Add to ORKGMEMS resonators are designed for a fixed resonant frequency. Therefore, any shift in the resonant frequency of the final fabricated structure can be a denting factor for its suitability towards a desired application. There are numerous factors which alter the designed resonant frequency of the fabricated resonator such as the metal layer deposited on top of the beam and the residual stresses present in the fabricated structure. While the metal coating, which acts as electrode, increases the stiffness and the effective mass of the composite structure, the residual stress increases or decreases the net stiffness if it is a tensile or compressive type respectively. In this paper, we investigate both these cases by taking two different st...
Resonant mode micromechanical devices have great potentials due to their high sensitivity and easy s...
International audienceAfter consistently progress in Micro-Electro-Mechanical (MEM) resonators, Sili...
Many promising applications of MEMS based devices are in critical systems. Hence, their reliability ...
MEMS resonators are designed for a fixed resonant frequency. Therefore, any shift in the resonant ...
In this paper we present the general idea about the stress levels of mems resonator with different t...
The dynamic characterization of a set of gold micro beams by electrostatic excitation in presence of...
Residual stresses play an important role in deciding the performance and reliability of MEMS devices...
Determination of dynamic characteristics of MEMS devices critically depends on accurate measurements...
One of the critical design considerations in dynamic microelectromechanical systems (MEMS) devices i...
The dynamic characterization of a set of gold micro beams by electrostatic excitation in presence of...
We study the effect of surface roughness on the resonance frequency of micro-cantilever sensors. The...
The micro-electro-mechanical system (MEMS) resonator developed based on surface processing technolog...
Resonating piezoelectric devices, such as aluminum nitride (AlN) piezoelectric micromachined ultraso...
We present an analytical model that gives the values of squeeze film damping and spring coefficients...
A Microelectromechanical System (MEMS) is based on Microelectronic Technique and Micromachining tech...
Resonant mode micromechanical devices have great potentials due to their high sensitivity and easy s...
International audienceAfter consistently progress in Micro-Electro-Mechanical (MEM) resonators, Sili...
Many promising applications of MEMS based devices are in critical systems. Hence, their reliability ...
MEMS resonators are designed for a fixed resonant frequency. Therefore, any shift in the resonant ...
In this paper we present the general idea about the stress levels of mems resonator with different t...
The dynamic characterization of a set of gold micro beams by electrostatic excitation in presence of...
Residual stresses play an important role in deciding the performance and reliability of MEMS devices...
Determination of dynamic characteristics of MEMS devices critically depends on accurate measurements...
One of the critical design considerations in dynamic microelectromechanical systems (MEMS) devices i...
The dynamic characterization of a set of gold micro beams by electrostatic excitation in presence of...
We study the effect of surface roughness on the resonance frequency of micro-cantilever sensors. The...
The micro-electro-mechanical system (MEMS) resonator developed based on surface processing technolog...
Resonating piezoelectric devices, such as aluminum nitride (AlN) piezoelectric micromachined ultraso...
We present an analytical model that gives the values of squeeze film damping and spring coefficients...
A Microelectromechanical System (MEMS) is based on Microelectronic Technique and Micromachining tech...
Resonant mode micromechanical devices have great potentials due to their high sensitivity and easy s...
International audienceAfter consistently progress in Micro-Electro-Mechanical (MEM) resonators, Sili...
Many promising applications of MEMS based devices are in critical systems. Hence, their reliability ...