Integrated optical diffractive micrograting-based injection force sensor

Integrated optical diffractive micrograting-based injection force sensor

We present a micrograting-based injection force sensor integrated with a surface micromachined silicon-nitride injector. The injector is supported by springs of known spring constant, and the injection force is determined from displacement measurements using a high-resolution, miniaturized optical e...

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Bibliographische Detailangaben
Hauptverfasser: Zhang, X.J., Zappe, S., Bernstein, R.W., Sahin, O., Chen, C.-C., Fish, M., Scott, M., Solgaard, O.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Calibration
Displacement measurement
Dynamic range
Force measurement
Force sensors
Integrated optics
Monitoring
Optical diffraction
Optical sensors
Springs
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Beschreibung
Zusammenfassung:We present a micrograting-based injection force sensor integrated with a surface micromachined silicon-nitride injector. The injector is supported by springs of known spring constant, and the injection force is determined from displacement measurements using a high-resolution, miniaturized optical encoder. The sensor exhibits configurable sensitivity and dynamic range, allowing monitoring over a wide range of forces. The periodicity of the encoder response can be used for calibration and to obtain information about the deformation of the target. We used an injector with a measured spring constant of 1.85 N/m for penetration experiments on Drosophila embryos, and found a penetration force of 52.5/spl plusmn/13.2% /spl mu/N and a membrane displacement of 58/spl plusmn/5.2% /spl mu/m.
DOI:10.1109/SENSOR.2003.1216949