Transducer having temperature compensation
First Claim
1. A capacitive pressure transducer comprisinga first concave body member extending about a central axis and having a peripheral rim disposed in a first plane, said first plane being substantially perpendicular to said central axis, said first concave body member having a first coefficient of thermal expansion;
- a diaphragm having an electrically conductive, displaceable portion, said diaphragm having a peripheral portion fixedly coupled to said peripheral rim of said first body member whereby at least a portion of said diaphragm is disposed substantially in said first plane and forms a first chamber with said first body member;
an electrode disposed in said first chamber and adjacent the electrically conducting portion of diaphragm at a predefined distance from said first plane, said electrode having a second coefficient of thermal expansion; and
thermal compensation means, engaging at least one of said first concave body member and said electrode, for compensating for temperature induced changes in characteristics of said transducer, said thermal compensation means having a substantially different coefficient of thermal expansion from said coefficient of thermal expansion of said engaged one of said first body member and said electrode.
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Abstract
A capacitive pressure transducer includes a conductive diaphragm positioned between pneumatically separated chambers defined by concave body members. The diaphragm is fixed and sealingly coupled at its periphery to the peripheral rim of the concave body members. The diaphragm can be supported in tension by the peripheral rim of the body members. An electrode assembly, supported by one body member, establishes a substantially planar conductive surface opposite to and spaced apart by a nominal gap from the conductive diaphragm. The capacitive pressure transducer further includes a thermal compensation element securely coupled to the inside surface or the outside surface of one of the concave body members and/or to the electrode. The thermal compensation element has a different coefficient of thermal expansion from that of the concave body member or electrode to which it is attached. The combination of the concave body member or electrode and thermal compensation element having different coefficients of thermal expansion results in a bimetallic action which produces a thermally dependent force that compensates or counter-acts the thermally induced changes in the characteristics of the transducer.
64 Citations
33 Claims
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1. A capacitive pressure transducer comprising
a first concave body member extending about a central axis and having a peripheral rim disposed in a first plane, said first plane being substantially perpendicular to said central axis, said first concave body member having a first coefficient of thermal expansion; -
a diaphragm having an electrically conductive, displaceable portion, said diaphragm having a peripheral portion fixedly coupled to said peripheral rim of said first body member whereby at least a portion of said diaphragm is disposed substantially in said first plane and forms a first chamber with said first body member;
an electrode disposed in said first chamber and adjacent the electrically conducting portion of diaphragm at a predefined distance from said first plane, said electrode having a second coefficient of thermal expansion; and
thermal compensation means, engaging at least one of said first concave body member and said electrode, for compensating for temperature induced changes in characteristics of said transducer, said thermal compensation means having a substantially different coefficient of thermal expansion from said coefficient of thermal expansion of said engaged one of said first body member and said electrode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
said additional thermal compensation means having a substantially different coefficient to thermal expansion from said third coefficient of thermal expansion. -
23. A capacitive pressure transducer according to claim 22 wherein said thermal compensation means is fixedly coupled to an inside surface of said second concave body member and said thermal compensation means has a coefficient of thermal expansion substantially different than said first coefficient of thermal expansion.
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24. A capacitive pressure transducer according to claim 23 wherein said coefficient of thermal expansion of said temperature compensation means is greater than said third coefficient of thermal expansion.
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25. A capacitive pressure transducer according to claim 23 wherein said coefficient of thermal expansion of said temperature compensation means is less than said third coefficient of thermal expansion.
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26. A capacitive pressure transducer according to claim 22 wherein said thermal compensation means is fixedly coupled to an outside surface of said second concave body member and said thermal compensation means has a coefficient of thermal expansion substantially different than said third coefficient of thermal expansion.
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27. A capacitive pressure transducer according to claim 26 wherein said coefficient of thermal expansion of said temperature compensation means is greater than said third coefficient of thermal expansion.
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28. A capacitive pressure transducer according to claim 26 wherein said coefficient of thermal expansion of said temperature compensation means is less than said third coefficient of thermal expansion.
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29. A capacitive pressure transducer comprising
a first concave body member extending about a central axis and having a peripheral rim disposed in a first plane, said first plane being substantially perpendicular to said central axis, said first concave body member having a first coefficient of thermal expansion; -
a second concave body member extending about said central axis and having a peripheral rim disposed in said first plane, said second concave body member having a second coefficient of thermal expansion a diaphragm having an electrically conductive, displaceable portion, said diaphragm having a first side of a peripheral portion fixedly coupled to said peripheral rim of said first body member whereby at least a portion of said diaphragm is disposed substantially in said first plane and forms a first chamber with said first body member;
and having a second side of a peripheral portion fixedly coupled to peripheral rim of said second body member whereby at least a portion of said diaphragm forms second chamber with said second body member;
an electrode disposed in said first chamber and adjacent the electrically conductive portion of said diaphragm at a predefined distance from said first plane, said electrode having a third coefficient of thermal expansion; and
one or more thermal compensation elements, fixedly coupled to at least one of said first concave body member, said second concave body member and said electrode, adapted for compensating for temperature induced changes in characteristics of said transducer, said thermal compensation element having a substantially different coefficient of thermal expansion from the coefficient of thermal expansion of the corresponding coupled first concave body member, second body member and electrode. - View Dependent Claims (30, 31, 32)
an electrode thermal compensation element fixedly coupled to said electrode, adapted for compensating for changes in capacitance between the diaphragm and the electrode due thermal expansion or contraction of the electrode in response to changes in temperature, said electrode thermal compensation element having a substantially different coefficient of thermal expansion from said third coefficient of thermal expansion.
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33. A capacitive pressure transducer comprising
a first concave body member extending about a central axis and having a peripheral rim disposed in a first plane, said first plane being substantially perpendicular to said central axis, said first concave body member having a first coefficient of thermal expansion; -
a diaphragm having an electrically conductive, displaceable central portion, said diaphragm having a peripheral portion fixedly coupled to said peripheral rim of said first body member whereby at least a portion of said diaphragm is disposed substantially in said first plane and forms a first chamber with said first body member;
an electrode coupled to said first concave body member and having a substantially planar surface disposed in said first chamber adjacent the electrically conductive portion of said diaphragm at a predefined distance from said first plane, said electrode having a second coefficient of thermal expansion; and
at least one thermal compensation element, engaging said electrode, adapted for compensating for temperature induced changes in characteristics of said transducer, said thermal compensation element having a substantially different coefficient of thermal expansion from said second coefficient of thermal expansion.
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Specification