Hybrid battery for high temperature applications

I claim: 1. An apparatus for supplying power at the surface and in a wellbore, comprising: a downhole tool configured to be conveyed into the wellbore using a conveyance device; a battery bank conveyed by the downhole tool, the battery bank including a plurality of battery cells, wherein at least two cells of the plurality of battery cells have substantially different power responses to a change in an ambient temperature at the downhole tool; and a circuit configured to supply power from only a subset of battery cells of the plurality of battery cells below a predetermined temperature and wherein the subset of battery cells of the plurality of battery cells does not revert to an operational state after being non-operational above the predetermined temperature. 2. The apparatus of claim 1 , wherein at least one of the plurality of battery cells is a fuel cell. 3. The apparatus of claim 1 , wherein each battery cell of the plurality of battery cells is conveyed by the downhole tool, and wherein the power response of at least one cell of the plurality of cells is a decrease in supplied power as temperature increases. 4. The apparatus of claim 1 , wherein a first battery cell of the plurality of battery cells increases supplied power as temperature increases, and a second battery cell of the plurality of battery cells decreases supplied power as temperature increases, and wherein the first and the second battery cells are conveyed by the downhole tool. 5. The apparatus of claim 1 , wherein the at least two of the plurality of battery cells are electrically decoupled from one another. 6. A method for supplying power at the surface and in a wellbore, comprising: coupling a battery bank to a downhole tool, the battery bank including a plurality of battery cells, wherein at least two cells of the plurality of battery cells have substantially different power responses to a change in an ambient temperature at the downhole tool; supplying power to the downhole tool using the battery bank while at a rig floor using only a first subset of battery cells of the plurality of battery cells; conveying the downhole tool and the battery bank into the wellbore; supplying power to the downhole tool using the battery bank while in the wellbore, wherein only a second subset of battery cells of the plurality of battery cells supplies power above a predetermined temperature, wherein the first subset of battery cells does not revert to an operational state after being non-operational above the predetermined temperature, and wherein an isolator isolates the second subset of battery cells when below the predetermined temperature; and controlling the isolator using a switch that is responsive to an ambient temperature. 7. The method of claim 6 , wherein at least one of the plurality of battery cells is a fuel cell. 8. The method of claim 6 , each battery cell of the plurality of battery cells is conveyed by the downhole tool, and wherein the power response of at least one cell of the plurality of cells is a decrease in supplied power as temperature increases. 9. The method of claim 6 , wherein a first battery cell of the plurality of battery cells increases supplied power as temperature increases, and a second battery cell of the plurality of battery cells decreases supplied power as temperature increases, and wherein the first and the second battery cells are conveyed by the downhole tool. 10. The method of claim 6 , further comprising decoupling at least two of the plurality of battery cells from one another. 11. The method of claim 6 , wherein a first battery cell of the plurality of battery cells increases supplied power as temperature increases, and a second battery cell of the plurality of battery cells decreases supplied power as temperature increases, and further comprising: conveying the first and the second battery cell using the downhole tool along the wellbore; and supplying power to the downhole tool while the downhole tool is in the wellbore using only the second battery cell when an ambient temperature in the wellbore is above the predetermined temperature. 12. An apparatus for supplying power at the surface and in a wellbore, comprising: a downhole tool configured to be conveyed into the wellbore using a conveyance device; a battery bank conveyed by the downhole tool, the battery bank including a plurality of battery cells, the plurality of battery cells include a first battery cell supplying increasing supplied power as a temperature ambient to the downhole tool increases and a second battery cell supplying decreasing power as the temperature ambient to the downhole tool increases; a circuit configured to supply power to the downhole tool from only the first battery cell after the temperature ambient to the downhole tool is above a predetermined temperature, wherein the second batter cell does not revert to an operational state after becoming non-operational above the predetermined temperature; and a dynamic isolator that includes a switch selectively isolating the subset of battery cells, wherein the switch is responsive to an ambient temperature. 13. The apparatus of claim 12 , wherein the isolator is configured to decouple the second battery cell from the downhole tool after the second battery cell is non-functional.