Isolated capacitive fluid level sensor
First Claim
1. A capacitive sensor for sensing the level of a fluid in a vessel, the sensor positioned proximate the vessel and separated from the fluid by a dielectric wall of the vessel, the sensor comprising:
- at least two coplanar electrical conductors attached to a substrate and electrically insulated from one another, the conductors separated from one another by spacing, the spacing equal to at least two times the thickness of the dielectric wall, the conductors forming a fringing field capacitance, the value of the capacitance changing in response to changes in the level of the fluid, at least two of the conductors configured as interdigital combs, zigzag lines, sinusoidal lines, or meander lines;
at least two of the conductors driven by an alternating current electrical signal, the value of the fringing field capacitance indicative of the level of the fluid.
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Abstract
A capacitive fluid level sensor is disclosed that operates without the use of a float, wherein coplanar sensing electrodes disposed onto a dielectric substrate and positioned proximate a dielectric wall of a vessel containing a fluid, form a fringing field capacitance that changes in accordance with changes in the level of the fluid. The electrodes are electrically insulated from the measured fluid. The electrodes are sized and spaced to maximize response of the capacitance to changes in the level of the fluid, while minimizing the effects of the dielectric wall. The sensor is fabricated such that it can be positioned against the outside of a dielectric wall of a vessel, or embedded within a dielectric material. A low permitivity spacer and shield assembly are taught which reduces sensitivity to electric fields external to the vessel. An interdigital comb configuration of the electrodes is also disclosed in which depressions or gaps are formed into the dielectric substrate in an area of spacing of the electrodes.
85 Citations
8 Claims
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1. A capacitive sensor for sensing the level of a fluid in a vessel, the sensor positioned proximate the vessel and separated from the fluid by a dielectric wall of the vessel, the sensor comprising:
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at least two coplanar electrical conductors attached to a substrate and electrically insulated from one another, the conductors separated from one another by spacing, the spacing equal to at least two times the thickness of the dielectric wall, the conductors forming a fringing field capacitance, the value of the capacitance changing in response to changes in the level of the fluid, at least two of the conductors configured as interdigital combs, zigzag lines, sinusoidal lines, or meander lines; at least two of the conductors driven by an alternating current electrical signal, the value of the fringing field capacitance indicative of the level of the fluid. - View Dependent Claims (2, 3, 4, 5, 7, 8)
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6. A capacitive sensor for sensing a level of a fluid in a vessel, a dielectric wall of the vessel having an inner surface and an outer surface, the inner surface facing the fluid, the sensor frilly embedded within the dielectric wall of the vessel, the sensor comprising:
at least two coplanar electrical conductors electrically insulated from one another, the conductors each having a width, the conductors together having an average width, the conductors separated from one another by spacing, the conductors together having an average spacing, the average spacing being at least four times the average width of the conductors.
Specification