EXHAUST SENSOR HEATER CIRCUIT FOR NON-CALIBRATED REPLACEMENT IN EXISTING APPLICATIONS
First Claim
1. A heater circuit in a co-fired planar sensor, the heater circuit comprising an electrically conductive material having a resistivity and a temperature coefficient of resistivity, the electrically conductive material disposed on a planar substrate to form a continuous conductive path between a first contact pad and a second contact pad;
- wherein when electric current is passed through the conductive path, resistive heating induces a temperature rise in the electrically conductive material;
wherein the electrically conductive material is thermally coupled to the substrate such that the temperature rise in the electrically conductive material induces a temperature rise in the substrate, the temperature rise of a point on the substrate being dependent on the location of the point on the substrate to create a temperature profile;
wherein the cross sectional area of the conductive path taken perpendicular to the direction of current flow varies in a predetermined manner along the length of the conductive path in the direction of current flow such that the temperature profile that is created as a function of location on the substrate raises the temperature of each point along the conductive path such that the overall resistance and temperature coefficient of resistance of the heater circuit measured between the first contact pad and the second contact pad are effective to emulate a predetermined resistance and a predetermined temperature coefficient of resistance for the heater circuit.
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Accused Products
Abstract
A planar device includes a heating circuit that is disposed between ceramic layers in a planar device and co-fired with the ceramic. The heating circuit material and geometry are controlled so as to provide a targeted resistance characteristic as a function of temperature that allows interchangeability in an engine management system that was designed for a heater circuit based on a material system that cannot be co-fired with the planar device.
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Citations
5 Claims
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1. A heater circuit in a co-fired planar sensor, the heater circuit comprising an electrically conductive material having a resistivity and a temperature coefficient of resistivity, the electrically conductive material disposed on a planar substrate to form a continuous conductive path between a first contact pad and a second contact pad;
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wherein when electric current is passed through the conductive path, resistive heating induces a temperature rise in the electrically conductive material; wherein the electrically conductive material is thermally coupled to the substrate such that the temperature rise in the electrically conductive material induces a temperature rise in the substrate, the temperature rise of a point on the substrate being dependent on the location of the point on the substrate to create a temperature profile; wherein the cross sectional area of the conductive path taken perpendicular to the direction of current flow varies in a predetermined manner along the length of the conductive path in the direction of current flow such that the temperature profile that is created as a function of location on the substrate raises the temperature of each point along the conductive path such that the overall resistance and temperature coefficient of resistance of the heater circuit measured between the first contact pad and the second contact pad are effective to emulate a predetermined resistance and a predetermined temperature coefficient of resistance for the heater circuit. - View Dependent Claims (2, 3, 4, 5)
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Specification