Techniques for calibrating a linear position sensor
First Claim
1. A method of sensing a position of an object located within an enclosure over a position range, the method comprising:
- generating an expected output signal of each of a plurality of magnetic field sensors disposed along an outer surface of the enclosure between a first end and a second end of the enclosure;
receiving a plurality of actual output signals from the plurality of magnetic field sensors, wherein each of the plurality of actual output signals indicates a relative proximity of a magnetic target coupled to the object to the corresponding one of the plurality of magnetic field sensors;
superimposing the expected output signal over the plurality of actual output signals;
iteratively shifting the expected output signal of each of the plurality of magnetic field sensors over position relative to the actual output signals of each of the plurality of magnetic field sensors and comparing the shifted expected output signal to the plurality of actual output signals, until the shifted expected output signal compared to the plurality of actual output signals corresponds to a substantially minimized error parameter; and
determining the position of the object within the enclosure over the position range based at least in part on the shifted expected output signal.
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Abstract
Techniques are described for sensing a position of an object located within an enclosure over a position range. The techniques include generating an expected output signal of each of a plurality of magnetic field sensors disposed along an outer surface of the enclosure, receiving actual output signals from the sensors, wherein each actual output signal indicates a relative proximity of a magnetic target coupled to the object to the corresponding sensor. The techniques further include superimposing the expected output signal over the actual output signals, and iteratively shifting the expected output signal over position relative to the actual output signals and comparing the shifted expected output signal to the actual output signals, until the expected output signal compared to the actual output signals corresponds to a substantially minimized error parameter. The position of the object may then be determined based at least in part on the shifted expected output signal.
14 Citations
20 Claims
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1. A method of sensing a position of an object located within an enclosure over a position range, the method comprising:
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generating an expected output signal of each of a plurality of magnetic field sensors disposed along an outer surface of the enclosure between a first end and a second end of the enclosure; receiving a plurality of actual output signals from the plurality of magnetic field sensors, wherein each of the plurality of actual output signals indicates a relative proximity of a magnetic target coupled to the object to the corresponding one of the plurality of magnetic field sensors; superimposing the expected output signal over the plurality of actual output signals; iteratively shifting the expected output signal of each of the plurality of magnetic field sensors over position relative to the actual output signals of each of the plurality of magnetic field sensors and comparing the shifted expected output signal to the plurality of actual output signals, until the shifted expected output signal compared to the plurality of actual output signals corresponds to a substantially minimized error parameter; and determining the position of the object within the enclosure over the position range based at least in part on the shifted expected output signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A device for sensing a position of an object located within an enclosure over a position range, the device comprising:
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means for generating an expected output signal of each of a plurality of magnetic field sensors disposed along an outer surface of the enclosure between a first end and a second end of the enclosure; means for receiving a plurality of actual output signals from the plurality of magnetic field sensors, wherein each of the plurality of actual output signals indicates a relative proximity of a magnetic target coupled to the object to the corresponding one of the plurality of magnetic field sensors; means for superimposing the expected output signal over the plurality of actual output signals; means for iteratively shifting the expected output signal of each of the plurality of magnetic field sensors over position relative to the actual output signals of each of the plurality of magnetic field sensors and comparing the shifted expected output signal to the plurality of actual output signals, until the shifted expected output signal compared to the plurality of actual output signals corresponds to a substantially minimized error parameter; and means for determining the position of the object within the enclosure over the position range based at least in part on the shifted expected output signal. - View Dependent Claims (18, 19)
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20. An apparatus for sensing a position of an object located within an enclosure over a position range, the apparatus being configured to:
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generate an expected output signal of each of a plurality of magnetic field sensors disposed along an outer surface of the enclosure between a first end and a second end of the enclosure; receive a plurality of actual output signals from the plurality of magnetic field sensors, wherein each of the plurality of actual output signals indicates a relative proximity of a magnetic target coupled to the object to the corresponding one of the plurality of magnetic field sensors; superimpose the expected output signal over the plurality of actual output signals; iteratively shift the expected output signal of each of the plurality of magnetic field sensors over position relative to the actual output signals of each of the plurality of magnetic field sensors and comparing the shifted expected output signal to the plurality of actual output signals, until the shifted expected output signal compared to the plurality of actual output signals corresponds to a substantially minimized error parameter; and determine the position of the object within the enclosure over the position range based at least in part on the shifted expected output signal.
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Specification