Affiliation:
1. Ecole Supérieure des Techniques Aéronautiques et de Construction Automobile, ESTACA’Lab Paris-Saclay, 12 Avenue Paul Delouvrier, RD10, 78180 Montigny-le-Bretonneux, France
2. Electrical Engineering and Computer Science Department, University of Angers, 49045 Angers, France
Abstract
The lifetime of power electronic systems is the focus of both the academic and industrial worlds. Today, compact systems present high switching frequency and power dissipation density, causing high junction temperatures and strong thermal fluctuations that affect their performance and lifetime. This paper is a review of the existing techniques for the electro-thermal modelling of Mosfet and IGBT devices regarding lifetime estimation. The advantages and disadvantages of the methodologies used to achieve lifetime prediction are discussed, and their benefits are highlighted. All the factors required to predict power electronic device lifetime, including Mosfet and IGBT electrical models, the computation of power losses, thermal models, temperature measurement and management, lifetime models, mission profiles, cycle counting, and damage accumulation, are described and compared.
Reference127 articles.
1. Hu, Z., Zhang, W., and Wu, J. (2019). An Improved Electro-Thermal Model to Estimate the Junction Temperature of IGBT Module. Electronics, 8.
2. Rasool, H., El Baghdadi, M., Rauf, A.M., Zhaksylyk, A., D’hondt, T., Sarrazin, M., and Hegazy, O. (2022). Accurate Electro-Thermal Computational Model Design and Validation for Inverters of Automotive Electric Drivetrain Applications. Appl. Sci., 12.
3. Xu, Y., Ho, C., Ghosh, A., and Muthumuni, D. (2018, January 4–8). A behavioral transient model of IGBT for switching cell power loss estimation in electromagnetic transient simulation. Proceedings of the IEEE Applied Power Electronics Conference and Exposition (APEC) 2018, San Antonio, TX, USA.
4. Implementation of an Electro-Thermal Model for Junction Temperature Estimation in a SiC MOSFET Based DC/DC Converter;Nayak;CPSS Trans. Power Electron. Appl.,2023
5. Morel, C., and Morel, J.-Y. (2024). Impact of Chaos on MOSFET Thermal Stress and Lifetime. Electronics, 13.