This paper presents the fabrication and characterization of a resonant pressure microsensor based on SOI-glass wafer-level vacuum packaging. The SOI-based pressure microsensor consists of a pressure-sensitive diaphragm at the handle layer and two lateral resonators (electrostatic excitation and capacitive detection) on the device layer as a differential setup. The resonators were vacuum packaged with a glass cap using anodic bonding and the wire interconnection was realized using a mask-free electrochemical etching approach by selectively patterning an Au film on highly topographic surfaces. The fabricated resonant pressure microsensor with dual resonators was characterized in a systematic manner, producing a quality factor higher than 10,...
A new type of resonant pressure sensor is presented which employs a laterally driven resonant strain...
This paper proposes a novel wafer-level vacuum packaged electric field microsensor (EFM) featuring a...
In order to achieve and maintain a high quality factor (high-Q) for the micro resonant pressure sens...
This paper presents the fabrication and characterization of a resonant pressure microsensor based on...
This paper presents a high-Q resonant pressure microsensor with through-glass electrical interconnec...
This paper presents a resonant pressure microsensor relying on electrostatic excitation and piezores...
AbstractThis paper presents a vacuum-packaged resonant pressure sensor featured with high sensitivit...
In this paper, an all-Si resonant pressure microsensor based on eutectic bonding was developed, whic...
A novel resonant pressure sensor with an improved micromechanical double-ended tuning fork resonato...
This study proposes a microfabricated resonant pressure sensor based on electrostatic excitation and...
A novel structure of the resonant pressure sensor is presented in this paper, which tactfully employ...
This paper describes the application of a micromachined resonator to verify the vacuum pressure and ...
AbstractA novel resonant pressure sensor based on electromagnetically driven and sensed H-type later...
This paper presents a micromachined resonant pressure sensor. The sensor is designed to optimize the...
Abstract Pressure sensors play a vital role in aerospace, automotive, medical, and consumer electron...
A new type of resonant pressure sensor is presented which employs a laterally driven resonant strain...
This paper proposes a novel wafer-level vacuum packaged electric field microsensor (EFM) featuring a...
In order to achieve and maintain a high quality factor (high-Q) for the micro resonant pressure sens...
This paper presents the fabrication and characterization of a resonant pressure microsensor based on...
This paper presents a high-Q resonant pressure microsensor with through-glass electrical interconnec...
This paper presents a resonant pressure microsensor relying on electrostatic excitation and piezores...
AbstractThis paper presents a vacuum-packaged resonant pressure sensor featured with high sensitivit...
In this paper, an all-Si resonant pressure microsensor based on eutectic bonding was developed, whic...
A novel resonant pressure sensor with an improved micromechanical double-ended tuning fork resonato...
This study proposes a microfabricated resonant pressure sensor based on electrostatic excitation and...
A novel structure of the resonant pressure sensor is presented in this paper, which tactfully employ...
This paper describes the application of a micromachined resonator to verify the vacuum pressure and ...
AbstractA novel resonant pressure sensor based on electromagnetically driven and sensed H-type later...
This paper presents a micromachined resonant pressure sensor. The sensor is designed to optimize the...
Abstract Pressure sensors play a vital role in aerospace, automotive, medical, and consumer electron...
A new type of resonant pressure sensor is presented which employs a laterally driven resonant strain...
This paper proposes a novel wafer-level vacuum packaged electric field microsensor (EFM) featuring a...
In order to achieve and maintain a high quality factor (high-Q) for the micro resonant pressure sens...