Add to ORKGA reliable characterization of a MEMS microphone is essential for a better un-derstanding of the device physics, for estimating the device performance and for guidance during the research, for better microphones. The work presented in this report focuses on the investigation and comparison of different mea-surement principles and techniques used to measure the key device parameters resonance frequency and compliance. The first generation MEMS microphones that are developed by NXP are influenced by mechanical vibrations that re-duces the device performance. Therefore, new techniques will be implemented to reduce this noise and these techniques are based upon matching the fre-quencies of two flexible plates in the microphone sensor, we invest...
International audienceThe electro-mechanical characterization of MEMS diaphragms for acoustic applic...
Microelectromechanical System (MEMS) condenser microphones are widely used because of their low cost...
We present four new findings pertaining to MEMS sensors for acoustic emission detection. Our sensors...
A reliable characterization of a MEMS microphone is essential for a better understanding of the devi...
Microelectromechanical systems (MEMS) resonators require fast, accurate, and cost-effective testing ...
In this paper, a novel technique to characterize MEMS is described. The technique is based on electr...
In the field of noise control and monitoring, a new generation of small and low-cost microelectro-me...
International audienceIn the context of the scientific program SIMMIC supported by the French Nation...
International audienceIn this paper, we present a test bench for the acoustic characterization of hi...
Acoustic emission testing is an important technology for evaluating structural materials, and especi...
International audienceThis work demonstrates with numerical simulations, the feasibility of a wide f...
Condenser MEMS microphones are becoming a promising technology to substitute the current standard mi...
In the paper basic investigations for the nondestructive quality testing methods for MEMS (Micro-Ele...
Impedance, as one of frequency response functions, characterizes the dynamic behavior of the system ...
International audienceThis paper deals with the heterogeneous characterization of a MEMS electrodyna...
International audienceThe electro-mechanical characterization of MEMS diaphragms for acoustic applic...
Microelectromechanical System (MEMS) condenser microphones are widely used because of their low cost...
We present four new findings pertaining to MEMS sensors for acoustic emission detection. Our sensors...
A reliable characterization of a MEMS microphone is essential for a better understanding of the devi...
Microelectromechanical systems (MEMS) resonators require fast, accurate, and cost-effective testing ...
In this paper, a novel technique to characterize MEMS is described. The technique is based on electr...
In the field of noise control and monitoring, a new generation of small and low-cost microelectro-me...
International audienceIn the context of the scientific program SIMMIC supported by the French Nation...
International audienceIn this paper, we present a test bench for the acoustic characterization of hi...
Acoustic emission testing is an important technology for evaluating structural materials, and especi...
International audienceThis work demonstrates with numerical simulations, the feasibility of a wide f...
Condenser MEMS microphones are becoming a promising technology to substitute the current standard mi...
In the paper basic investigations for the nondestructive quality testing methods for MEMS (Micro-Ele...
Impedance, as one of frequency response functions, characterizes the dynamic behavior of the system ...
International audienceThis paper deals with the heterogeneous characterization of a MEMS electrodyna...
International audienceThe electro-mechanical characterization of MEMS diaphragms for acoustic applic...
Microelectromechanical System (MEMS) condenser microphones are widely used because of their low cost...
We present four new findings pertaining to MEMS sensors for acoustic emission detection. Our sensors...