Active feedback system for suppression of alternating magnetic fields
First Claim
1. A magnetic field compensation, closed-loop, wideband, negative-feedback system for suppressing alternating magnetic fields in a large volume of space, comprising:
- a) sensing means for detecting a predetermined range of simultaneous frequencies and for generating a first signal responsive thereto, said sensing means exhibiting a substantially constant phase shift over said predetermined range of simultaneous frequencies;
b) a pair of driven coils for generating a compensating magnetic field, said pair of driven coils being disposed in a close approximation of Helmholtz geometry;
c) signal processing means operatively connected to said sensing means for receiving said first signal generated thereby and for generating a second signal, said second signal being derived from said first signal and incorporating predetermined gain and phase correction thereof, said signal processing means further comprises an absolute peak detector for determining magnetic field peak excursions; and
d) power amplifying means operatively connected to said pair of driven coils and to said signal processing means for receiving and amplifying said second signal therefrom and for applying said amplified signal to said pair of driven coils, said power amplifying means, said pair of driven coils, said sensing means, and said signal processing means forming a closed-loop, wideband, negative-feedback suppression system, said suppression system having sufficient closed-loop gain to counteract a predetermined, highest anticipated instantaneous magnetic field.
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Abstract
The present invention features a magnetic field compensation system for suppressing alternating or time-varying magnetic fields in a large volume of space. A magnetic sensor detects within a predetermined range of frequencies and generates a signal. A coil or pair of Helmholtz drive coils is positioned into a volume containing the magnetic sensor. A preamplifier is connected to the magnetic sensor for amplifying the signal. A signal processor is connected to the preamplifier for receiving the signal and for providing phase correction and gain. The signal processor has both an averaging and an absolute peak detector for determining magnetic field average and peak excursions. A power amplifier is connected to the coil or pair of Helmholtz drive coils and to the signal processor for receiving and amplifying the processed signal and for applying it to the coil or pair of Helmholtz drive coils.
28 Citations
8 Claims
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1. A magnetic field compensation, closed-loop, wideband, negative-feedback system for suppressing alternating magnetic fields in a large volume of space, comprising:
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a) sensing means for detecting a predetermined range of simultaneous frequencies and for generating a first signal responsive thereto, said sensing means exhibiting a substantially constant phase shift over said predetermined range of simultaneous frequencies; b) a pair of driven coils for generating a compensating magnetic field, said pair of driven coils being disposed in a close approximation of Helmholtz geometry; c) signal processing means operatively connected to said sensing means for receiving said first signal generated thereby and for generating a second signal, said second signal being derived from said first signal and incorporating predetermined gain and phase correction thereof, said signal processing means further comprises an absolute peak detector for determining magnetic field peak excursions; and d) power amplifying means operatively connected to said pair of driven coils and to said signal processing means for receiving and amplifying said second signal therefrom and for applying said amplified signal to said pair of driven coils, said power amplifying means, said pair of driven coils, said sensing means, and said signal processing means forming a closed-loop, wideband, negative-feedback suppression system, said suppression system having sufficient closed-loop gain to counteract a predetermined, highest anticipated instantaneous magnetic field. - View Dependent Claims (2, 3)
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4. A magnetic field compensation, closed-loop, negative-feedback system for suppressing alternating magnetic fields in a large volume of space, comprising:
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a) first sensing means for detecting a predetermined range of simultaneous frequencies along a first axis and for generating a first sensor signal responsive thereto; b) a first pair of driven coils for generating a first compensating magnetic field; c) second sensing means for detecting a predetermined range of simultaneous frequencies along a second axis orthogonal to said first axis and for generating a second sensor signal responsive thereto; d) a second pair of driven coils for generating a second compensating magnetic field orthogonal to said first compensating magnetic field, said first and second pair of driven coils including Helmholtz drive coils; e) signal processing means having an absolute peak detector for determining magnetic field peak excursions, said signal processing means operatively connected to said first and second sensing means for receiving said first and second sensor signals generated thereby and for generating a signal, incorporating predetermined gain and phase correction thereof, and further incorporating a function for maximizing orthogonality between axes; and f) power amplifying means operatively connected to said first and second pairs of coils and to said signal processing means for receiving and amplifying said signal therefrom and for applying said amplified signal to said pairs of coils, said power amplifying means, said first and second pairs of driven coils, said first and second sensing means, and said signal processing means forming a closed-loop, negative-feedback suppression system; g) third sensing means for detecting a predetermined range of simultaneous frequencies along a third axis orthogonal to both said first and said second axes and for generating a third sensor signal responsive thereto; and h) a third pair of drive coils for generating a third compensating magnetic field orthogonal to both of said first and second orthogonal compensating magnetic fields; wherein said signal processing means is operatively connected to said third sensing means for receiving said third sensor signal generated thereby; and wherein said power amplifying means is operatively connected to said third pair of coils for applying said amplified signal to said third pair of coils. - View Dependent Claims (5, 6, 7, 8)
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Specification