Self-induction-type position detector device for detecting object position
First Claim
1. A position detector device comprising:
- a coil section including at least one coil to be excited by an A.C. signal;
a magnetism-responsive member movable relative to said coil section, wherein relative positions between said magnetism-responsive member and said coil section vary in response to displacement of an object to be detected and impedance of said coil is caused to vary in response to a variation in the relative positions in such a manner that a voltage produced in said coil is caused to vary in response to a variation in the impedance of said coil during the variation in the relative positions within a predetermined range;
a reference-voltage generation circuit adapted to generate at least one predetermined reference voltage in the form of an A.C. signal; and
an arithmetic operation circuit coupled to said coil and reference-voltage generation circuit, said arithmetic operation circuit adapted to perform an arithmetic operation between said voltage produced in said coil and said predetermined reference voltage, so as to generate at least two A.C. output signals having predetermined cyclic amplitude functions as amplitude coefficients, the cyclic amplitude functions of the two A.C. output signals being different, in their cyclic characteristics, from each other by a predetermined phase.
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Accused Products
Abstract
Single coil to be excited by a predetermined A.C. signal is provided, with no secondary coil being provided. Magnetism-responsive member is movable relative to the coil so that a self-inductance of the coil progressively increases or decreases in response to displacement of an object to be detected within a predetermined range and a voltage of the coil corresponding to the self-inductance is produced. Predetermined reference voltage is generated and subjected to analog operations with the coil output voltage, to thereby generate first and second A.C. outputs having, as amplitude coefficients, first and second cyclic amplitude functions correlated to the position to be detected. The position is detected on the basis of the phase component of the amplitude coefficient functions. Combination of two coils and one reference voltage may be employed. Further, a plurality of coil segments excitable by a same-phase signal are placed in series along the direction of displacement of the object so that a progressive increase or decrease occurs sequentially in the self-inductance of the coil segments as the magnetism-responsive member moves relative to the coil segments, and the voltage corresponding to the self-inductance is taken out from each of the coil segments. Performing analog arithmetic operations on combinations of the coil voltages produces first and second A.C. outputs having, as amplitude coefficients, first and second cyclic amplitude functions correlated to the position to be detected.
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Citations
8 Claims
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1. A position detector device comprising:
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a coil section including at least one coil to be excited by an A.C. signal;
a magnetism-responsive member movable relative to said coil section, wherein relative positions between said magnetism-responsive member and said coil section vary in response to displacement of an object to be detected and impedance of said coil is caused to vary in response to a variation in the relative positions in such a manner that a voltage produced in said coil is caused to vary in response to a variation in the impedance of said coil during the variation in the relative positions within a predetermined range;
a reference-voltage generation circuit adapted to generate at least one predetermined reference voltage in the form of an A.C. signal; and
an arithmetic operation circuit coupled to said coil and reference-voltage generation circuit, said arithmetic operation circuit adapted to perform an arithmetic operation between said voltage produced in said coil and said predetermined reference voltage, so as to generate at least two A.C. output signals having predetermined cyclic amplitude functions as amplitude coefficients, the cyclic amplitude functions of the two A.C. output signals being different, in their cyclic characteristics, from each other by a predetermined phase. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
said reference-voltage generation circuit generates first and second reference voltages, and said arithmetic operation circuit performs predetermined first and second arithmetic operations using a voltage produced in said single coil and said first and second reference voltages, to thereby generate a first A.C. output signal having a first amplitude function as an amplitude coefficient and a second A.C. output signal having a second amplitude function as an amplitude coefficient. -
3. A position detector device as claimed in claim 2 wherein said first and second reference voltages define specific phase sections in cyclic characteristics of said first and second amplitude functions of said first and second A.C. output signals, and wherein correspondence between the specific phase sections and a variation range of the relative positions can be varied by varying said first and second reference voltages.
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4. A position detector device as claimed in claim 1 wherein said reference-voltage generation circuit includes a coil of predetermined impedance which is positioned so as not to be influenced by a movement of said magnetism-responsive member.
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5. A position detector device as claimed in claim 1 wherein said coil includes a magnetic core and said magnetism-responsive member has a flat surface that is opposed to said magnetic core of said coil with an air gap interposed therebetween, and wherein as the flat surface of said magnetism-responsive member moves in response to a changing position of the object to be detected, there occurs a dimensional variation in the air gap which brings about a variation in the impedance of said coil.
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6. A position detector device as claimed in claim 1 wherein said coil includes a magnetic core, and the impedance of said coil is caused to vary as a distance defined by an air gap between said magnetic core and said magnetism-responsive member or an area of the air gap varies in response to a changing position of the object to be detected.
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7. A position detector device as claimed in claim 2 wherein said first and second amplitude functions are sine and cosine functions, respectively.
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8. A position detector device as claimed in claim 1 wherein said magnetism-responsive member includes at least one of a magnetic substance and an electrically-conductive substance.
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Specification