Pickupless magnetostrictive position measurement apparatus
First Claim
1. A magnetostrictive position measurement apparatus comprising:
- a circuit including a magnetostrictive wire having first and second opposed ends, the circuit transmitting an electrical excitation pulse and detecting a return signal indicative of the position of a first magnet along the magnetostrictive wire on the basis of the time delay between the detection of the return signal relative to the transmission of the electrical excitation pulse;
the first magnet displaceable relative to the magnetostrictive wire, the first magnet interacting with the electrical excitation pulse and generating first and second oppositely propagating torsional waves in the magnetostrictive wire; and
means for reflecting the second torsional wave from the second end of the magnetostrictive wire to the first magnet wherein the magnetic field of the first magnet interacts with the second torsional wave to induce an electrical current in the magnetostrictive wire, the electrical current acting as the return signal.
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Accused Products
Abstract
A method and apparatus for determining the position of a movable object along a magnetostrictive wire having first and second opposed ends. A first electrical excitation pulse is applied to a two-wire circuit including the magnetostrictive wire and propagates along the wire to the position of a movable magnet surrounding the wire. The magnet generates oppositely directed first and second torsional waves in the wire. One torsional wave propagates along the wire to a reflective termination at the second end of the wire and is reflected back toward the magnet where it interacts with the magnetic field of the magnet to induce a return electrical pulse in the two-wire circuit. The position of the magnet along the wire is determined from the time differential between the first and second electrical pulses in the two-wire circuit. In another embodiment, a second magnet is mounted in a fixed position about the wire and generates oppositely directed third and fourth torsional waves in response to the first excitation signal, one of which propagates along the wire toward the first magnet which induces an electromagnetic force in the two-wire circuit. A torsional wave generated by the first movable magnet in response to the excitation signal induces another electromotive force in the two-wire circuit when it propagates to the second magnet.
48 Citations
12 Claims
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1. A magnetostrictive position measurement apparatus comprising:
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a circuit including a magnetostrictive wire having first and second opposed ends, the circuit transmitting an electrical excitation pulse and detecting a return signal indicative of the position of a first magnet along the magnetostrictive wire on the basis of the time delay between the detection of the return signal relative to the transmission of the electrical excitation pulse; the first magnet displaceable relative to the magnetostrictive wire, the first magnet interacting with the electrical excitation pulse and generating first and second oppositely propagating torsional waves in the magnetostrictive wire; and means for reflecting the second torsional wave from the second end of the magnetostrictive wire to the first magnet wherein the magnetic field of the first magnet interacts with the second torsional wave to induce an electrical current in the magnetostrictive wire, the electrical current acting as the return signal. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A magnetostrictive measurement apparatus comprising:
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a circuit including a magnetostrictive wire having first and second opposed ends, the circuit transmitting an electrical excitation pulse and detecting a return signal therefrom indicative of the position of a magnet means along the magnetostrictive wire; a first magnet displaceable relative to the magnetostrictive wire, the first magnet interacting with the electrical excitation pulse and generating first and second oppositely propagating torsional waves in the magnetostrictive wire; a second magnet fixedly positioned relative to the magnetostrictive wire and interacting with the electrical excitation pulse and generating third and fourth oppositely propagating torsional waves in the magnetostrictive wire; and
whereinone of the first and second torsional waves and one of the third and fourth torsional waves generated by the first and second magnets, respectively, propagating on the magnetostrictive wire to the other of the first and second magnets and interacting with the magnetic field of the other of the first and second magnets to generate separate electrical currents in the magnetostrictive wire, the separate electrical currents being additive and forming the return signal. - View Dependent Claims (8)
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9. A method of determining the position of a magnet along a length of wire comprising the steps of:
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forming a circuit including a magnetostrictive wire having first and second ends; exciting the circuit with an electrical excitation pulse; movably disposing a first magnet relative to the magnetostrictive wire; generating first and second oppositely directed torsional waves at the position of the magnet through the interaction of the magnetic field of the magnet and the magnetic field associated with the electrical excitation pulse; reflecting the second torsional wave in the magnetostrictive wire generated by the electrical excitation pulse from the second end of the wire to the first magnet wherein the magnetic field of the first magnet means interacts with the second torsional wave to induce electrical current in the magnetostrictive wire; and determining the position of the magnet along the magnetostrictive wire based on the time differential between the transmission of the electrical excitation pulse on the circuit and the detection of the electrical current in the circuit. - View Dependent Claims (10)
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11. A method of wherein the step of propagation a torsional wave determining the position of a magnet along a length of wire comprising the steps of:
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forming a circuit including a magnetostrictive wire having first and second ends; excitind the circuit with an electrical excitation pulse; movably disposing a first magnet relative to the magnetostrictive wire; generating first and second oppositely directed torsional waves at the position of the magnet through the interaction of the magnetic field of the magnet and the magnetic field associated with the electrical excitation pulse; mounting a second magnet in a fixed reference position about the magnetostrictive wire; generating third and fourth oppositely directed torsional waves propagating along the magnetostrictive wire by the interaction of the electrical excitation pulse and the magnetic field of the second magnet; and generating a first electrical current in the circuit through the interaction of the second torsional wave and the second magnet and a second electrical current in the circuit through the interaction of the fourth torsional wave and the first magnet. - View Dependent Claims (12)
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Specification