Every gas (e.g. CO2) absorbs IR-radiation at individual gas specific
IR-wavelengths. Non-dispersive infrared NDIR gas sensors exploit this
property for gas monitoring. Such sensors are used in various
applications, e.g. for control of air quality in office buildings or
cars. This is a big market for low cost sensors.
A NDIR sensor consists basically of three components: an IR-emitter, a
chamber containing the sample gas, and an IR-detector with a filter for
the observed wavelength. Commercially available systems use broadband
IR-emitters (e.g.: micro-lamps) in combination with thermopile or
pyroelectric detectors fabricated with a narrowband gas-specific
IR-filter, e.g., an interference filter.
We devised a concept for a simple and cost-effective NDIR gas sensor
based on two non-symmetric Fabry-Perot absorberstructures as IR-emitter
and as IR-detector where no additional interference filter is needed.
The presented sensor combines thin layer technology with optical sensing
techniques. The system was first analyzed using ray tracing models
based on a Monte Carlo method in order to model the response function of
the system's sample chamber. For our results, the sample gas is CO2
where the major absorption is centered around 4.26μm.
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