The paper presents a technology for strain sensing on steel using resonant MEMS packaged in vacuum. For this purpose, a custom sensor fabrication technology and a novel vacuum packaging technique have been developed. The MEMS sensors have been fabricated by surface micromachining of thick (15 μm) Silicon On Insulator substrates with heavily doped handle layers View the MathML source(ρ = 0.005 Ωcm). Using this process, Double-Ended Tuning Fork (DETF) parallel-plate resonators with reduced coupling gaps (less than 1 μm) have been fabricated, using a high-performance Deep Reactive Ion Etching performed on submicrometer features realized by near-UV lithography combined with a maskless line narrowing technique. The devices have been bonded to a ...
This paper presents a high-Q resonant pressure microsensor with through-glass electrical interconnec...
This paper describes the application of a micromachined resonator to verify the vacuum pressure and ...
Microelectromechanical systems (MEMS) are realizing their potential in many areas of pure and applie...
AbstractThe paper presents a technology for strain sensing on steel using resonant MEMS packaged in ...
This paper reports on the fabrication and characterization of high-resolution strain sensors for ste...
The paper reports on the fabrication and characterization of high-resolution strain sensors for stru...
A novel type of linear extensometer with exceptionally high resolution of 4 nm based on MEMS resonan...
Despite commercial availability since the 1950's, silicon strain sensors have not experienced the sa...
A packaging technique suited to applying MEMS strain sensors realized on a silicon chip to a steel f...
AbstractThis paper presents a MEMS Resonant Pressure Transducers (RPT) that is produced using a flex...
This paper describes a technical approach toward the realization of a low-power temperature-compensa...
MEMS technologies have been integrated into numerous applications due to their sensitivity, miniatur...
This paper describes a technical approach toward the realization of a low-power temperature-compensa...
Force sensing under small operation places in millimeter scale is strongly required in medical instr...
In this paper, we present the fabrication and testing of a novel probe for micromechanical surface p...
This paper presents a high-Q resonant pressure microsensor with through-glass electrical interconnec...
This paper describes the application of a micromachined resonator to verify the vacuum pressure and ...
Microelectromechanical systems (MEMS) are realizing their potential in many areas of pure and applie...
AbstractThe paper presents a technology for strain sensing on steel using resonant MEMS packaged in ...
This paper reports on the fabrication and characterization of high-resolution strain sensors for ste...
The paper reports on the fabrication and characterization of high-resolution strain sensors for stru...
A novel type of linear extensometer with exceptionally high resolution of 4 nm based on MEMS resonan...
Despite commercial availability since the 1950's, silicon strain sensors have not experienced the sa...
A packaging technique suited to applying MEMS strain sensors realized on a silicon chip to a steel f...
AbstractThis paper presents a MEMS Resonant Pressure Transducers (RPT) that is produced using a flex...
This paper describes a technical approach toward the realization of a low-power temperature-compensa...
MEMS technologies have been integrated into numerous applications due to their sensitivity, miniatur...
This paper describes a technical approach toward the realization of a low-power temperature-compensa...
Force sensing under small operation places in millimeter scale is strongly required in medical instr...
In this paper, we present the fabrication and testing of a novel probe for micromechanical surface p...
This paper presents a high-Q resonant pressure microsensor with through-glass electrical interconnec...
This paper describes the application of a micromachined resonator to verify the vacuum pressure and ...
Microelectromechanical systems (MEMS) are realizing their potential in many areas of pure and applie...