Miniaturization limits of field-effect based MEMS accelerometers

摘要

Accelerometers are increasingly gaining in importance in the consumer electronics sector. To estimate whether field-effect based accelerometers have an advantage over sensor types common today, we analyze their scaling performance in this paper. Within the scope of this research, firstly we create an analytical model and subsequently verify it by numerical simulation. Based thereon, a numerical-analytical study of the scaling performance follows. The requirements are based on a commercially available capacitive accelerometer. We identify the main miniaturization limits of field-effect based accelerometers, which are total noise and pull-in effect. Those limits lead to a total area estimation for a triaxial MEMS accelerometer core of only 410 μm × 300 μm.