Predictive thermal model for indirect temperature measurement inside atomic cell of nuclear magnetic resonance gyroscope

Predictive thermal model for indirect temperature measurement inside atomic cell of nuclear magnetic resonance gyroscope

This paper describes a methodology for predicting temperatures inside a micro-device at critical locations where thermal sensors cannot be placed. The device under study is a nuclear magnetic resonance gyroscope, an instrument that is highly sensitive to temperature variations. A physical thermal mo...

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Hauptverfasser: Salleras, M., Eklund, E.J., Prikhodko, I.P., Shkel, A.M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
atomic gyroscope
Atomic measurements
atomic MEMS
compact thermal model
Gyroscopes
Instruments
Magnetic sensors
Nuclear magnetic resonance
Predictive models
Sensor phenomena and characterization
Temperature measurement
Temperature sensors
Thermal sensors
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Beschreibung
Zusammenfassung:This paper describes a methodology for predicting temperatures inside a micro-device at critical locations where thermal sensors cannot be placed. The device under study is a nuclear magnetic resonance gyroscope, an instrument that is highly sensitive to temperature variations. A physical thermal model of the device is developed and validated using experimental measurements from a prototype. A compact thermal model which approximates the behavior of the physical system is obtained through a sequential selection algorithm (with RMS error of approximately 0.15degC). The compact thermal model can be solved rapidly and is therefore suitable for real-time feedback control of the temperature inside the atomic cell.
ISSN:2159-547X
DOI:10.1109/SENSOR.2009.5285502