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Effective and Active Temperature Compensation of High-Pressure Mems Pressure Transducers for Aerospace Applications


Affiliations
1 Indian Institute of Science, Bangalore, India
2 NMIT, Bangalore, India
     

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In this Paper, we present the effect of active (programmable) temperature compensation for 0-200Bar in house developed Aerospace quality MEMS gauge Pressure Transducers using ZMD based IC. Two numbers of 0-200 Bar Gauge Pressure MEMS Transducer’s raw output (in mV) was compared with temperature and span compensated amplified output values (in Volts). The drift values were calculated. The effect of Nonlinearity+Hysteresis, Full Scale Output (FSO) and Zero Offset for various input temperatures were tabulated and a graph was drawn. A Static hydraulic dead weight calibrator (Fluke Make P3125) was used and a linear relation between Pressure Vs Output was obtained. The raw output data in mV as well as temperature (-40ºC to +80ºC) compensated output (in Volts) was plotted with respect to input Pressure. The Non linearity +Hysteresis value after temperature compensation was found to be 0.3%FSO. Temperature drift values obtained were better than 2 x 10-4/FSO/ºC.

Keywords

MEMS Pressure Transducer, Temperature compensation, Nonlinearity+Hysteresis.
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  • Effective and Active Temperature Compensation of High-Pressure Mems Pressure Transducers for Aerospace Applications

Abstract Views: 221  |  PDF Views: 0

Authors

B. Pavithra
Indian Institute of Science, Bangalore, India
C. Linet Thomas
Indian Institute of Science, Bangalore, India
N. Veera Pandi
Indian Institute of Science, Bangalore, India
K. Sankaran
Indian Institute of Science, Bangalore, India
Nithin
Indian Institute of Science, Bangalore, India
Smitha G. Prabhu
NMIT, Bangalore, India
K. N. Bhat
Indian Institute of Science, Bangalore, India

Abstract


In this Paper, we present the effect of active (programmable) temperature compensation for 0-200Bar in house developed Aerospace quality MEMS gauge Pressure Transducers using ZMD based IC. Two numbers of 0-200 Bar Gauge Pressure MEMS Transducer’s raw output (in mV) was compared with temperature and span compensated amplified output values (in Volts). The drift values were calculated. The effect of Nonlinearity+Hysteresis, Full Scale Output (FSO) and Zero Offset for various input temperatures were tabulated and a graph was drawn. A Static hydraulic dead weight calibrator (Fluke Make P3125) was used and a linear relation between Pressure Vs Output was obtained. The raw output data in mV as well as temperature (-40ºC to +80ºC) compensated output (in Volts) was plotted with respect to input Pressure. The Non linearity +Hysteresis value after temperature compensation was found to be 0.3%FSO. Temperature drift values obtained were better than 2 x 10-4/FSO/ºC.

Keywords


MEMS Pressure Transducer, Temperature compensation, Nonlinearity+Hysteresis.