Combustible gas sensors including integral support structures and combustible gas sensor with multiple active elements

What is claimed is: 1. A combustible gas sensor comprising a first sensing element and a second sensing element, the first sensing element comprising a first catalyst support member having a volume less than a sphere having a diameter of 500 μm and upon which a catalyst is supported, the second sensing element comprising a second catalyst support member having a volume less than a sphere having a diameter of 500 μm and upon which a catalyst is supported, and electronic circuitry that is adapted to cycle between a first mode in which the first sensing element is operated in a higher power mode and the second sensing element is operated in a lower power mode and a second mode in which the second sensing element is operated in a higher power mode and the first sensing element is operated in a lower power mode. 2. The combustible gas sensor of claim 1 wherein in the first mode the second sensing element is used to compensate for ambient temperature changes and in the second mode the first sensing element is used to compensate for ambient temperature changes. 3. The combustible gas sensor of claim 1 wherein the first sensing element comprises a first conductive element having an average diameter less than 20 μm in operative connection with the first catalyst support member and in electrical connection with the electronic circuitry, the combustible gas sensor further comprising a first support element having a first anchored end and a second anchored end and an extending intermediate section between the first anchored end and the second anchored end, the extending intermediate section providing support for the first conductive element and the first catalyst support member, and wherein the second sensing element comprises a second conductive element having an average diameter less than 20 μm in operative connection with the second catalyst support member and in electrical connection with the electronic circuitry, the combustible gas sensor further comprising a second support element having a first anchored end and a second anchored end and an extending intermediate section between the first anchored end and the second anchored end, the extending intermediate section of the second support element providing support for the second conductive element and the second catalyst support member. 4. The combustible gas sensor of claim 3 wherein the first support element exhibits a first quotient calculated by dividing a tensile strength thereof in units of pounds per square inch or psi by a thermal conductivity thereof in units of watts/cm/° C. of at least 250,000, and the second support element exhibits a second quotient calculated by dividing tensile strength thereof in units of pounds per square inch or psi by a thermal conductivity thereof in units of watts/cm/° C. of at least 250,000. 5. The combustible gas sensor of claim 4 wherein the first sensing element has an average diameter less than 12.5 μm, and the second sensing element has an average diameter less than 12.5 μm. 6. The combustible gas sensor of claim 4 wherein the first sensing element has an average diameter no greater than approximately 10 μm, and the second sensing element has an average diameter no greater than approximately 10 μm. 7. The combustible gas sensor of claim 3 wherein the first support element pass through at least a portion of the first catalyst support member, and the second support element pass through at least a portion of the second catalyst support member. 8. The combustible gas sensor of claim 3 wherein the first support element comprises an alloy of at least one of tungsten, nickel, molybdenum or titanium with at least one of platinum, palladium, rhodium or iridium and the second support element comprises an alloy of at least one of tungsten, nickel, molybdenum or titanium with at least one of platinum, palladium, rhodium or iridium. 9. The combustible gas sensor of claim 3 wherein the first support element and the second support element each comprises a platinum-tungsten alloy. 10. The combustible gas sensor of claim 3 wherein the first support element has an average diameter in the range of approximately 0.0005 inches to approximately 0.0025 inches and the second support element has an average diameter in the range of approximately 0.0005 inches to approximately 0.0025 inches. 11. The combustible gas sensor of claim 3 wherein the first conductive element has an average diameter no greater than approximately 10 μm and the second conductive element has an average diameter no greater than approximately 10 μm. 12. The combustible gas sensor of claim 1 wherein the electronic circuitry is adapted to periodically switch between the first mode and the second mode. 13. The combustible gas sensor of claim 1 wherein the electronic circuitry is adapted to switch between the first mode and the second mode upon a manually controlled event. 14. The combustible gas sensor of claim 13 wherein the manually controlled event comprises a power on event. 15. A method of operating a combustible gas sensor which comprises a first sensing element and a second sensing element, the first sensing element comprising a first catalyst support member having a volume less than a sphere having a diameter of 500 μm and upon which a catalyst is supported, the second sensing element comprising a second catalyst support member having a volume less than a sphere having a diameter of 500 μm and upon which a catalyst is supported, comprising: cycling between a first mode in which the first sensing element is operated in a higher power mode and the second sensing element is operated in a lower power mode and a second mode in which the second sensing element is operated in a higher power mode and the first sensing element is operated in a lower power mode. 16. The method of claim 15 wherein in the first mode the second sensing element is used to compensate for ambient temperature changes and in the second mode the first sensing element is used to compensate for ambient temperature changes.