Abstract
The quality factor of a packaged MEMS resonating structure depends on both the packaging pressure and the structure’s proximity to the walls. This type of mechanical constraints, which causes energy dissipation from the structure to the surrounding air, are applicable for oscillating energy harvesters and should be considered in the design process. However, the modelling of energy losses or the measurements of their direct influence inside a packaged chip is not trivial. In this paper, a simple experimental method to quantify the energy loss in an oscillating MEMS structures due to the surrounding air is described together with preliminary results. The main advantage of the method is the ability to characterize the damping contributions under different vacuum and packaging conditions without requiring any packaging of the harvester chip or fabrication of multiple devices with different cavity depths.
Highlights
Microelectromechanical system (MEMS) resonating structures need to be packaged for protection from external influences, as well as for reliability since it prevents the fabricated structures from excessive displacements
The quality factor of a packaged MEMS resonating structure depends on both the packaging pressure and the structure’s proximity to the walls
Usually microelectromechanical system (MEMS) resonating structures need to be packaged for protection from external influences, as well as for reliability since it prevents the fabricated structures from excessive displacements
Summary
Microelectromechanical system (MEMS) resonating structures need to be packaged for protection from external influences, as well as for reliability since it prevents the fabricated structures from excessive displacements. The quality factor of a packaged MEMS resonating structure depends on both the packaging pressure and the structure’s proximity to the walls. A simple experimental method to quantify the energy loss in an oscillating MEMS structures due to the surrounding air is described together with preliminary results.
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