Feedback enhanced sensor, alternating magnetic field detector
First Claim
1. An active sensor system for detecting a time-varying magnetic field, comprising:
- a) a coil assembly having a ferromagnetic core; and
b) an operational amplifier operatively connected to said coil assembly, said operational amplifier having a positive feedback path to substantially cancel the combined dissipative loss of resistance and core eddy currents of said coil assembly, and incorporating a capacitively reactive element in said positive feedback path to inhibit direct current offset and increase attenuation at excitation frequencies below a cut-off value, and a negative feedback path to control the composite gain of said active sensor system, whereby said active sensor system is operative in an approximate frequently range of between 0.001 Hz to 10 KHz.
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Abstract
The present invention features an active sensor for detecting a magnetic field. The sensor includes a pickup coil wound on a semi-flexible bobbin, which in turn is mounted on a suitable core assembly. Optionally, the core/coil assembly can then be mounted on a flexible substrate. Thin strips of either standard or amorphous crystalline high-permeability alloy are laminated to form the core. Once the coil has been assembled with the core laminations, output leads from the coil are connected to conductors of a miniature coaxial cable, the sheath of which is grounded to the core laminations. An operational amplifier is connected to the coil assembly. The operational amplifier has a positive feedback path to substantially cancel the combined dissipative loss of resistance and core eddy currents of the coil assembly. The operational amplifier also has a negative feedback path to set the maximum gain of the active sensor.
90 Citations
16 Claims
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1. An active sensor system for detecting a time-varying magnetic field, comprising:
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a) a coil assembly having a ferromagnetic core; and b) an operational amplifier operatively connected to said coil assembly, said operational amplifier having a positive feedback path to substantially cancel the combined dissipative loss of resistance and core eddy currents of said coil assembly, and incorporating a capacitively reactive element in said positive feedback path to inhibit direct current offset and increase attenuation at excitation frequencies below a cut-off value, and a negative feedback path to control the composite gain of said active sensor system, whereby said active sensor system is operative in an approximate frequently range of between 0.001 Hz to 10 KHz. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An active, multi-channel sensor for detecting a time-varying magnetic field, comprising a plurality of coil assemblies with amplifiers, each of which is characterized by:
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a) a coil assembly having a ferromagnetic core; and b) amplifying means operatively connected to said coil assembly, said amplifying means having a negative effective input impedance to substantially eliminate the combined dissipative losses of coil and lead resistance and ferromagnetic core eddy currents of said coil assembly, said amplifying means further comprising a solid-state preamplifier having both a positive and a negative feedback path, said positive feedback path having a capacitively reactive element, whereby the sensitivity of the active sensor is determined by the negative feedback loop and negative effective input impedance is determined by the positive feedback loop, said amplifying means having an enhanced attenuation rate in a low-frequency stopband to mitigate alternating current magnetic field saturation effects, and further wherein said active, multi-channel sensor is operative within an approximate frequency range of between 0.001 Hz to 10 KHz. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
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Specification