High sensitivity saturable core magnetic field sensor with symmetrical structure
First Claim
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1. A high sensitivity magnetic field sensor comprising:
- a high permeability magnetic circuit including a closed-type magnetic core,excitation means wound around said magnetic core for periodically saturating said magnetic circuit,two identical windings symmetrically wound around symmetrical parts of said magnetic circuit, each of said parts being crossed by corresponding magnetic fluxes,identical first and second capacitors, respectively connected to the terminals of said first and second windings, andmeans responsive to the corresponding magnetic fluxes for measuring the difference between the magnetic fluxes crossing said parts;
wherein the capacitance of the capacitors is chosen in relation to the value of the inductances of said windings and the periodicity of the excitation signal, so that the two capacitors are charged by the voltage generated across the terminals of the windings during desaturation phases of the magnetic circuit, so that the two resonant circuits formed by each assembly of one capacitor and one winding start free oscillations during the saturation phase of the magnetic circuit, and so that the commutations of the excitation signal take place during the free oscillations while the difference in voltages at the terminals of the windings is reversed with respect to the preceding commutation.
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Abstract
A high sensitivity magnetic field sensor comprises a high permeability magnetic circuit (10) and excitation means (Le) for periodically saturating the magnetic circuit. Two identical windings (L1, L2) are symmetrically wound around symmetrical parts (A, B) of the magnetic circuit. Identical first and second capacitors (C1, C2) are respectively connected to the terminals of the windings. The voltages on the windings determine the value of the magnetic field.
22 Citations
6 Claims
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1. A high sensitivity magnetic field sensor comprising:
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a high permeability magnetic circuit including a closed-type magnetic core, excitation means wound around said magnetic core for periodically saturating said magnetic circuit, two identical windings symmetrically wound around symmetrical parts of said magnetic circuit, each of said parts being crossed by corresponding magnetic fluxes, identical first and second capacitors, respectively connected to the terminals of said first and second windings, and means responsive to the corresponding magnetic fluxes for measuring the difference between the magnetic fluxes crossing said parts; wherein the capacitance of the capacitors is chosen in relation to the value of the inductances of said windings and the periodicity of the excitation signal, so that the two capacitors are charged by the voltage generated across the terminals of the windings during desaturation phases of the magnetic circuit, so that the two resonant circuits formed by each assembly of one capacitor and one winding start free oscillations during the saturation phase of the magnetic circuit, and so that the commutations of the excitation signal take place during the free oscillations while the difference in voltages at the terminals of the windings is reversed with respect to the preceding commutation. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification