Electronic compass and attitude sensing system
First Claim
1. A fluxgate sensor drive and sensing circuit, comprising:
- a plurality of fluxgate sensors, each having a core, an excitation coil, and one or more sensing coils;
a drive circuit providing an excitation signal to said excitation coil, said signal having alternating changes in polarity, said changes in polarity being separated by a relaxation period of no excitation current; and
an integrator integrating the output of said sensing coils.
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Abstract
An electronic heading and attitude sensing subsystem which is fully integrated with the existing hardware of an acoustic Doppler current profiler (ADCP) oceanographic sonar suite to reduce the size and complexity of the apparatus. The subsystem uses a tri-state drive signal with relaxation periods and integration windows to synchronously drive the fluxgate magnetic sensors while reducing the effects of non-linearities and higher order harmonics which may result in heading errors. The present invention includes an electrolytic tilt sensor device and driving circuit which allow measurement of system vertical orientation without the effects of electrolyte conductivity are described. The present invention further includes methods of system calibration, magnetic perturbation modeling, and heading calculation.
44 Citations
6 Claims
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1. A fluxgate sensor drive and sensing circuit, comprising:
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a plurality of fluxgate sensors, each having a core, an excitation coil, and one or more sensing coils; a drive circuit providing an excitation signal to said excitation coil, said signal having alternating changes in polarity, said changes in polarity being separated by a relaxation period of no excitation current; and an integrator integrating the output of said sensing coils. - View Dependent Claims (2, 3, 4, 5)
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6. A method of measuring the orientation of a device disposed in a magnetic field, comprising the steps of:
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providing a plurality of fluxgate sensors, each of said sensors having an excitation coil and one or more sensing coils; providing an excitation signal having alternating changes in polarity to said excitation coils, each of said changes in polarity being separated by a relaxation period of no excitation current; measuring the output signal of said sensing coils; integrating said output signals measured from said second coils during selected time periods, said time periods being functionally related to said relaxation periods; and measuring the orientation of said fluxgate sensor based on said integrated signals.
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Specification