Abstract:
A new microfabricated device for heating and sensing in gases is presented. It is based on the resistive heating of a micro- or nano-metric hollow cylinder of titanium ni...Show MoreMetadata
Abstract:
A new microfabricated device for heating and sensing in gases is presented. It is based on the resistive heating of a micro- or nano-metric hollow cylinder of titanium nitride, and measurement of its (temperature-dependent) resistance. This article presents the fabrication and temperature calibration of the device, and illustrates its function as flow meter and thermal conductivity meter. A temperature of 280 °C is achieved at a power consumption of only 5.5 μW, orders of magnitude less than existing commercial hotplate devices. The thermal time constant can be as low as 60-120 microseconds.
Date of Conference: 17-21 September 2012
Date Added to IEEE Xplore: 10 November 2012
ISBN Information:
ISSN Information:
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Impedance ,
- Thermal Conductivity ,
- Power Consumption ,
- Flow Meter ,
- Conductivity Meter ,
- Titanium Nitride ,
- Conductive ,
- Elevated Temperature ,
- Gas Flow ,
- Contact Resistance ,
- Thermal Response ,
- Focused Ion Beam ,
- Atomic Layer Deposition ,
- Probe Station ,
- Heating Element ,
- Flat Layer ,
- Membrane Release ,
- Flow Range ,
- Temperature Coefficient Of Resistance
Contents Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Impedance ,
- Thermal Conductivity ,
- Power Consumption ,
- Flow Meter ,
- Conductivity Meter ,
- Titanium Nitride ,
- Conductive ,
- Elevated Temperature ,
- Gas Flow ,
- Contact Resistance ,
- Thermal Response ,
- Focused Ion Beam ,
- Atomic Layer Deposition ,
- Probe Station ,
- Heating Element ,
- Flat Layer ,
- Membrane Release ,
- Flow Range ,
- Temperature Coefficient Of Resistance
