Add to ORKGThe paper reports an improved low cost directional flow sensor, fully compatible with IC-CMOS SOI (silicon-on-insulator) processes, with fair sensitivity and short response time on a large airflow rate range (from 0 to 8 m/s) at a very low consumption (15 mW). Many different sensing principles can be found in the literature and impose a difficult choice between low power consumption, high airflow rate range, sufficient flow rate sensitivity and compatibility with IC processes. Our sensor challenges most recent realizations by providing attractive trade-offs between these parameters for a large range of applications.Anglai
A single-chip smart flow sensor based on a thermal principle is presented. The device is fabricated ...
This paper investigates design, fabrication and testing of a monolithic piezoresistive flow sensor w...
AbstractThis paper investigates design, fabrication and testing of a monolithic piezoresistive flow ...
The paper reports an improved low cost directional flow sensor, fully compatible with IC-CMOS SOI (s...
This paper demonstrates the monolithic integration of an airflow sensor based on out-of-plane movabl...
In this paper we present a novel SOI CMOS multidirectional thermoelectric flow sensor. For the first...
Three-dimensional (3D) self-assembled microstructures are employed in various applications ranging f...
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...
In this paper, we report for the first time an SOI CMOS multi-sensors MEMS chip, capable of sensing ...
A simple silicon two-dimensional (2D) flow sensor for the measurement of both flow direction and spe...
This paper addresses the latest developments in biomimetic hair-flow sensors towards sensitive high-...
The silicon flow sensor presented in this paper operates in thermal time-of-flight (TTOF) mode. The ...
Flow sensing in hostile environments is of increasing interest for applications in the automotive, a...
This paper investigates the differences between thermo-resistive and thermo-electronic flow sensors ...
A single-chip smart flow sensor based on a thermal principle is presented. The device is fabricated ...
This paper investigates design, fabrication and testing of a monolithic piezoresistive flow sensor w...
AbstractThis paper investigates design, fabrication and testing of a monolithic piezoresistive flow ...
The paper reports an improved low cost directional flow sensor, fully compatible with IC-CMOS SOI (s...
This paper demonstrates the monolithic integration of an airflow sensor based on out-of-plane movabl...
In this paper we present a novel SOI CMOS multidirectional thermoelectric flow sensor. For the first...
Three-dimensional (3D) self-assembled microstructures are employed in various applications ranging f...
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...
In this paper, we report for the first time an SOI CMOS multi-sensors MEMS chip, capable of sensing ...
A simple silicon two-dimensional (2D) flow sensor for the measurement of both flow direction and spe...
This paper addresses the latest developments in biomimetic hair-flow sensors towards sensitive high-...
The silicon flow sensor presented in this paper operates in thermal time-of-flight (TTOF) mode. The ...
Flow sensing in hostile environments is of increasing interest for applications in the automotive, a...
This paper investigates the differences between thermo-resistive and thermo-electronic flow sensors ...
A single-chip smart flow sensor based on a thermal principle is presented. The device is fabricated ...
This paper investigates design, fabrication and testing of a monolithic piezoresistive flow sensor w...
AbstractThis paper investigates design, fabrication and testing of a monolithic piezoresistive flow ...