Fuel tank resistor card having improved corrosion resistance
1 Assignment
0 Petitions
Accused Products
Abstract
A resistor card for a fuel level sensor has improved resistance to corrosion and wear. The resistor card has a substrate with a resistive layer and a conductive layer. A nickel layer covers the conductive layer. A nickel-gold alloy layer covers the nickel layer. The nickel-gold alloy layer protects the conductive layer from sulfur corrosion and improves wear resistance.
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Citations
28 Claims
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1-9. -9. (canceled)
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11-13. -13. (canceled)
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14. A method of making a resistor card for a fuel level indicator system, the method comprising:
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a) providing a planar substrate having a first and second surface;
b) applying a resistive and conductive layer to the first surface;
c) firing the resistive and conductive layers;
d) applying a glass encapsulant over the resistive layer;
e) firing the encapsulant;
a) depositing a barrier layer over the conductive layer; and
b) depositing an alloy layer over the barrier layer. - View Dependent Claims (15, 16, 17)
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18-21. -21. (canceled)
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25. A resistor card for a fuel level indicator system, comprising:
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a planar ceramic substrate having a first and second surface;
a resistive area disposed on the first surface;
a thick film conductive area disposed on the first surface, the conductive area in electrical contact with the resistive area, the conductive area having a composition based on total composition that is greater than 50 weight percent silver;
a glass encapsulant covering the resistive area;
a nickel layer covering the conductive area; and
an electroplated nickel and gold alloy layer covering the nickel layer such that the conductive area is protected from corrosion, the nickel and gold alloy layer having a composition based on total composition comprising 0.3 to 4.0 weight percent nickel and 96.0 to 99.7 weight percent gold. - View Dependent Claims (26)
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27. A resistor card for a fuel level indicator system, comprising:
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a planar ceramic substrate having a first and second surface;
a resistor located on the first surface;
a plurality of conductive lines, the conductive lines having an end extending under the resistor and another end extending way from the resistor, the conductive lines in electrical contact with the resistor, the conductive lines having a composition based on total composition that is greater than 50 weight percent silver;
a glass encapsulant covering the resistor;
a nickel layer covering the ends of the conductive lines; and
an electroplated nickel and gold alloy layer covering the nickel layer such that the conductive lines are protected from corrosion, the nickel and gold alloy layer having a composition based on total composition comprising 0.3 to 4.0 weight percent nickel and 96.0 to 99.7 weight percent gold. - View Dependent Claims (28)
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Specification