Magnetostrictive linear displacement transducer utilizing axial strain pulses
First Claim
1. A magnetostrictive linear displacement transducer, comprising:
- an elongated member of a material with a large magnetostriction coefficient, the member having a first end and a second end, the member having a folded-back portion adjacent the second end;
an excitation coil extending along the member;
means for generating electrical signals, said means being connected to the coil and producing axial magnetic fields along the member;
a magnet adjacent the member; and
means for determining time delays between said signals and axial strain pulses travelling along the member caused by magnetostrictive changes in the member adjacent the magnet and accordingly the position of the magnet along the member, the means for determining including a piezoelectric device connected to the first end of the member.
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Accused Products
Abstract
A magnetostrictive linear displacement transducer includes an elongated member of a material with a large magnetostriction coefficient. There is a coil and a pulse driver for magnetizing the member to cause a detectable magnetostrictive effect for short discrete periods of time. A magnet is movable along the path adjacent the member and is capable of magnetizing a localized portion of the member adjacent the magnet efficiently to cause an alteration in the magnetostrictive effect in the localized portion in concert with the pulse driver and the coil. There is a piezoelectric device at one end for detecting axial strain pulses propagated along the member caused by the magnetostrictive effect. There is a comparator for measuring time lags between initiation of each separate discrete period of time and detection of a corresponding strain pulses by the piezoelectric device and thereby a position of the magnet along the path.
72 Citations
18 Claims
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1. A magnetostrictive linear displacement transducer, comprising:
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an elongated member of a material with a large magnetostriction coefficient, the member having a first end and a second end, the member having a folded-back portion adjacent the second end; an excitation coil extending along the member; means for generating electrical signals, said means being connected to the coil and producing axial magnetic fields along the member; a magnet adjacent the member; and means for determining time delays between said signals and axial strain pulses travelling along the member caused by magnetostrictive changes in the member adjacent the magnet and accordingly the position of the magnet along the member, the means for determining including a piezoelectric device connected to the first end of the member. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A magnetostrictive linear displacement transducer comprising:
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an elongated member of a material with a large magnetostrictive coefficient; first means for magnetizing the member with an axial magnetic field sufficient to put the member into magnetostrictive saturation for short discrete periods of time; second means movable relatively along a path adjacent the member and capable of magnetizing a localized portion of the member adjacent the second means sufficiently to cause a magnetic field in the localized portion which counters the magnetic field caused by the first means and taking said localized portion out of magnetostrictive saturation during each discrete period of time; third means for detecting axial strain pulses propagated along the member and caused by the taking out of the localized portion from magnetostrictive saturation; and fourth means for measuring time lags between initiation of each said separate discrete period of time and detection of a corresponding said strain pulse by the third means and thereby a position of the second means along the path.
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14. An magnetostrictive linear displacement transducer, comprising:
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a length of wire having a first end and a second end, the wire being of a stiff material with a high magnetostrictive coefficient; a coil of an electrically conductive material wound about the wire from the first end to the second end; a first piezoelectric detector connected to the second end of the wire to detect axial strain pulses travelling along the wire; a magnet movable relatively along a path parallel to the wire; a current pulse generator connected to the coil; and a means connected to the pulse generator and the piezoelectric detector to ascertain time delays between current pulses generated by said pulse generator and strain pulses caused by a magnetostrictive effect adjacent the magnet and, accordingly, the position of the magnet along the wire. - View Dependent Claims (15, 16, 17, 18)
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Specification