A high pressure resonator transducer with programmed correction of static characteristics

• Autorzy: Tomczuk K.
• Języki publikacji: EN

Abstrakty

EN

A high pressure resonator transducer (0 to 100 MPa) devised by the author has been described. The elastic element of the converter consists of a cylinder with an offset arranged axis hole. Quartz resonators were used for the measurement of deformations of the pipe. Based upon the results of the transducer testing, a new algorithmic method for the minimizalizsation of the temperature error, that eliminates the need for a temperature gauge has been worked out.

Słowa kluczowe

EN

pressure transducer; quartz resonator; algorithmic correction

• Wydawca: Komitet Metrologii i Aparatury Naukowej PAN
• Czasopismo: Metrology and Measurement Systems
• Rocznik: 2013
• Tom: Vol. 20, nr 4
• Strony: 667--677
• Opis fizyczny: Bibliogr. 13 poz., rys., tab., wykr., wzory

Twórcy

autor

Tomczuk K.

• Institute of Aviation, Processing and Power Machines Engineering, Wroclaw University of Technology, Wybrzeze Wyspianskiego 27, 50-370 Wroclaw, Poland

Bibliografia

• [1] Newhall, D. H., Abbot, L. H. (1961). High-Pressure Measurement. Instruments & Control Systems.
• [2] Wisniewski, R., Molinar, G. (1999). Pressure standards and sensors up to 3 GPa, actual state and developmenttrends. Physica B: Condensed Matter, 265(1-4), 246-253.
• [3] Gillum, D. R. (2009). Industrial Pressure, Level, and Density Measurement (2nd Edition). International Society of Automation.
• [4] Kobata, T. (2005). Characterization of quartz Bourdon-type high-pressure transducers. Metrologia, 42(6), S235S238.
• [5] Kocas, I., Bergoglio, M. (December 2012). An investigation of quartz type pressure transducer behavior undercontinuous pressure conditions and metrological characterization. Measurement: Journal of theInternational Measurement Confederation, 45(10), 2486-2489.
• [6] Jia, R. (1999). Principle of pressure-temperature transducer of quartz crystal resonator. Proceedings of the Annual IEEE International Frequency Control Symposium, 1054-1057.
• [7] EerNisse, E. P. (1987). Theoretical modeling of quartz resonator pressure transducers, Proceedings of the Annual IEEE International Frequency Control Symposium, 339-343.
• [8] Werszko, M., Werszko, R. Rezonatorowy przetwornik cisnienia (A resonator pressure transducer), Patent PL 178676.
• [9] Karrer, E., Ward, R. (1977). A low-range quartz resonator pressure transducer, ISA Transactions, 16(2), 90-98.
• [10] Cheshmehdoost, A., Jones, B. E. (June 1995). Design and performance characteristics of an integrated highcapacity DETF-based force sensor, The 8th International Conference on Solid State Sensors and Actuators, and Eurosensors IX, Stockholm, Sweden, 52(1-3), 99-102.
• [11] Bryzek, J. (July 1994). Signal conditioning for smart sensors and transducers, Sensors (Peterborough, NH),11(7), 151-160.
• [12] Gleser, L. J. (1998). Assessing uncertainty in measurement, Statistical Science, 13(3).
• [13] Yadav, S., Gupta, V.K., Bandyopadhyay, A.K. (2010). Investigations on measurement uncertainty and stabilityof pressure dial gauges and transducers, Measurement Science Review, 10(4), 130-135.

Uwagi

EN

The work was financed by a statutory activity subsidy from the Polish Ministry of Science and Higher Education for the Faculty of Mechanical and Power Engineering of Wroclaw University of Technology.