Chair of Power Electronics

M.Sc. / B.Sc. Thesis

M.Sc. / B.Sc. Thesis Catalogue has been uploaded in OpenOlat.

Please use this Link to check the catalogue.

If you have any question about the thesis topics, please contact Jun-Hyung Jung (jj@tf.uni-kiel.de)

 

Grid (Dr.-Ing. Marius Langwasser)

  • Medium Voltage DC applications
  • New components for MV and HV grid

 

Reliability (Dr.-Ing. Yoann Pascal)

  •  Lifetime analysis
  •  Reliability-driven control
  • Thermal management (design, simulation, characterisation)
  • Thermal observers and estimators
  • Digital twinning

 

Control (Dr.-Ing. Sante Pugliese)   

  • Modeling and Control of Grid-Tied Converters
  • Stability and Accuracy Analysis in P-HIL
  • Control of Electric drives

 

Multilevel Converters (Dr.-Ing. Jun-Hyung Jung)

  • New Topologies, Designs and Modulation techniques 
  • Control strategies
  • Fault diagnosis and tolerance control

 

DC-DC Converters (M.Sc. Thiago Pereira)

  • Topologies - Concept, Design and Implementation
  • Modulation and Control
  • Fault-Tolerance Strategies
  • Reliability

 

Components (Dr.-Ing. Yoann Pascal)

  • Planar magnetics
  • Low parasitic transformers
  • Wide-bandgap devices (GaN, SiC)
  • Low parasitic layout & characterisation
  • High current power module
  • Sensor integration

 

Batteries (Dr.-Ing. Hamzeh Beiranvand)

  • Battery Parameter Estimation (SOC, SOH, etc)
  • Battery Management Systems (Cell balancing)
  • Thermal Modeling Analysis
  • Battery Experimental Characterization
  • Electrochemical Modeling and Simulation
  • Battery System Safety
  • Cell, Module and Pack 

 

Machine Learning for Power Electronics Converters (Dr.-Ing. Jun-Hyung Jung)

  • Reinforcement Learning (RL), one of the classes in Machine Learning, based research works
  • RL to Improve performance applications above (Modulation, Control and Design)
Research

  • Our research is focused on the design of high efficient and reliable PWM-based power converter architectures (single-cell, multi-cell, multilevel), their modelling and control to exploit commercial as well as new power semiconductor devices with minimum over design.
    We develop controllers for electric drives and we are particularly skilled in the integration of renewable energy systems into the electric grid.
    Please discover our expertise looking to our recent projects.

    HEART - The Highly Efficient And Reliable smart Transformer
    Further Research Projects

Location