A Lumped Element model for biaxial MEMS scanners
2024 25th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems (EuroSimE)(2024)
摘要
This paper presents a simulation method based on a lumped element formulation solved using a time discrete scheme able to predict the behavior of biaxial MEMS scanners. To simulate the dynamic behavior on the scanner on both axis, an equivalent electrical circuit is used. From the dimensions and materials of the scanner, the inertial mass, the torsional spring and the coupling factor can be derived. Using a time domain solver, the frequency response as well as the response of the scanner to different signals can be evaluated. This model could easily be extended to include nonlinear effects of the piezoelectric layer, as well as geometric nonlinearities.
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关键词
Lumped Elements,Equivalent Circuit,Electrical Circuit,Geometric Nonlinearity,Inertial Mass,Piezoelectric Layer,Torsional Spring,Time-domain Solver,Electrode,Young’s Modulus,Finite Element,Actuator,State Space,Resonance Frequency,Laser Beam,Input Signal,Transverse Plane,Finite Element Model,Drag Force,Scan Axis,Passivation Layer,Transduction Factors,Moment Of Inertia,Neutral Axis,Piezoelectric Materials,Rotation Axis,Silicon Layer,Elastic Layer
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