Cambridge Sensors sampling gas sensors

Designed to operate across the wideband IR range (2 to 14µm) the µBright sensors can be used to continually sense gases, such as carbon dioxide, and ethanol vapours in NDIR (nondispersive infrared) systems at low power.

The CCS11x family of IR sources incorporate a new patented plasmonic structure, which has a layer of metallic dots with a defined geometry which creates a resonant effect, increasing the optical emissions of the CCS11x sources.

The devices use CCS’s patented micro-hotplate design to deliver high optical emissions across a broad range (2µm to 15µm) of IR wavelengths with a very stable, low drift output. The plasmonic structure and the micro-hotplate are fabricated using a standard CMOS process.

The CCS11x family of components have an inherently low thermal mass which allows for rapid heating to high temperatures (up to 600oC), allowing pulse mode operation at high frequencies and low power consumption. Features and benefits of CCS11x µBright IR Sources include:
Stable output with low drift – low resistance drift over lifetime removes need for compensation
Fast switching – Up to 38Hz at 50% modulation depth
High IR radiation output – Up to 600oC operation with emissivity at 0.8 at 4.26µm
Superior efficiency – Pulse mode operation

Proven technology platform – Designed for high volume and reliability (>5year lifetime)

“These devices will enable our customers to have lower power, smaller optical gas sensor products which can be used to monitor specific gases such as carbon dioxide and also to detect greenhouse gases and refrigerants such as Freon for demand control ventilation, building monitoring, automotive cabin control, and industrial safety and security applications,” says CCS’ Jess Brown.

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