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Design, Optimisation and Predicted Performance of a Micro-Machined IR Sensor that Exploits the Squeeze Film Damping Effect to Measure Cantilever Beam Displacement
journal contribution
posted on 2023-06-08, 05:13 authored by P D Smith, Chris ChatwinChris Chatwin, Rupert YoungRupert YoungWe describe the theoretical modelling of an infrared (IR) sensor based on an oscillating bi-material cantilever in which the beam is quantified as a function of the squeeze-film damping ratio, by measurement of the forced damped resonance frequency or phase angle. The structure under consideration is composed of a silicon nitride cantilever beam, coated with an upper gold absorbing layer. A detailed description of the optimisation of the cantilever geometry is described, with the gap height being identified as the critical parameter. The influence of the length, width, absorber gap and thickness of the two layers on signal-to-noise ratio (snr) is also discussed and an optimum configuration identified for each parameter. Phase modulation measurement techniques are found to provide the highest measurement resolution, with a thermal mechanical noise-limited performance of NE ¿T=0.21 mK, and an electronic noise-limited performance of NE ¿T=4 mK, being predicted for a 100×100 µm cantilever at 1 kHz measurement bandwidth.
History
Publication status
- Published
Journal
Optics and Lasers in EngineeringISSN
0143-8166External DOI
Issue
4Volume
45Page range
503-522Pages
20.0Department affiliated with
- Engineering and Design Publications
Notes
This reports on a novel infared sensor based on an oscillating mems bi-material cantilever in which the beam is quantified as a function of the squeeze-film damping ratio, by measurement of the forced damped resonance frequency or phase angle. Phase modulation measurement techniques are found to provide the highest measurement resolution. This work was completed as part of a funded collaboration with Sensatech Ltd, contact tom@sensatech.com, tel: 01273-605964. Sensatech are currently working on device prototypes based on the design and performance that this paper predicts with a view to taking the technology into full production.Full text available
- No
Peer reviewed?
- Yes
Legacy Posted Date
2012-02-06Usage metrics
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