Measuring ice distribution profiles on a surface with attached capacitance electrodes
First Claim
1. A device for detecting the ice thickness associated with a surface comprising:
- a plurality of spaced electrodes, said plurality of spaced electrodes including at least one selectable positive electrode, at least one selectable ground electrode and at least one selectable guard electrode, wherein a capacitance value associated with said positive and ground electrodes is indicative of the ice thickness associated with said surface; and
control means for selectively setting from said plurality of spaced electrodes one electrode as said positive electrode, one electrode a desired spacing from said positive electrode as said ground electrode and any intervening electrode or electrodes between said positive and ground electrodes as a guard electrode or electrodes, said desired spacing selected such that the capacitance value associated with said positive and ground electrodes saturates at a predetermined minimum ice thickness level.
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Abstract
The present invention is an improved ice sensor which is particularly effective in measuring and quantifying non-uniform, heterogeneous ice typically found on aircraft leading edges and top wing surfaces.
In one embodiment, the ice sensor comprises a plurality of surface mounted capacitive sensors, each having a different electrode spacing. These sensors measure ice thickness by measuring the changes in capacitance of the flush electrode elements due to the presence of ice or water. Electronic guarding techniques are employed to minimize baseline and parasitic capacitances so as to decrease the noise level and thus increase the signal to noise ratio. Importantly, the use of guard electrodes for selective capacitive sensors also enables distributed capacitive measurements to be made over large or complex areas, independent of temperature or location, due to the capability of manipulating the electric field lines associated with the capacitive sensors.
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Citations
31 Claims
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1. A device for detecting the ice thickness associated with a surface comprising:
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a plurality of spaced electrodes, said plurality of spaced electrodes including at least one selectable positive electrode, at least one selectable ground electrode and at least one selectable guard electrode, wherein a capacitance value associated with said positive and ground electrodes is indicative of the ice thickness associated with said surface; and control means for selectively setting from said plurality of spaced electrodes one electrode as said positive electrode, one electrode a desired spacing from said positive electrode as said ground electrode and any intervening electrode or electrodes between said positive and ground electrodes as a guard electrode or electrodes, said desired spacing selected such that the capacitance value associated with said positive and ground electrodes saturates at a predetermined minimum ice thickness level. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A device for detecting the ice thickness profile associated with a surface comprising,
a plurality of capacitance sensors each having: -
a plurality of spaced electrodes including at least one selectable first electrode, at least one selectable second electrode and at least one selectable guard electrode, wherein a capacitance value associated with said first and second electrodes is indicative of the ice thickness associated with said surface; and control means for selectively setting from said plurality of spaced electrodes one electrode as said first electrode, one electrode a desired spacing from said first electrode as said second electrode and any intervening electrode or electrodes between said first and second electrodes as a guard electrode or electrodes, said desired spacing selected such that the capacitance value associated with said first and second electrodes saturates at a predetermined minimum ice thickness level, and means for processing the capacitance value from each of said capacitance sensors associated with said first and second electrodes so as to determine the ice distribution profile associated with said surface. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. A method of measuring the ice thickness level associated with a surface comprising:
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establishing an electric field between positive and ground electrodes, said positive and ground electrodes having a first electrode spacing such that the capacitance associated therewith saturates at a first minimum ice thickness, said positive and ground electrodes at first and second electrical potentials, respectively; measuring a first capacitance associated with said positive and ground electrodes; electrically varying the electrode spacing between said positive and ground electrodes by setting another electrode that is a second electrode spacing away from said positive electrode as said ground electrode so as to vary the electrical field distribution between the positive and ground electrodes, wherein the capacitance associated with said positive and ground electrodes now saturates at a second minimum ice thickness; measuring a second capacitance associated with said positive and ground electrodes, said positive and ground electrodes having said second electrode spacing; and processing the measured first and second capacitances so as to determine the ice thickness level. - View Dependent Claims (25, 26)
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27. A method of measuring the ice thickness profile associated with a surface comprising:
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a) establishing an electric field between a plurality of positive and ground electrodes, each of said positive and ground electrodes having a capacitance associated therewith that saturates at a first minimum ice thickness; b) measuring the capacitance associated with said positive and ground electrodes; c) electrically reconfiguring which electrodes are ground electrodes so as to vary the electrode spacing associated therebetween thereby causing the capacitance associated therewith to saturate at a second minimum ice thickness; d) repeating steps b and c so as to measure the capacitances between said positive and ground electrodes for various electrode spacings; and e) processing the measured capacitances associated with the positive and ground electrodes and the different electrode spacings so as to determine the ice thickness profile based on when the capacitance saturates. - View Dependent Claims (28, 29, 30, 31)
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Specification