Pair of electrically shielded triaxial magnetic sensors for determination of electric currents in conductors in air with distance and angle compensation
First Claim
1. An instrument designed to measure electric current flowing in a linear electrical conductor, the current thereby causing around the conductor a gradient of magnetic flux density, comprisinga) two assemblies of three orthogonal magnetic transducers at a set distance from each other, said two assemblies of three transducers being aligned on an axis normal to the electric conductor carrying the current, each assembly being used for the determination of the local magnetic flux density components x, y, z at two different locations within the instrument, the magnetic flux density components x, y, z at each location being represented by three electrical signals given by the three transducers of the corresponding assembly respectively;
- b) means to shield each of said magnetic transducers against electric fields originating from the conductor passing the current to be measured; and
c) means to process said signals, said means including;
precision electronic amplifier circuitry for amplifying each of said six signals;
multiplexer-Analog-to-Digital-Converter combination for digitizing each of the amplified signals; and
a microprocessor, for finding the root-means-square value of each of said six signals, generating from the root-means-square values the vectorial sum of the components x, y, z at each assembly location to determine the amplitude value of the magnetic flux density vector at each said assembly location, processing the amplitude values of said magnetic flux density vectors determined at said assembly locations into an electric current value using the equation ##EQU2## wherein B1 represents the magnetic flux density vector at one of said assembly locations, B2 represents the magnetic flux density vector at the other of said assembly locations and k is the distance between said assembly locations, and displaying said current value.
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Abstract
Two groups of magnetic field transducers shielded from electric fields and at a known distance from each other are contained in a portable instrument. Each group consists of 3 magnetic field transducers each sensitive to the magnetic field at a single point but according to three orthogonal orientations. Rapid reading of the magnetic field values measured by all 6 coils allows evaluation of the current in a straight electrical conductor relatively near to the apparatus on the basis of the direction and amplitude of the magnetic field vectors measured at the position of each group of 3 coils. Assuming that the conductor under scrutiny is the dominant magnetic influence in the area, the determination of both current and distance of the conductor is exact within a wide range of distances between apparatus and conductor and within a large number of orientations of the apparatus with respect to the conductor because of internal computational compensations performed by a microprocessor.
42 Citations
2 Claims
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1. An instrument designed to measure electric current flowing in a linear electrical conductor, the current thereby causing around the conductor a gradient of magnetic flux density, comprising
a) two assemblies of three orthogonal magnetic transducers at a set distance from each other, said two assemblies of three transducers being aligned on an axis normal to the electric conductor carrying the current, each assembly being used for the determination of the local magnetic flux density components x, y, z at two different locations within the instrument, the magnetic flux density components x, y, z at each location being represented by three electrical signals given by the three transducers of the corresponding assembly respectively; -
b) means to shield each of said magnetic transducers against electric fields originating from the conductor passing the current to be measured; and c) means to process said signals, said means including; precision electronic amplifier circuitry for amplifying each of said six signals; multiplexer-Analog-to-Digital-Converter combination for digitizing each of the amplified signals; and a microprocessor, for finding the root-means-square value of each of said six signals, generating from the root-means-square values the vectorial sum of the components x, y, z at each assembly location to determine the amplitude value of the magnetic flux density vector at each said assembly location, processing the amplitude values of said magnetic flux density vectors determined at said assembly locations into an electric current value using the equation ##EQU2## wherein B1 represents the magnetic flux density vector at one of said assembly locations, B2 represents the magnetic flux density vector at the other of said assembly locations and k is the distance between said assembly locations, and displaying said current value. - View Dependent Claims (2)
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Specification