Add to ORKGThe modelling of the non-linear behaviour of MEMS oscillators is of interest to understand the effects of non-linearities on start-up, limit cycle behaviour and performance metrics such as output frequency and phase noise. This paper proposes an approach to integrate the non-linear modelling of the resonator, transducer and sustaining amplifier in a single numerical modelling environment so that their combined effects may be investigated simultaneously. The paper validates the proposed electrical model of the resonator through open-loop frequency response measurements on an electrically addressed flexural silicon MEMS resonator driven to large motional amplitudes. A square wave oscillator is constructed by embedding the same resonator as th...
International audienceThis paper deals with the influence of the shape of the driving waveform on th...
The modelling of microelectromechanical systems provides a very challenging task in microsystems eng...
In this paper, a phase feedback approach for usingnonlinear microelectromechanical (MEM) resonators ...
We present a mathematical model of a microelectromechanical system (MEMS) oscillator that integrates...
Nonlinearities in MEMS silicon resonators are caused by different effects. Depending on the resonato...
Linear models for oscillator noise predict an improvement in frequency stability with increasing Qua...
In recent years, there has been much interest in the design of low-noise MEMS oscillators. This pape...
Abstract: Nonlinearities in MEMS silicon resonators are caused by different effects. Depending on th...
In recent years, there has been much interest in the design of low-noise MEMS oscillators. This pape...
Numerical modelling of MicroElectroMechanical Systems (MEMS) resonators is still attracting increasi...
A new analytical formulation for phase noise in MEMS oscillators was recently presented encompassing...
Nonlinearities in MEMS silicon resonators are caused by different effects. Depending on the resonato...
International audienceThis paper deals with the influence of the shape of the driving waveform on th...
The modelling of microelectromechanical systems provides a very challenging task in microsystems eng...
In this paper, a phase feedback approach for usingnonlinear microelectromechanical (MEM) resonators ...
We present a mathematical model of a microelectromechanical system (MEMS) oscillator that integrates...
Nonlinearities in MEMS silicon resonators are caused by different effects. Depending on the resonato...
Linear models for oscillator noise predict an improvement in frequency stability with increasing Qua...
In recent years, there has been much interest in the design of low-noise MEMS oscillators. This pape...
Abstract: Nonlinearities in MEMS silicon resonators are caused by different effects. Depending on th...
In recent years, there has been much interest in the design of low-noise MEMS oscillators. This pape...
Numerical modelling of MicroElectroMechanical Systems (MEMS) resonators is still attracting increasi...
A new analytical formulation for phase noise in MEMS oscillators was recently presented encompassing...
Nonlinearities in MEMS silicon resonators are caused by different effects. Depending on the resonato...
International audienceThis paper deals with the influence of the shape of the driving waveform on th...
The modelling of microelectromechanical systems provides a very challenging task in microsystems eng...
In this paper, a phase feedback approach for usingnonlinear microelectromechanical (MEM) resonators ...