VARIABLE CAPACITANCE SENSOR
First Claim
1. A pressure sensing capacitor comprising an edge-supported elastic member responsive to pressure having a conducting portion, a flat electrode member with a central support means, a periphery conductive means and an insulative means connecting said periphery conductive means and said central support means in fixed spaced relationship, means physically in contact with the center of said elastic member responsive to pressure and said central support means and spacing said periphery conductive means And said conducting portion of said elastic member in capacitive relationship whereby when force is applied to the center of the elastic member the spacing between the conducting portion and the periphery conductive means will vary.
0 Assignments
0 Petitions
Reexamination
Accused Products
Abstract
A variable capacitance sensor is constructed with its capacitance plates connected at their center. The conducting surfaces forming the capacitor are insulated from the central connection and each other. Stress relieving means are provided to eliminate hysteresis effects from the connecting structure. The structure provides decreased thermal path lengths to reduce thermal effects. The change in capacitance producted by a displacement in response to supplied pressure or force is increased by maximizing the displacement at peripheral regions having the largest area.
30 Citations
6 Claims
-
1. A pressure sensing capacitor comprising an edge-supported elastic member responsive to pressure having a conducting portion, a flat electrode member with a central support means, a periphery conductive means and an insulative means connecting said periphery conductive means and said central support means in fixed spaced relationship, means physically in contact with the center of said elastic member responsive to pressure and said central support means and spacing said periphery conductive means And said conducting portion of said elastic member in capacitive relationship whereby when force is applied to the center of the elastic member the spacing between the conducting portion and the periphery conductive means will vary.
-
2. Apparatus according to claim 1 wherein said conducting portion and periphery conductive means are substantially parallel surfaces.
-
3. Apparatus according to claim 1 wherein said conducting portion and periphery conducting means are substantially equidistant at equal radial distances from the center of said elastic member.
-
4. Apparatus according to claim 1, wherein said elastic member incorporates an annular groove adjacent the means spacing said periphery conductive means and said elastic member whereby hysteresis effects which would otherwise be present as the magnitude of applied forces is increased and decreased are substantially eliminated.
-
5. Apparatus according to claim 1, wherein force is applied by an element connecting with the central portion of said elastic member.
-
6. Apparatus according to claim 1 wherein said insulative means connecting said periphery conducting means and said central support means in fixed spaced relationship is formed by cement holding said periphery conductive means and said insulative means in fixed relationship.
Specification