Abstract
The main purpose of this work is to explore the use of the Giant Magneto Impedance effect
(GMI) in a sensor to detect low frequency vibrations of moving objects. This effect is
characterized by huge variations of the high frequency electric impedance of a soft magnetic
conductor under the action of an external magnetic field. Thus, the detection principle is based
on the characterisation of t ...
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The main purpose of this work is to explore the use of the Giant Magneto Impedance effect
(GMI) in a sensor to detect low frequency vibrations of moving objects. This effect is
characterized by huge variations of the high frequency electric impedance of a soft magnetic
conductor under the action of an external magnetic field. Thus, the detection principle is based
on the characterisation of the magnetic field generated by a permanent magnet attached to the
object under movement (vibration).
Before analysing the configuration of the sensor, it was necessary to study different materials
to be employed as sensor nucleus. This previous characterization enabled to select the material
with optimum response (maximum impedance variation) and to determine the optimum
operation conditions. These two main parameters which were studied are: frequency and
current. In order to obtain the best sensor’s response, it must be powered with the optimum
values of frequency and current.
Once the optimum parameters of the exciting frequency were determined, the response of the
sensor was studied for several vibration frequencies and under certain conditions. [--]
Degree
Graduado o Graduada en Ingeniería en Tecnologías Industriales por la Universidad Pública de Navarra /
Industria Teknologietako Ingeniaritzan Graduatua Nafarroako Unibertsitate Publikoan
