Solid state fluid level sensor
Abstract
A sensor system for sensing liquid level in a bilge, for use in automatic bilge pump actuation. First and second field effect sensors are potted or sealed within a container or the bilge wall and are aligned in a vertical array and each comprise a substantially planar pattern of “electrodes” or conductive traces disposed on a printed circuit board (FOB) along with integrated circuits used to create a loop or arc-shaped electric field. As bilge liquid rises to the proximity or level of the field effect sensors, a change in the arc-shaped electric field is sensed and, in response, a bilge pump is automatically actuated to pump liquid out of the bilge. Optionally, the pump control can be programmed by use of a microprocessor to permit control of on-off timing and prevent undesirable effects of “sloshing.”
Claims
exact text as granted — not AI-modified1 - 30 . (canceled)
31 . A fluid sensing pad, comprising:
a first electrode with a shape adapted to sense fluid; a second electrode disposed in a spaced relationship to the first electrode and at least partially surrounding the first electrode; a first gain tuning component electrically coupled to the first electrode; a second gain tuning component electrically coupled to the second electrode; an active electrical component electrically coupled to both first and second electrodes; and an interconnect pattern electrically coupling the first electrode, the second electrode, and the active electrical component.
32 . A fluid sensing pad according to claim 31 , further comprising a device electrically coupled to the interconnect patter, the device being controlled when fluid is sensed by the first and second electrodes.
33 . A fluid sensing pad according to claim 32 , wherein the device comprises a pump.
34 . A fluid sensing pad according to claim 31 , further comprising a current switching device electrically coupled to the interconnect pattern.
35 . A fluid sensing pad according to claim 34 , wherein the current switching device comprises an N-channel field effect transistor.
36 . A fluid sensing pad according to claim 31 , further comprising a conductive trace at least partially encircling the second electrode.
37 . A fluid sensing pad, comprising:
a first electrode with a shape adapted to sense fluid; a second electrode disposed in a spaced relationship to the first electrode and at least partially surrounding the first electrode; a first active electrical component electrically coupled to the first and second electrodes, the first active electrical component amplifying and buffering a first signal from the first and second electrodes; a third electrode with a shape adapted to sense fluid, the third electrode disposed vertically with respect to the first electrode; a fourth electrode disposed in a spaced relationship to the third electrode and at least partially surrounding the third electrode; a second active electrical component electrically coupled to the third and fourth electrodes, the second active electrical component amplifying and buffering a second signal from the third and fourth electrodes; and an interconnect pattern electrically coupling the first electrode, the second electrode, the first active electrical component, the third electrode, the fourth electrode, and the second active electrical component, wherein the first signal starts a device and the second signal stops the device.
38 . A fluid sensing pad according to claim 37 , wherein the device comprises a pump.
39 . A fluid sensing pad according to claim 37 , further comprising a current switching device electrically coupled to the interconnect pattern.
40 . A fluid sensing pad according to claim 39 , wherein the current switching device comprises an N-channel field effect transistor.
41 . A fluid sensing pad according to claim 37 , further comprising a conductive trace at least partially encircling the second electrode.
42 . A fluid sensing pad according to claim 37 , further comprising a conductive trace at least partially encircling the fourth electrode.
43 . A fluid sensing pad according to claim 37 , further comprising a first gain tuning component electrically coupled to the first electrode.
44 . A fluid sensing pad according to claim 37 , further comprising a second gain tuning component electrically coupled to the second electrode.
45 . A fluid sensing pad according to claim 37 , further comprising a third gain tuning component electrically coupled to the third electrode.
46 . A fluid sensing pad according to claim 37 , further comprising a fourth gain tuning component electrically coupled to the fourth electrode.Join the waitlist — get patent alerts
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