Beitrag in einem Tagungsband
3-D Electromagnetic Modeling and Analysis of Electromagnetic Field Couplings of EMI Filter Capacitors
Details zur Publikation
Autor(inn)en: | Ali, M.; Friebe, J.; Mertens, A. |
Herausgeber: | IEEE |
Verlag: | Institute of Electrical and Electronics Engineers Inc |
Verlagsort / Veröffentlichungsort: | United States |
Publikationsjahr: | 2021 |
Seitenbereich: | 1299-1305 |
Buchtitel: | Proceedings of the Energy Conversion Congress and Exposition - Asia 2021 |
Titel der Buchreihe: | Proceedings of the Energy Conversion Congress and Exposition - Asia ECCE Asia 2021 |
DOI-Link der Erstveröffentlichung: |
Zusammenfassung, Abstract
This paper presents a calculation of self-inductance and mutual couplings between EMI capacitors based on analytical equations and 3D simulation (Finite Element Method (FEM) and Method of Moments (MoM)). The analytical results are validated using numerical results. As an internal structure of a real capacitor is quite complex in 3D simulation a model of a capacitor is based on the same external geometrical properties. The self-inductance and the mutual couplings are calculated as a function of external geometrical properties their orientations and distances between them. The influence of parasitics such as magnetic couplings PCB trace inductances between DM capacitors and ground trace inductances of CM capacitors on the DM and CM attenuation are analyzed using numerical and experimental methods. Besides the impact of the PCB layout on the magnetic coupling is analyzed. The parasitic reduction (Opposite Current Direction - OCD) technique between two DM capacitors is investigated considering parasitics of PCB traces and magnetic couplings among them as well as their possibilities are identified. The numerical results are verified by the measurement results.
This paper presents a calculation of self-inductance and mutual couplings between EMI capacitors based on analytical equations and 3D simulation (Finite Element Method (FEM) and Method of Moments (MoM)). The analytical results are validated using numerical results. As an internal structure of a real capacitor is quite complex in 3D simulation a model of a capacitor is based on the same external geometrical properties. The self-inductance and the mutual couplings are calculated as a function of external geometrical properties their orientations and distances between them. The influence of parasitics such as magnetic couplings PCB trace inductances between DM capacitors and ground trace inductances of CM capacitors on the DM and CM attenuation are analyzed using numerical and experimental methods. Besides the impact of the PCB layout on the magnetic coupling is analyzed. The parasitic reduction (Opposite Current Direction - OCD) technique between two DM capacitors is investigated considering parasitics of PCB traces and magnetic couplings among them as well as their possibilities are identified. The numerical results are verified by the measurement results.
Schlagwörter
3-D Electromagnetic Modeling Electromagnetic Interference (EMI) Mutual Coupling Parasitic Reduction Technique Parasitics
