Downloads provided by UsageCountsSqueeze-film damper design with air channels: Experimental verification
Copyright policy ) Dias, R.A. (author); Wolffenbuttel, R.F. (author); Cretu, E. (author); Rocha, L.A. (author);
Squeeze-film damper design with air channels: Experimental verification
AbstractThe experimental evaluation of damping-improved parallel-plate geometries is reported in this paper. An improved damper geometry with air channels was developed to address contradictory design constraints: large sensing parallel-plate area is desirable for a significant readout capacitance as well as reduced damping coefficient. Damping coefficients were measured at different gaps in conventional parallel-plates MEMS and in parallel-plates with air channels. The inertial masses of the fabricated structures were pulled-in and released. From the return to rest position trajectory, the damping coefficients, at each point, were extracted. Results show a significant damping decrease in parallel-plates with air channels without visible reduction in the capacitance value.
Portugal, Netherlands
- University of Minho Portugal
- University of British Columbia Canada
- Delft University of Technology Netherlands
- TECHNISCHE UNIVERSITEIT DELFT Netherlands
- University of British Colombia Canada
squeeze-film damping, air channels, MEMS capacitive sensing, Air channels, Squeeze-film damping, Engineering(all)
squeeze-film damping, air channels, MEMS capacitive sensing, Air channels, Squeeze-film damping, Engineering(all)
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This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
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