In this paper, we report for the first time an SOI CMOS multi-sensors MEMS chip, capable of sensing three key flow parameters i.e. pressure, temperature and flow rate simultaneously. The chip contains an array of ten silicon diode temperature sensors, a piezoresistive pressure sensor and an array of nine micro hot-film flow rate sensors. The chip has been fabricated through a commercial CMOS foundry. The sensors have been embedded in thin oxide membranes that were obtained through a single, post-CMOS DRIE (deep reactive ion etching) back-etch step at the foundry. Characterization of each type of sensor was carried out using independent calibration setups. Temperature sensors exhibited a sensitivity of 1.6 mV/°C at 1μA constant current in fo...
Since mid eighties, microstructures fabricated on silicon substrates, by means of microelectronics t...
Three-dimensional (3D) self-assembled microstructures are employed in various applications ranging f...
This paper describes multiple field-coupled simulations and device characterization of fully CMOS-ME...
An SOI CMOS multi-sensor MEMS chip, which can simultaneously measure temperature, pressure and flow ...
Co-integration of sensors with their associated electronics on a single silicon chip may provide man...
A MEMS (Micro-Electro-Mechanical System) option for pressure sensors has been integrated into the Fr...
In this paper we present for the first time, a novel silicon on insulator (SOI) complementary metal ...
This paper demonstrates the monolithic integration of an airflow sensor based on out-of-plane movabl...
Silicon-on-Insulator (SOI) technology is emerging as a major contender for heterogeneous microsystem...
Design, realisation and testing results of an integrated air flow sensor based on micromachined tech...
We revealed in the introduction that the additive steps at the beginning of the standard CMOS SOI pr...
Silicon-on-Insulator technology, with unique properties such as harsh environment resistance and low...
Silicon-on-Insulator technology, with unique properties such as harsh environment resistance and low...
This paper reports a monolithic integration multifunctional MEMS sensor for acceleration and pressur...
The existing instruments for aerodynamic pressure measurements are usually built around an array of...
Since mid eighties, microstructures fabricated on silicon substrates, by means of microelectronics t...
Three-dimensional (3D) self-assembled microstructures are employed in various applications ranging f...
This paper describes multiple field-coupled simulations and device characterization of fully CMOS-ME...
An SOI CMOS multi-sensor MEMS chip, which can simultaneously measure temperature, pressure and flow ...
Co-integration of sensors with their associated electronics on a single silicon chip may provide man...
A MEMS (Micro-Electro-Mechanical System) option for pressure sensors has been integrated into the Fr...
In this paper we present for the first time, a novel silicon on insulator (SOI) complementary metal ...
This paper demonstrates the monolithic integration of an airflow sensor based on out-of-plane movabl...
Silicon-on-Insulator (SOI) technology is emerging as a major contender for heterogeneous microsystem...
Design, realisation and testing results of an integrated air flow sensor based on micromachined tech...
We revealed in the introduction that the additive steps at the beginning of the standard CMOS SOI pr...
Silicon-on-Insulator technology, with unique properties such as harsh environment resistance and low...
Silicon-on-Insulator technology, with unique properties such as harsh environment resistance and low...
This paper reports a monolithic integration multifunctional MEMS sensor for acceleration and pressur...
The existing instruments for aerodynamic pressure measurements are usually built around an array of...
Since mid eighties, microstructures fabricated on silicon substrates, by means of microelectronics t...
Three-dimensional (3D) self-assembled microstructures are employed in various applications ranging f...
This paper describes multiple field-coupled simulations and device characterization of fully CMOS-ME...