TY - GEN
T1 - Numerical algorithm for quasi-static nonlinear simulation of touch-mode actuators with complex geometries and pre-stressed materials
AU - Oberhammer, Joachim
AU - Liu, Ai Qun
AU - Stemme, Göran
PY - 2005/6
Y1 - 2005/6
N2 - This paper reports on a numerical algorithm for quasistatic dynamic modeling of highly nonlinear electrostatic actuators with single-side clamped moving elements, such as curved-electrode actuators or zipperlike touch-mode actuators. The algorithm is capable of simulating pre-stressed materials and touching surfaces with complex geometries of the moving and the rigid structures, including stoppers and thickness variations of the moving parts. In contrast to conventional, very time-consuming simulation methods, the proposed algorithm takes only a fraction of a second which makes it a very powerful design tool for parameter-optimization of the actuator geometry. The paper describes the algorithm, implemented in MATLAB, and reports on its performance evaluation, comparing its simulation results with those obtained by other methods such as simplified analytical models, FEM/BEM/FCM/BCM-simulations and measurements of fabricated structures, including laterally moving MEMS switches and vertically closing pre-stressed thin-film zipper-actuators. The algorithm shows good agreement with measurements and results obtained by these methods.
AB - This paper reports on a numerical algorithm for quasistatic dynamic modeling of highly nonlinear electrostatic actuators with single-side clamped moving elements, such as curved-electrode actuators or zipperlike touch-mode actuators. The algorithm is capable of simulating pre-stressed materials and touching surfaces with complex geometries of the moving and the rigid structures, including stoppers and thickness variations of the moving parts. In contrast to conventional, very time-consuming simulation methods, the proposed algorithm takes only a fraction of a second which makes it a very powerful design tool for parameter-optimization of the actuator geometry. The paper describes the algorithm, implemented in MATLAB, and reports on its performance evaluation, comparing its simulation results with those obtained by other methods such as simplified analytical models, FEM/BEM/FCM/BCM-simulations and measurements of fabricated structures, including laterally moving MEMS switches and vertically closing pre-stressed thin-film zipper-actuators. The algorithm shows good agreement with measurements and results obtained by these methods.
KW - Curved-electrode actuator
KW - MEMS simulation
KW - Quasi-static modeling
KW - Touch-mode actuator
UR - https://www.scopus.com/pages/publications/27544477829
U2 - 10.1109/SENSOR.2005.1497522
DO - 10.1109/SENSOR.2005.1497522
M3 - Conference article published in proceeding or book
AN - SCOPUS:27544477829
SN - 0780389948
SN - 9780780389946
T3 - Digest of Technical Papers - International Conference on Solid State Sensors and Actuators and Microsystems, TRANSDUCERS '05
SP - 2119
EP - 2122
BT - TRANSDUCERS '05 - 13th International Conference on Solid-State Sensors and Actuators and Microsystems - Digest of Technical Papers
T2 - 13th International Conference on Solid-State Sensors and Actuators and Microsystems, TRANSDUCERS '05
Y2 - 5 June 2005 through 9 June 2005
ER -