Add to ORKGDesign, FEM modelling and characterization of a novel dual mode thermal conductivity and infrared absorption sensor using SOI CMOS technology is reported. The dual mode sensing capability is based on the temperature sensitivity and wideband infrared radiation emission of the resistive heating element. The sensor was fabricated at a commercial foundry using a 1 μm process and measures only 1×1 mm2. Infrared detectors usually use thermopiles in addition to a separate IR source. A single highly responsive dual mode source and sensing element targeting not only low molecular mass gases but also greenhouse gases, while consuming 40 mW power at 700°C in synthetic air, thus makes this sensor particularly viable for battery powered handheld devices...
AbstractIn this paper, we describe an infrared thermopile sensor comprising of single crystal silico...
In this research a state-of-the-art micro-thermal conductivity detector is developed based on MEMS t...
AbstractThis paper presents an experimentally verified 3D FEM model to understand heat transfer mech...
The design, 3D FEM modelling and measurement results of a novel high temperature, low power SOI CMOS...
This paper describes a new generation of integrated solid-state gas-sensors embedded in SOI micro-ho...
This paper describes multiple field-coupled simulations and device characterization of fully CMOS-ME...
This paper describes multiple field-coupled simulations and device characterization of fully CMOS-ME...
This paper presents an experimentally verified 3D FEM model to understand heat transfer mechanisms i...
This paper describes a new generation of integrated solid-state gas-sensors embedded in SOI micro-ho...
AbstractThis paper presents an experimentally verified 3D FEM model to understand heat transfer mech...
It is demonstrated how a commercially available MEMS thermopile infrared radiation sensor can be use...
In recent decades, gas sensors have been widely used in various industries. The optical gas sensor i...
In recent decades, gas sensors have been widely used in various industries. The optical gas sensor i...
In this paper, we describe an infrared thermopile sensor comprising of single crystal silicon p+ and...
We present a low power gas sensor system on CMOS platform consisting of micromachined polysilicon ...
AbstractIn this paper, we describe an infrared thermopile sensor comprising of single crystal silico...
In this research a state-of-the-art micro-thermal conductivity detector is developed based on MEMS t...
AbstractThis paper presents an experimentally verified 3D FEM model to understand heat transfer mech...
The design, 3D FEM modelling and measurement results of a novel high temperature, low power SOI CMOS...
This paper describes a new generation of integrated solid-state gas-sensors embedded in SOI micro-ho...
This paper describes multiple field-coupled simulations and device characterization of fully CMOS-ME...
This paper describes multiple field-coupled simulations and device characterization of fully CMOS-ME...
This paper presents an experimentally verified 3D FEM model to understand heat transfer mechanisms i...
This paper describes a new generation of integrated solid-state gas-sensors embedded in SOI micro-ho...
AbstractThis paper presents an experimentally verified 3D FEM model to understand heat transfer mech...
It is demonstrated how a commercially available MEMS thermopile infrared radiation sensor can be use...
In recent decades, gas sensors have been widely used in various industries. The optical gas sensor i...
In recent decades, gas sensors have been widely used in various industries. The optical gas sensor i...
In this paper, we describe an infrared thermopile sensor comprising of single crystal silicon p+ and...
We present a low power gas sensor system on CMOS platform consisting of micromachined polysilicon ...
AbstractIn this paper, we describe an infrared thermopile sensor comprising of single crystal silico...
In this research a state-of-the-art micro-thermal conductivity detector is developed based on MEMS t...
AbstractThis paper presents an experimentally verified 3D FEM model to understand heat transfer mech...