360 degree shaft angle sensing and remote indicating system using a two-axis magnetoresistive microcircuit
First Claim
1. Apparatus for sensing and indicating the angular position of a first rotor mounted for 360 degree rotation about a first axis, the apparatus comprising:
- a pair of stationary magnetoresistive sensors having magnetically sensitive axes at right angles to each other;
two-pole permanent magnet means connected for rotation with the rotor and axially spaced from said sensors for generating a non-saturating rotating magnetic field of substantially uniform intensity across said sensors with magnetic shunt as the rotor rotates through 360 degrees of rotation;
means for shielding the sensors from external magnetic sources;
first circuit means for supplying an input voltage to the sensors, said input voltage resulting in a pair of periodic output voltages offset by 90 degrees phase shift and associated with respective ones of said sensors;
second circuit means for conditioning said output voltages to produce a pair of associated conditioned voltage signals proportional to the periodic sine and cosine of the rotor angle; and
means for indicating the rotor angle through 360 degrees of rotation formulated from a continuous non-linear function of the ratio of said conditioned voltage signals with aircore meter.
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Accused Products
Abstract
A system for sensing and indicating the angular position of a shaft through 360 degrees of rotation using a two-axis magnetoresistive microcircuit, a two pole magnet which rotates with the input shaft, a two channel operational amplifier, and an electromechanical device such as air core meter indicator, or an electronic computer to provide remote shaft angle indication. The magnetoresistive microcircuit consists of two Wheatstone bridges with magnetic field sensitive resistor elements. The two pole magnet is attached to the input shaft and configured to provide a uniform, low level magnetic field with maximum intensity less than that which will saturate the magnetoresistive sensors. Operational amplifier circuits are trimmed to eliminate sensor offset, match scale factors for the two channels, and amplify the differential bridge sensor signals. As the input shaft rotates, sinusoidal signals V1 and V2 are obtained from the amplifiers with equal amplitude and a 90-degree phase shift. These signals may be transmitted to an analog-to-digital converter and microprocessor for calculating the indicated shaft angle θin by using the algorithm θin=arctangent (V1/V2). For mechanically repeating or indicating the angle of the shaft, V1 and V2 can be utilized to directly drive an air core meter. The air core meter consists of a two pole magnet attached to an indicator rotor shaft, and a pair of fixed electromagnetic coils would around the rotor shaft and wound at right angles to each other. The coils are energized by V1 and V2, respectively, causing the permanent magnet in the rotor to align itself with the vector sum of the magnetic fields created by current through the coils. The air core meter rotor angle θout=arctangent (V1/V2) such that the rotor tracks the shaft input angle θin on a one for one basis.
139 Citations
29 Claims
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1. Apparatus for sensing and indicating the angular position of a first rotor mounted for 360 degree rotation about a first axis, the apparatus comprising:
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a pair of stationary magnetoresistive sensors having magnetically sensitive axes at right angles to each other;
two-pole permanent magnet means connected for rotation with the rotor and axially spaced from said sensors for generating a non-saturating rotating magnetic field of substantially uniform intensity across said sensors with magnetic shunt as the rotor rotates through 360 degrees of rotation;
means for shielding the sensors from external magnetic sources;
first circuit means for supplying an input voltage to the sensors, said input voltage resulting in a pair of periodic output voltages offset by 90 degrees phase shift and associated with respective ones of said sensors;
second circuit means for conditioning said output voltages to produce a pair of associated conditioned voltage signals proportional to the periodic sine and cosine of the rotor angle; and
means for indicating the rotor angle through 360 degrees of rotation formulated from a continuous non-linear function of the ratio of said conditioned voltage signals with aircore meter. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11)
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2. Apparatus as defined in 1 in which said magnetic means includes a magnetic shunt positioned to assist in generating the non-saturating magnetic field across the sensors.
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12. Apparatus for sensing the angular position of a first rotor mounted for 360 degrees of rotation about a first axis, the apparatus comprising:
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a pair of stationary magnetoresistive Wheatstone bridge sensors;
permanent magnet means connected for rotation with the rotor and positioned to alter the resistance of the sensors according to associated periodic sinusoidal functions as the rotor rotates through 360 degrees of rotation;
first circuit means for supplying an input voltage to the sensors, said input voltage resulting in a pair of periodic output voltages associated with respective ones of said periodic functions;
second circuit means for conditioning said output voltages to produce a pair of associated conditioned voltage signals proportional to the periodic sine and cosine of the rotor angle and having equal peak amplitudes; and
means for indicating the rotor angle through 360 degrees of rotation characterized by formulation of the arctangent of the ratio of said conditioned voltage signals over the entire 360 degrees of rotation. - View Dependent Claims (13, 14, 16, 17, 18, 19, 20, 21, 22, 23, 24)
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15. Apparatus as defined in 14 further comprising a magnetic shunt connected for rotation with the magnet and positioned to reduce the magnetic flux density across the sensors to a level below the saturation limit of the sensors.
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25. Apparatus for sensing the angular position of a rotatable shaft mounted for rotation through 360 degrees of rotation about a first axis, the apparatus comprising:
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a pair of magnetoresistive Wheatstone bridge sensors having magnetically sensitive axes oriented at right angles to each other and to said axis of rotation;
a two-pole magnet mounted for rotation about said axis with the shaft, said magnet being sized and positioned to generate a non-saturating magnetic field of substantially uniform intensity across said sensors;
means for shielding the sensors from external magnetic sources;
first circuit means for supplying an input voltage to the sensors, said input voltage resulting in a pair of periodic output voltages associated with respective ones of said sensors;
second circuit means for conditioning the output voltage from said sensors to produce a pair of conditioned voltage signals proportional to the periodic sine and cosine of the shaft angle and having equal peak amplitudes; and
means for indicating the shaft angle formulated from the arctangent of the ratio of said conditioned voltage signals, said indicating means including one of electromechanical means for providing a visual indication of the shaft angle and microprocessor means for providing a digital representation of the shaft angle.
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26. Apparatus for sensing and indicating the angular position of a shaft mounted for 360 degrees of rotation, the apparatus comprising:
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a pair of magnetoresistive sensors;
a magnet connected for rotation with the shaft and positioned to alter the resistance of the sensors according to associated periodic sinusoidal functions as the rotor rotates through 360 degrees of rotation;
a magnetic shield encasing the sensors to shield the sensors from external magnetic interference effects;
a magnetic shunt connected for rotation with the shaft and positioned in the shield to assist in generating a non-saturating magnetic field of substantially uniform intensity across the sensors as the shaft rotates;
an input voltage source connected to the sensors, the input voltage resulting in a pair of periodic sensor output voltages associated with respective ones of said periodic resistance functions;
a signal conditioning circuit adapted to condition said output voltages to produce a pair of associated conditioned output voltage signals of equal peak amplitude and proportional to the periodic sine and cosine of the shaft angle; and
an angle position indicator responsive to the magnitude of said conditioned output voltages and operative to indicate the angular position of the shaft therefrom. - View Dependent Claims (27)
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28. Apparatus for sensing and indicating the angular position of a shaft mounted for 360 degrees of rotation about a first axis, the apparatus comprising:
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a pair of magnetoresistive sensors;
a magnet connected for rotation with the shaft and positioned to alter the resistance of the sensors according to associated periodic sinusoidal functions as the rotor rotates through 360 degrees of rotation;
an input voltage source connected to the sensors, the input voltage resulting in a pair of periodic sensor output voltages associated with respective ones of said periodic resistance functions;
a signal conditioning circuit adapted to condition said output voltages to produce a pair of associated conditioned output voltage signals of equal peak amplitude and proportional to the periodic sine and cosine of the shaft angle; and
an air core meter including (i) a pair of coils receiving respective ones of said conditioned output voltage signals, and (ii) a rotor mounted for rotation about a second axis remote from the first axis, the rotor being rotationally responsive to the electromagnetic field developed in the coils from said conditioned voltage signals for visually indicating the angular position of the shaft. - View Dependent Claims (29)
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Specification