| Title: | GaN for Advanced Power Applications (GaN4AP) |
| Laboratory: | Crystal Growth Laboratory (NL-3) |
| Call/Programme name: | H2020-EU.2.1.1. - INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT) |
| Project number: | 101007310 |
| Implementation date: | 01.06.2021 31.08.2025 |
| Implementing entity: | GaN4AP Consortium |
| Total funding granted: | 15 030 619,61 EUR |
| Funding for the entity: | 584 675,00 EUR |
| Funding institution: | ECSEL JU |
Project description
The global demand for electricity has significantly grown over the last
decades, and a further 57% increase is expected within 2050. Hence,
efficient power conversion systems have become the heart of the
worldwide efforts for energy transition and a green economy, since they
can minimize losses and save energy, contributing to a reduction in the
emission of CO2. Wide band gap semiconductors, such as Gallium Nitride (GaN),
have outstanding properties enabling system designers to operate them
at higher voltages, temperatures, and switching frequencies, with larger
efficiency gains with respect to the traditional Silicon devices.
Hence, a pervasive use of GaN electronics will open wide the road to the
development of close-to-zero-loss conversion systems.
In this scenario, the three-year European project GaN4AP (Gallium Nitride for Advanced Power Applications), funded in the framework of the EU call H2020-ECSEL-2020-1-IA, was launched in June 2021 by the former ECSEL JU, now KDT-JU, the Public-Private Partnership keeping Europe at the forefront of technology development.
GaN4AP links private companies, universities, and public research
institutes working in the field of GaN materials, devices, and related
applications. The Consortium is composed of 36 members from 6 different European countries.
The GaN4AP project has the ambitious target of making GaN-based electronics one of the main components in a large spectrum of power converter systems,
with the possibility of drastically cutting energy losses in power
electronic systems, while ensuring high-frequency and higher power
density operation. Thank to this joint effort a large variety of
applications will benefit from a boost in performance, without
sacrificing the system size and cost.
To achieve this goal, GaN4AP will push the boundaries of GaN-based
technology by studying:
- Power conversion systems based on state-of-the-art GaN-based HEMTs
- Novel AlScN materials for high-current and high-power HEMTs
- New generation of vertical power devices based on bulk GaN
- Intelligent and integrated GaN power converters solutions for e-Mobility
A large reliability and robustness assessment
at system level will also be carried out to demonstrate the
applicability of these systems in the automotive and industrial sectors.
The development of new device technologies and innovative power circuit
topologies within GaN4AP will be a crucial factor to enhance the competitiveness of EU industries in the field of power electronics at a worldwide level.
Please visit our project webpage for more informations: https://www.gan4ap-project.org/