Self-calibrating capacitive transducer for determining level of fluent materials
First Claim
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1. A method of determining material level comprising:
- providing a plurality of capacitive antenna probes with end tips at discrete positions representing different predetermined material levels, the capacitive antenna probes being electrically isolated from each other such that a capacitive value for each antenna probe is measured independently of the other antenna probes;
establishing a pre-calibrated capacitive reference value for each probe;
reading a present capacitive value for each probe;
determining the material level based on the present probe values and probe reference values; and
performing a dynamic calibration after each reading to automatically compensate for variations in material properties and ambient conditions.
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Abstract
A capacitive transducer for detecting the level of liquids and other materials has one or more antenna probes connected to an integrated chip normally associated with touch-screen displays. Each antenna probe operates independently and senses the level condition of wet or dry flowable materials such as water, oil, fuel, grain, and so on. The antenna probes may be formed as insulated conductive wires or conductive traces between layers of a stiff or flexible substrate, such as a PCB, with the substrate material serving as the insulating layers. Each antenna probe has a different length representing different depths of the material being measured to provide dynamic calibration of the level condition independent of the material type and ambient conditions.
66 Citations
6 Claims
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1. A method of determining material level comprising:
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providing a plurality of capacitive antenna probes with end tips at discrete positions representing different predetermined material levels, the capacitive antenna probes being electrically isolated from each other such that a capacitive value for each antenna probe is measured independently of the other antenna probes; establishing a pre-calibrated capacitive reference value for each probe; reading a present capacitive value for each probe; determining the material level based on the present probe values and probe reference values; and performing a dynamic calibration after each reading to automatically compensate for variations in material properties and ambient conditions.
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2. A method of determining material level comprising:
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providing a plurality of capacitive antenna probes with end tips at discrete positions representing different predetermined material levels; establishing a pre-calibrated capacitive reference value for each probe; reading a present capacitive value for each probe; determining the material level based on the present probe values and probe reference values; and performing a dynamic calibration after each reading to automatically compensate for variations in material properties and ambient conditions; wherein the step of establishing a pre-calibrated reference value for each probe comprises determining an optimal threshold voltage and scan speed to be applied to each probe during the reading step. - View Dependent Claims (3)
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4. A method of determining material level comprising:
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providing a plurality of capacitive antenna probes with end tips at discrete positions representing different predetermined material levels; establishing a pre-calibrated capacitive reference value for each probe; reading a present capacitive value for each probe; determining the material level based on the present probe values and probe reference values; and performing a dynamic calibration after each reading to automatically compensate for variations in material properties and ambient conditions; wherein the step of determining the material level comprises; establishing a primary probe and at least one secondary probe from the plurality of probes; determining a coarse material level by counting the number of end tips activated by the presence of the material; and determining a fine material level by
1) calculating a delta value of the primary probe between the last end tip activated and an adjacent tip that has not been activated, and
2) adding the delta value to the coarse material level. - View Dependent Claims (5, 6)
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Specification
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Current AssigneeRochester Gauges LLC
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Original AssigneeLuna Labs, Inc.
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InventorsCalcote, Clyde
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Primary Examiner(s)ROGERS, DAVID A
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Application NumberUS12/135,359Publication NumberTime in Patent Office1,415 DaysField of Search73/10.2, 73/17.3, 732/90.B, 732/90.R, 732/90.V, 733/04.C, 733/04.RUS Class Current73/304.CCPC Class CodesG01F 23/265 for discrete levelsG01F 23/266 measuring circuits thereforG01F 25/20 of apparatus for measuring ...
