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Chair for Power Electronics

 

Prof. Dr. Dr. Oliver Ambacher

Gips-Schüle-Chair for Power Electronics

Oliver Ambacher researches new materials for efficient power electronic systems

            

 

 

Power Electronics

 

    

 

Vision: Halving energy losses in communication and energy conversion systems

 

In order to achieve the necessary progress in power electronics in Germany, the existing physical limits of silicon electronics are being overcome by developing devices from new semiconductor structures.


Functional semiconductor structures based on materials with large band gaps such as scandium aluminum nitride (ScAIN) and gallium nitride (GaN) have excellent electronic properties for future power electronics. Their use for the processing of electronic power devices enables a significant improvement of the electrical properties of e.g. voltage converters and mobile communication.
This starts with improved power density per device and continues with higher switching speeds, higher operating temperatures and lower on-resistance, resulting in lower switching losses and more compact systems.


The market for electronic power systems is currently growing rapidly. The reason for this is increasing automation, digitalization and diversification - especially in the automotive industry and in power engineering. According to estimates by management consultants Roland Berger, the market for electronics alone, which provide power for engine control and enable switching from alternating to direct current, will grow by seven percent annually worldwide until 2020.

 

          
     
          
      

 

 

 

Vita

 

Personal key figures

 

 

Oliver Ambacher received his diploma and doctorate in natural sciences with honors from the Ludwig-Maximilians-University of Munich and the Technical University of Munich in 1989 and 1993, respectively.

In 1993, he obtained a position as a research associate at the Walter Schottky Institute of the Technical University of Munich, where he worked on the growth of gallium nitride and its alloys using molecular beam epitaxy and chemical vapor deposition. In 1995, he focused his group's research on the processing of GaN-based electronic and optical components. He was instrumental in the implementation of the first UV detectors, surface acoustic wave components, microwave amplifiers and sensors, and in the study of polarization-induced effects in GaN-based hetero- and quantum structures. In 1998/99, he received the Alexander von Humboldt Foundation Feodor Lynen Fellowship at Cornell University (USA) to further his work in the field of AlGaN/GaN transistors for high frequency power amplifiers.

After his habilitation in experimental physics in 2000 and his promotion to senior assistant in 2001, he was appointed professor of nanotechnology at Ilmenau University of Technology one year later. In 2002 he was appointed director of the Institute for Solid State Electronics and two years later director of the Center for Micro- and Nanotechnologies. .

From 2007 to 2021, he was director of the Fraunhofer Institute for Applied Solid State Physics. Since October 2007, Oliver Ambacher has been a professor at the Albert-Ludwigs-Universität Freiburg and has been working at the Institute for Sustainable Technical Systems (INATECH) since 2017.

In 2015, he received the Karl Heinz Beckurts Prize for his contributions to the development of highly efficient GaN-based power amplifiers for the latest generation of cellular base stations. In 2021, he was awarded the Rudolph Jaeckel Prize for the development of energy-efficient power electronic devices. In 2022, he received the Lester Eastman Award from the IEEE Electron Device Society for his outstanding achievements in the development of high-performance semiconductor devices.

 

Supervised PhD theses
110
Supervised final theses 60
Publications 1046
Conference contributions 248
Invited talks 9B
Patents 12
Zitate 37464
H-Index 77