International audienceThe thermal behaviour of capacitive pressure sensors fabricated using silicon and Pyrex wafers is analysed by combining the three-dimensional (3D) numerical modelling and the observation of a family of sensors. It is shown that the main mechanism of the capacitance thermal variations is structural deformation. In order to minimise the temperature coefficient, the wafer thickness must be optimised and the bonding area widened
Artificial limbs, equipped with miniaturized tactile sensors, can handle objects with more dexterous...
Capacitive sensors for the detection of mechanical quantities all rely on a displacement measurement...
A capacitive differential pressure sensor for the pressure range of 0–1 bar has been developed. The ...
International audienceThe thermal behaviour of capacitive pressure sensors fabricated using silicon ...
International audienceAnodic bonding and anisotropic etching have been used to fabricate silicon / P...
The capacitive pressure sensors based on silicon are characterized by their very high sensitivities ...
International audienceThis paper presents two methods to characterize the thermal coefficient of pre...
MEMS pressure sensors are tiny systems fabricated with technologies inherited from integrated circui...
This memory treats of the study of the thermal behavior of silicon capacitive pressure sensors manuf...
International audienceA new type of miniature pressure sensor using silicon/Pyrex capacitive sensing...
Abstract: This article reports on the design of a capacitive pressure sensor fabricated in non-silic...
The thermal drifts of microelectronic capacitive pressure sensor have been analysed by finite-elemen...
This research involved the development of a practical simulation program for silicon piezoresistive ...
A new batch-fabricated solid-state capacitive pressure transducer has been developed using silicon i...
Poly-crystalline silicon carbide (polysic) Micro-electromechanical systems (MEMS) capacitive pressur...
Artificial limbs, equipped with miniaturized tactile sensors, can handle objects with more dexterous...
Capacitive sensors for the detection of mechanical quantities all rely on a displacement measurement...
A capacitive differential pressure sensor for the pressure range of 0–1 bar has been developed. The ...
International audienceThe thermal behaviour of capacitive pressure sensors fabricated using silicon ...
International audienceAnodic bonding and anisotropic etching have been used to fabricate silicon / P...
The capacitive pressure sensors based on silicon are characterized by their very high sensitivities ...
International audienceThis paper presents two methods to characterize the thermal coefficient of pre...
MEMS pressure sensors are tiny systems fabricated with technologies inherited from integrated circui...
This memory treats of the study of the thermal behavior of silicon capacitive pressure sensors manuf...
International audienceA new type of miniature pressure sensor using silicon/Pyrex capacitive sensing...
Abstract: This article reports on the design of a capacitive pressure sensor fabricated in non-silic...
The thermal drifts of microelectronic capacitive pressure sensor have been analysed by finite-elemen...
This research involved the development of a practical simulation program for silicon piezoresistive ...
A new batch-fabricated solid-state capacitive pressure transducer has been developed using silicon i...
Poly-crystalline silicon carbide (polysic) Micro-electromechanical systems (MEMS) capacitive pressur...
Artificial limbs, equipped with miniaturized tactile sensors, can handle objects with more dexterous...
Capacitive sensors for the detection of mechanical quantities all rely on a displacement measurement...
A capacitive differential pressure sensor for the pressure range of 0–1 bar has been developed. The ...