Title :
Improving the Accuracy of Magnetostrictive Linear Position Sensors
Author :
Seco, Fernando ; Martin, Joshua M. ; Jiménez, Antonio Ramãn
Author_Institution :
Consejo Super. de Investig. Cientificas, Inst. de Autom. Ind., Madrid
fDate :
3/1/2009 12:00:00 AM
Abstract :
Magnetostrictive (MS) sensors are based on the transmission of ultrasonic signals in a waveguide and constitute an interesting alternative to optical encoders for long-range absolute high-precision measurement of linear position. Despite their inherent conceptual simplicity, many aspects of the sensor design must be considered to achieve an accuracy in the 10-mum range. This paper describes research in a new kind of MS linear position sensor, focusing on the enhancement of the processes of generation, transmission, and reception of the ultrasonic waves, with the aim of obtaining high measurement accuracy. Empirical results obtained with a sensor prototype indicate an improvement of six times over the precision of standard MS sensors.
Keywords :
acoustic waveguides; magnetic sensors; magnetostrictive devices; position measurement; ultrasonic devices; ultrasonic measurement; linear position sensor; magnetostrictive sensor; position measurement; ultrasonic signal transmission; ultrasonic wave generation; ultrasonic wave reception; ultrasonic waveguide; Acoustic applications; magnetostrictive (MS) devices; position measurement;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2008.2005260
