Add to ORKGInternational audienceThe electro-mechanical characterization of MEMS diaphragms for acoustic applications is introduced in this paper. The samples under test are fabricated with the 0.35 AMS CMOS process with front-side surface etching post-process. The goals of the experimental activities are to verify the performances and repeatability of fabrication process and to identify the static and dynamic properties of diaphragms in comparison to the predictions of FEM models. In order to verify the applicability of this kind of devices to acoustic applications, the pressure generation in air has been measured with a measuring microphone with appreciable results
New mobile devices need microphones with a small size, low noise level, reduced cost and high stabil...
Capacitive (condenser) MEMS microphones have been developed using various design and fabrication tec...
International audienceThis paper gives a detailed electroacoustic study of a new generation of monol...
International audienceThe electro-mechanical characterization of MEMS diaphragms for acoustic applic...
International audienceSilicon-based microphones are nowadays well-established MEMS components produc...
National audienceSilicon-based microphones are nowadays well-established MEMS components produced by...
This paper presents comprehensive guidelines for the design and analysis of a thin diaphragm that is...
International audienceWe report on a micro-acoustic source based on industrial 0.35 μm CMOS-MEMS pro...
In this report, the use of corrugated diaphragm for microphone sensing is discussed. The corrugated ...
MEMS offer different fabrication process to fabricate diaphragms in various applications such as mic...
ISBN 978-2-35500-013-3International audienceThis paper presents a standard complementary metal- oxid...
Capacitive microphones (condenser microphones) work on a principle of variable capacitance and volta...
The finite element method, ANSYS, was used to model and simulate the diaphragm. Both static and dyna...
National audienceSilicon-based microphones are nowadays well-established MEMS components produced by...
New mobile devices need microphones with a small size, low noise level, reduced cost and high stabil...
New mobile devices need microphones with a small size, low noise level, reduced cost and high stabil...
Capacitive (condenser) MEMS microphones have been developed using various design and fabrication tec...
International audienceThis paper gives a detailed electroacoustic study of a new generation of monol...
International audienceThe electro-mechanical characterization of MEMS diaphragms for acoustic applic...
International audienceSilicon-based microphones are nowadays well-established MEMS components produc...
National audienceSilicon-based microphones are nowadays well-established MEMS components produced by...
This paper presents comprehensive guidelines for the design and analysis of a thin diaphragm that is...
International audienceWe report on a micro-acoustic source based on industrial 0.35 μm CMOS-MEMS pro...
In this report, the use of corrugated diaphragm for microphone sensing is discussed. The corrugated ...
MEMS offer different fabrication process to fabricate diaphragms in various applications such as mic...
ISBN 978-2-35500-013-3International audienceThis paper presents a standard complementary metal- oxid...
Capacitive microphones (condenser microphones) work on a principle of variable capacitance and volta...
The finite element method, ANSYS, was used to model and simulate the diaphragm. Both static and dyna...
National audienceSilicon-based microphones are nowadays well-established MEMS components produced by...
New mobile devices need microphones with a small size, low noise level, reduced cost and high stabil...
New mobile devices need microphones with a small size, low noise level, reduced cost and high stabil...
Capacitive (condenser) MEMS microphones have been developed using various design and fabrication tec...
International audienceThis paper gives a detailed electroacoustic study of a new generation of monol...