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Description
Abstract:
Future power electronics systems are bound to be based on the emerging wide band gap devices. Increased temperature robustness, blocking voltage and shorter rise times are the main cause for ongoing trends. Due to the latter, combined with a significant size decrease, content of signals frequency enters GHz range obstructing measurement accuracy and even the possibility of measuring signals without influencing the system. This leads to an unprecedented situation, in which simulation tends to yield higher accuracy and result robustness, than experimental measurements in the RF range. For this reason Digital Twin approach to design seems to be an appropriate response to present challenges, allowing not only for a reduction of prototyping cycles but also providing more detailed and comprehensive data. Furthermore, the generated data can be used for design optimization and automation lowering time-to-market and increasing the robustness of design process even further while providing higher-quality end products.
Funding: PoulDue Jensen Grundfos foundation
Future power electronics systems are bound to be based on the emerging wide band gap devices. Increased temperature robustness, blocking voltage and shorter rise times are the main cause for ongoing trends. Due to the latter, combined with a significant size decrease, content of signals frequency enters GHz range obstructing measurement accuracy and even the possibility of measuring signals without influencing the system. This leads to an unprecedented situation, in which simulation tends to yield higher accuracy and result robustness, than experimental measurements in the RF range. For this reason Digital Twin approach to design seems to be an appropriate response to present challenges, allowing not only for a reduction of prototyping cycles but also providing more detailed and comprehensive data. Furthermore, the generated data can be used for design optimization and automation lowering time-to-market and increasing the robustness of design process even further while providing higher-quality end products.
Funding: PoulDue Jensen Grundfos foundation
| Status | Active |
|---|---|
| Effective start/end date | 01/09/2021 → 31/08/2024 |
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Projects
- 1 Active
-
CoDE: Center of Digitalized Electronics (CoDE)
Munk-Nielsen, S., Jørgensen, A. B., Uhrenfeldt, C., Beczkowski, S. M., Ahmad, F., Meinert, J. D., Kubulus, P. P., Takahashi, M., Sun, Z., Wang, R., Gao, Y., Zäch, M. R. & Steffensen, B.
01/01/2021 → 31/12/2025
Project: Research
Research output
- 2 Article in proceeding
-
An LTSpice - MATLAB Interface for Mitigating Convergence Problems in Circuit Optimization with SPICE
Kubulus, P. P., Jørgensen, A. B., Beczkowski, S. M. & Munk-Nielsen, S., 24 Aug 2022, 2022 IEEE International Workshop on Integrated Power Packaging (IWIPP). Grenoble, France : IEEE, 5 p. 11Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review
Open AccessFile109 Downloads (Pure) -
Automated gate impedance network design for SiC MOSFETs using SPICE solver interfaced with MATLAB environment
Kubulus, P. P., Beczkowski, S. M., Munk-Nielsen, S. & Jørgensen, A. B., Oct 2022, 2022 24th European Conference on Power Electronics and Applications (EPE'22 ECCE Europe). IEEE, 9 p.Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review
Open AccessFile31 Downloads (Pure)