Title :
Output Properties of Zero-Speed Sensors Using FeCoV Wire and NiFe/CoFe Multilayer Thin Film
Author :
Takemura, Yasushi ; Yamada, T.
Author_Institution :
Div. of Electr. & Comput. Eng., Yokohama Nat. Univ.
Abstract :
Output properties of magnetic sensors generating pulse voltages are described. The sensors principally consisted of double magnetic layers with different coercive forces. Both of thin-film-based material and wire-based material were used for the double layers. When the magnetization of one of the layers was switched by an external magnetic field, a pulse voltage was induced in a pickup-coil wound around the materials. The magnetic sensor using a twisted FeCoV wire, the conventional material for the Wiegand effect, had the disadvantage of the asymmetric output voltage generated by the alternative magnetic field. It was found that a magnetic wire, whose ends were slightly etched, exhibited symmetric output voltage. The sensor element consisting of a patterned NiFe/CoFe multilayer thin film was also studied. Constant output voltage was obtained from this thin-film sensor using an excitation magnetic field at frequencies down to 0.1 Hz
Keywords :
Barkhausen effect; cobalt alloys; iron alloys; magnetic multilayers; magnetic sensors; magnetic thin films; nickel alloys; vanadium alloys; FeCoV; FeCoV wire; NiFe-CoFe; NiFe-CoFe multilayer thin film; Wiegand effect; double magnetic layers; external magnetic field; large Barkhausen effect; magnetic sensors; magnetic thin films; pickup-coil; pulse voltage generation; rotation sensor; thin film sensor; velocity sensor; zero-speed sensors; Magnetic materials; Magnetic multilayers; Magnetic properties; Magnetic sensors; Magnetization; Nonhomogeneous media; Pulse generation; Thin film sensors; Voltage; Wire; Large Barkhausen effect; Wiegand effect; magnetic sensor; magnetic thin films; magnetic wires; rotation sensor; velocity sensor;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2006.881345
