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1045389X07084717v1
19/10/1207    most recent
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First published on April 21, 2008, doi:10.1177/1045389X07084717

Journal of Intelligent Material Systems and Structures 2008;19:1207.

A more recent version of this article appeared on October 1, 2008

Article

A New Transducer for Rotational and Translational Impedance Measurement

Xiaoyan Hou*, Shih Fu Ling, and Kok Hui Heng

School of Mechanical and Aerospace Engineering, Nanyang Technological University, Singapore 639798

* To whom correspondence should be addressed.


  Abstract

Measurement of rotational frequency response functions (FRFs) is important for a complete description of a dynamic system, as a full description requires consideration of both translational and rotational excitations. However, so far rotational FRFs have usually been neglected from analysis due to the absence of reliable and accurate measurement transducers and methods. This study presents a novel bimorph impedance transducer (BIT), which can accurately and easily measure rotational FRFs as well as translational ones. Through careful design, this transducer is only sensitive to one translational and one rotational degree of freedom (DOF) at a structural point, which are further decoupled from each other through controlling the phase of the electrical excitation supplied to the transducer. To investigate the effectiveness of the transducer, experiments using a one-dimensional beam as a test structure are carried out. The results show that the BIT is accurate in measuring both rotational and translational impedance of elastic structures. The measurement is performed simply by measuring the input electrical parameters of the BIT; consequently the direct measurement of moment/force and linear velocity/angular velocity, which are usually difficult to conduct in experiments, is avoided. As this transducer functions actuating and sensing simultaneously during measurement, the measurement system is also greatly simplified and the accurate driving-point measurement is achieved.

Key Words: piezoelectric bimorph, rotational impedance, translational DOF, sensor and actuator.


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