Temperature compensating pressure sensor having active and reference membranes
First Claim
1. A temperature compensating pressure sensor comprising:
- a substrate having sealed channels on which is deposited a CMOS layer;
a conductive layer and a passivation layer deposited on the CMOS layer;
a conductive active membrane spaced from the conductive layer to form an active chamber;
a conductive reference membrane spaced from the conductive layer to form a sealed reference chamber; and
a cap which covers the membranes, said cap exposing the active membrane to an outside fluid pressure, wherein the active membrane deflects due to differential stresses so that an active capacitance is developed between the active membrane and the conductive layer depending on the electrical permittivity e of the fluid, with the reference membrane providing a temperature compensating reference capacitance.
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Abstract
Provided is a temperature compensating pressure sensor. The sensor includes a silicon substrate having sealed channels on which is deposited a CMOS layer, and a conductive layer and a passivation layer deposited on the CMOS layer, the conductive layer representing a first electrode. The sensor also includes a conductive active membrane spaced from the conductive layer to form an active chamber, and a conductive reference membrane spaced from the conductive layer to form a sealed reference chamber. Also included is a cap which covers the membranes, said cap having a channel to expose the active membrane to an outside fluid pressure, with the membranes representing a second electrode. The active membrane deflects due to differential stresses so that the first and second electrodes develop a capacitance C between them depending on the electrical permittivity of the fluid, with the reference membrane providing a temperature compensating reference capacitance.
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Citations
7 Claims
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1. A temperature compensating pressure sensor comprising:
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a substrate having sealed channels on which is deposited a CMOS layer; a conductive layer and a passivation layer deposited on the CMOS layer; a conductive active membrane spaced from the conductive layer to form an active chamber; a conductive reference membrane spaced from the conductive layer to form a sealed reference chamber; and a cap which covers the membranes, said cap exposing the active membrane to an outside fluid pressure, wherein the active membrane deflects due to differential stresses so that an active capacitance is developed between the active membrane and the conductive layer depending on the electrical permittivity e of the fluid, with the reference membrane providing a temperature compensating reference capacitance. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification