-: Scientist
    AIT Austrian Institute of Technology / Austria
  • 2014: ECCE 2014 Best Paper Award, 3rd Place (IEEE Energy Conversion Congress & Exposition (ECCE))
  • 2014: ECCE 2014 Oral Session Student Winner (IEEE Energy Conversion Congress & Exposition)
  • 2016: APEC 2016 Outstanding Presentation Award
  • 2016: Gerfried-Zeichen Preis (Dissertationspreis der Fakultät für Elektrotechnik und Informationstechnik)

Publications

  • Total Harmonic Distortion Reduction Add-On Unit for Three-Phase Diode Rectifiers
    Author(s): M. Makoschitz, M. Hartmann, H. Ertl
    Journal: IET Journals & Magazines (2016)
  • Control Concepts for Hybrid Rectifiers Utilizing a Flying Converter Cell Active Current Injection Unit
    Author(s): M. Makoschitz, M. Hartmann, H. Ertl
    Journal: IEEE Transaction on Power Electronics (2016)
  • Design and Experimental Verification of a Third Harmonic Injection Rectifier Circuit Using a Flying Converter Cell
    Author(s): M. Hartmann, R. Fehringer, M. Makoschitz, H. Ertl
  • DC Voltage Balancing of Flying Converter Cell Active Rectifier
    Author(s): M. Makoschitz, M. Hartmann, H. Ertl, R. Fehringer
  • Analysis of a Three-Phase Flying Converter Cell Rectifier Operating in Light/No-Load Condition
    Author(s): M. Makoschitz, M. Hartmann, H. Ertl
  • Topology Survey of DC-Side-Enhanced Passive Rectifier Circuits for Low-Harmonic Input Currents and Improved Power Factor
    Author(s): M. Makoschitz, M. Hartmann, H. Ertl
  • A Passive Three-Phase Rectifier Enhanced by a DC-Side High Switching Frequency Add-On SiC-Converter Stage for Unity Power Factor Applications
    Author(s): M. Makoschitz, H. Ertl, M. Hartmann
  • Effects of Unbalanced Mains Voltage Conditions on Three-Phase Hybrid Rectifiers Employing Third Harmonic Injection
    Author(s): M. Makoschitz, M. Hartmann, H. Ertl
  • Hardware Implementation and Characterization of SiC-Based Hybrid Three-Phase Rectifier Employing Third Harmonic Injection
    Author(s): M. Makoschitz, M. Hartmann, H. Ertl
  • Evaluation of a Unidirectional Three-Phase Rectifier Based on the Third Harmonic Injection Concept in Comparison to a VIENNA Rectifier
    Author(s): M. Makoschitz, M. Hartmann, H. Ertl
  • Analysis of a New Third Harmonic Injection Active Rectifier Topology Based on a NPC Three-Level Converter Cell
    Author(s): M. Makoschitz, M. Hartmann, H. Ertl, R. Fehringer

Further Information

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