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Microfabrication of double proof-mass SOI-based matryoshka-like structures for 3-axis MEMS accelerometers

Inês S. Garcia, J. Fernandes, José Bento Queiroz, Carlos Calaza, José Moreira, Rosana A. Dias, Filipe S. Alves

2023Micro and Nano Engineering10 citationsDOIOpen Access PDF

Abstract

This work presents a micromachining process that allows the creation of hierarchical, matryoshka-like MEMS structures that can be used for multi-axis sensing. This novel vibration multi-axis MEMS sensor based on the capacitive open-loop operation can be widely deployed in the structural monitoring systems due to its simple fabrication and operating principle. The device is composed by a double proof-mass hierarchical design with separate sets of electrodes for in-plane differential measurements. The operation principle of this multi-axis device relies on the fact that accelerations in the zz direction will induce a change in the overlapping area of the xx and yy sensing electrodes, extracted from the single-ended capacitance measurement, while xx and yy accelerations will yield a differential capacitance change. To sense the direction of zz accelerations (capacitance decrease independently of the direction), out-of-plane parallel-plates were added to the device using suspended metallic membranes. The devices were fabricated through an in-house process using a seven-mask dicing-free MEMS process on a 10 μm-thick SOI wafer. The proposed devices were successfully validated using a two-degrees of freedom (DoF) setup that induces external accelerations in the three-orthogonal axes and reads the resulting output voltage of the device. It then possible to conclude that using the proposed fabrication process, it is possible to successfully produce functional multi-structure SOI-based devices that integrate suspended metallic membranes.

Topics & Concepts

Proof massMicroelectromechanical systemsFabricationCapacitive sensingMicrofabricationCapacitanceWaferAccelerometerSilicon on insulatorMaterials scienceSurface micromachiningBulk micromachiningOptoelectronicsElectrodeComputer scienceElectrical engineeringEngineeringPhysicsSiliconPathologyOperating systemAlternative medicineMedicineQuantum mechanicsAdvanced MEMS and NEMS TechnologiesMechanical and Optical ResonatorsAdvanced Fiber Optic Sensors
Microfabrication of double proof-mass SOI-based matryoshka-like structures for 3-axis MEMS accelerometers | Litcius