Add to ORKGThis paper reports on a vacuum packaged resonant MEMS accelerometer that demonstrates some of the highest sensitivities reported to-date and a ∼7x scale factor enhancement relative to a recently reported prototype, benefiting from a larger proof mass and improved leverage amplification factor. The device describes a scale factor of 960 Hz/m/s2 over a dynamic range of approximately +/- 0.5 m/s2. The experimentally measured intrinsic noise limited resolution of the accelerometer is less than 150 ng/√Hz in the frequency range from < 1 Hz up to 50 Hz
This paper describes the design and experimental evaluation of a silicon micro-machined resonant acc...
A novel frequency modulated (FM) accelerometer based on piezoresistive resonators is presented. The ...
In this paper, a mechanical amplification concept for microelectromechanical systems (MEMS) physical...
This paper reports initial results on the implementation of a high-resolution resonant MEMS accelero...
MEMS accelerometers are micro-scale devices that measure acceleration of an object with respect to i...
This letter presents a high-performance resonant MEMS accelerometer comprising of a single force-sen...
We report on the characterization of a high-resolution micromachined resonant accelerometer fabricat...
Resonant MEMS accelerometers offer the potential for very high resolution and wide bandwidth measure...
The paper reports a new design of a resonant micro-machined accelerometer. The geometrical setting i...
The paper reports a new design of a resonant micro-machined accelerometer. The geometrical setting i...
The paper reports a new design of a resonant micro-machined accelerometer. The geometrical setting i...
This paper describes the design, fabrication and testing of a micromachined resonant accelerometer c...
This paper reports on the design, implementation of a novel sixth-order sigma-delta modulator (ΣΔM) ...
Resonant accelerometer is designed, which includes two double-ended tuning forks, a proof mass, four...
A novel MEMS capacitive accelerometer was characterized and tested using a specifically designed low...
This paper describes the design and experimental evaluation of a silicon micro-machined resonant acc...
A novel frequency modulated (FM) accelerometer based on piezoresistive resonators is presented. The ...
In this paper, a mechanical amplification concept for microelectromechanical systems (MEMS) physical...
This paper reports initial results on the implementation of a high-resolution resonant MEMS accelero...
MEMS accelerometers are micro-scale devices that measure acceleration of an object with respect to i...
This letter presents a high-performance resonant MEMS accelerometer comprising of a single force-sen...
We report on the characterization of a high-resolution micromachined resonant accelerometer fabricat...
Resonant MEMS accelerometers offer the potential for very high resolution and wide bandwidth measure...
The paper reports a new design of a resonant micro-machined accelerometer. The geometrical setting i...
The paper reports a new design of a resonant micro-machined accelerometer. The geometrical setting i...
The paper reports a new design of a resonant micro-machined accelerometer. The geometrical setting i...
This paper describes the design, fabrication and testing of a micromachined resonant accelerometer c...
This paper reports on the design, implementation of a novel sixth-order sigma-delta modulator (ΣΔM) ...
Resonant accelerometer is designed, which includes two double-ended tuning forks, a proof mass, four...
A novel MEMS capacitive accelerometer was characterized and tested using a specifically designed low...
This paper describes the design and experimental evaluation of a silicon micro-machined resonant acc...
A novel frequency modulated (FM) accelerometer based on piezoresistive resonators is presented. The ...
In this paper, a mechanical amplification concept for microelectromechanical systems (MEMS) physical...