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Titel:

„Simulation of Damping Effects in Irregularly Perforated MEMS Devices by Physical Compact Modeling“

Dokumenttyp:
Konferenzbeitrag
Art des Konferenzbeitrags:
Vortrag / Präsentation
Autor(en):
Michael, F.; Schrag, G.
Seitenangaben Beitrag:
https://www.ama-science.org/proceedings/details/4408
Kapitel Beitrag:
C6 - Simulation
Abstract:
Accurate modeling of damping effects in high-end MEMS devices is a major challenge due to low feature sizes and complex device geometries. By applying a finite network approach with specially derived compact models, we are able to simulate structures with varying perforation patterns and account for the impact of the transition regions between differently perforated areas. Simulations of exemplary test structures with different perforation sizes and patterns prove the feasibility of our approach...     »
Stichworte:
MEMS; Simulation; Dampingeffects; Physics; Modeling, Messe; Inginieur; SMSI; SMSI2023; AMA; Michael; Schrag
Dewey-Dezimalklassifikation:
530 Physik
Kongress- / Buchtitel:
SMSI 2023 - Sensor and Measurement Science International
Datum der Konferenz:
2023.05.08 - 2023.05.11
Publikationsdatum:
11.05.2023
Jahr:
2023
Quartal:
2. Quartal
Seiten:
187-188
E-ISBN:
978-3-9819376-8-8
Sprache:
en
Erscheinungsform:
WWW
Volltext / DOI:
doi:10.5162/SMSI2023/C6.4
WWW:
C6.4 - Simulation of Damping Effects in Irregularly Perforated MEMS Devices by Physical Compact Modeling
TUM Einrichtung:
Lehrstuhl für Technische Elektrophysik (Prof. Schrag)
Format:
Text
Eingabe:
05.06.2023
Letzte Änderung:
05.06.2023
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