Position sensor
First Claim
1. A position sensor comprising:
- a resonance circuit which includes a detection coil and a capacitor connected in parallel with the detection coil;
a detector which is arranged near the detection coil and is displaced along a specified orbit with respect to the detection coil in response to a displacement of a target object;
an oscillation circuit configured to supply a feedback current to the resonance circuit to sustain an oscillation of the resonance circuit, and output an oscillation signal of a frequency corresponding to an inductance of the detection coil varying depending on the displacement of the detector; and
a signal processing circuit configured to detect the displacement of the target object based on the oscillation signal outputted from the oscillation circuit,wherein the oscillation circuit includes an amplitude detection circuit configured to detect an amplitude of an oscillation signal outputted from the resonance circuit, and a negative conductance control circuit configured to control a negative conductance of the oscillation circuit, the oscillation circuit forming a negative feedback loop to control the negative conductance control circuit such that the amplitude of the oscillation signal outputted from the resonance circuit is constant.
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Accused Products
Abstract
A position sensor includes a detector, an oscillation circuit, a signal processing circuit, and a resonance circuit having a detection coil and a capacitor. The oscillation circuit forms a negative feedback loop from: an amplitude detection circuit that detects an amplitude of an oscillation signal outputted from the resonance circuit; an integrating circuit that outputs a signal corresponding to a difference between a predetermined reference voltage and the amplitude of the oscillation signal; a negative conductance control circuit that, based on the output of the integrating circuit, controls the negative conductance of the oscillation circuit such that the amplitude of the oscillation signal is equals to the predetermined reference voltage; and an operational amplifier that adjusts such that the oscillation voltage of the resonance circuit is equal to the applied voltage of the negative conductance control circuit.
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Citations
9 Claims
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1. A position sensor comprising:
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a resonance circuit which includes a detection coil and a capacitor connected in parallel with the detection coil; a detector which is arranged near the detection coil and is displaced along a specified orbit with respect to the detection coil in response to a displacement of a target object; an oscillation circuit configured to supply a feedback current to the resonance circuit to sustain an oscillation of the resonance circuit, and output an oscillation signal of a frequency corresponding to an inductance of the detection coil varying depending on the displacement of the detector; and a signal processing circuit configured to detect the displacement of the target object based on the oscillation signal outputted from the oscillation circuit, wherein the oscillation circuit includes an amplitude detection circuit configured to detect an amplitude of an oscillation signal outputted from the resonance circuit, and a negative conductance control circuit configured to control a negative conductance of the oscillation circuit, the oscillation circuit forming a negative feedback loop to control the negative conductance control circuit such that the amplitude of the oscillation signal outputted from the resonance circuit is constant. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification