An Innovative Technology for Measuring The Dynamic Characteristics of Pressure Sensors

Ho Chang; Mu Jung Kao; Tsing Tshih Tsung; J.L. Wu

doi:10.4028/www.scientific.net/MSF.505-507.1057

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HomeMaterials Science ForumMaterials Science Forum Vols. 505-507An Innovative Technology for Measuring The Dynamic...

An Innovative Technology for Measuring The Dynamic Characteristics of Pressure Sensors

Abstract:

This study developed a square-like pressure wave generator as an excitation source to test dynamic characteristics of pressure sensors. The developed generator can generate a square-like pressure wave of as high as 2 kHz and can achieve high-frequency switching by utilizing the differential principle through a series of mechanical rotations between the revolving spindle and revolving ring. The square-like pressure wave generated is input into the hydraulic system while the output voltage signals given by the pressure sensor can be analyzed by spectrum analysis to obtain dynamic characteristics of the pressure sensor

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Periodical:

Materials Science Forum (Volumes 505-507)

Pages:

1057-1062

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.505-507.1057

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Online since:

January 2006

Authors:

Ho Chang, Mu Jung Kao, Tsing Tshih Tsung, J.L. Wu

Keywords:

Pressure Sensor, Spectrum Analysis, Square-Like Pressure Wave Generator

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References

[1] W. Backe, Servor Oelhydraulik. Umdruck zur Vorlesung RWTH Aachen. (1986).

Google Scholar

[2] W. Schoeneberger, B. Stoffel and J. Kiesbauer: Innenstroemungen in Hydraulikgeraeten. Literaturrecherche, Forschungsfonds der Fachgemeinschaft Fluidtechnik in VDMA. ( 1988).

Google Scholar

[3] T.T. Tsung, H. Chang, L.C. Chen, J.L. Wu and L.L. Han: Measurement Science and Technology Vol. 14 (2003), p. (1927).

Google Scholar

[4] O. Kobata: Sensors and Actuators Vol. 79 (2000), p.97.

Google Scholar

[5] W. Brodowski: Beitrag zur Klarung des stationaren und dynamischen Verhaltens direktwirkender Druckbegrenzungsventile. Dissertation RWTH Aachen (1973).

Google Scholar

[6] S.M. Kay: Modern Spectral Estimation Theory and Application, Prentice-Hall Inc (1988).

Google Scholar

[7] H. Karl: An Introduction to Measurements using Strain Gages, HBM Company (1989).

Google Scholar

[8] C.C. Perry and H.R. Lissner: The Strain Gage Primer, McGraw-Hill Inc (1981).

Google Scholar

[9] C. Endevco: Piezoresistive Pressure Transducers Instruction Manual, McGraw-Hill Inc (1997).

Google Scholar

[10] J. Esser: Adaptive Dampfung von Pulsationen in Hydraulikanlagen (1996).

Google Scholar

[11] W. Hagemeister: Auslegung von hochdynamischen servohydraulischen Antrieben fur eine aktive Frasspindellagerung (1999).

Google Scholar

[12] S. Mundry: Hochdynamischer Servohydraulischer Servozylinder, Olhydraulik und Pneumatik, Vol. 9 (1998), p.234.

Google Scholar