Alternative placement of thermal sensors on bipolar electrode

What is claimed is: 1. A method of applying thermal energy to tissue, comprising: inserting an expandable member having a plurality of pairs of electrodes, each pair comprising an active electrode, a ground electrode and one or more temperature sensors associated therewith, within a patient; wherein the plurality of pairs of electrodes and the one or more temperature sensors are positioned on a multiple-layer structure comprising a first laminated sheet including a first polymer layer laminated to a first conductive layer and a second laminated sheet including a second polymer layer laminated to a second conductive layer; wherein the one or more temperature sensors are in contact with the first conductive layer; wherein the plurality of pairs of electrodes are in contact with the second conductive layer; wherein the first conductive layer forms a positive trace and a ground trace for the one or more temperature sensors; and wherein the second conductive layer forms a positive trace and a ground trace for the plurality of pairs of electrodes; expanding the expandable member to an expanded state; activating the plurality of pairs of electrodes; and monitoring the temperature between the plurality of pairs of electrodes by measuring a temperature from each of the one or more temperature sensors. 2. The method of claim 1 , wherein the one or more temperature sensors comprise one or more thermistors. 3. The method of claim 2 , wherein at least one thermistor of the one or more thermistors is disposed between each pair of the plurality of pairs of electrodes, and further comprising monitoring the temperature within each pair of electrodes by measuring a temperature from the at least one thermistor of the one or more thermistors disposed therebetween. 4. The method of claim 1 , where the expandable member is coupled to a catheter shaft, and the expandable member is capable of being shifted between the expanded state and an unexpanded state along pre-determined fold lines of the expandable member. 5. The method of claim 4 , wherein inserting the expandable member is performed in the unexpanded state with the expandable member folded at least between the plurality of pairs of electrodes along the fold lines. 6. The method of claim 1 , wherein one or more pairs of the plurality of pairs of electrodes are arranged on one or more elongate electrode assemblies, each assembly constructed as a flexible circuit, the assemblies disposed on an outer surface of the expandable member. 7. The method of claim 1 , wherein the one or more temperature sensors and the plurality of pairs of electrodes are arranged on a plurality of electrode pads. 8. The method of claim 1 , wherein the pairs of electrodes are arranged side-by-side and longitudinally along the expandable member. 9. A method of applying thermal energy to tissue, comprising: inserting an expandable member of a device within a patient, the device further comprising a plurality of pairs of electrodes, each comprising an active electrode and a ground electrode, constructed as a flexible circuit disposed on an outer surface of the expandable member and having one or more temperature sensors associated therewith; wherein the plurality of pairs of electrodes and the one or more temperature sensors are positioned adjacent to a multiple-layer structure comprising a first laminated sheet including a first polymer layer laminated to a first conductive layer and a second laminated sheet including a second polymer layer laminated to a second conductive layer; wherein the one or more temperature sensors are in contact with the first conductive layer; wherein the plurality of pairs of electrodes are in contact with the second conductive layer; wherein the first conductive layer forms a positive trace and a ground trace for the one or more temperature sensors; and wherein the second conductive layer forms a positive trace and a ground trace for the plurality of pairs of electrodes; expanding the expandable member to an expanded state; activating the plurality of pairs of electrodes; and monitoring the temperature between the plurality of pairs of electrodes by measuring a temperature from each of the one or more temperature sensors positioned between the plurality of pairs of electrodes. 10. The method of claim 9 , wherein the one or more temperature sensors comprise one or more thermistors. 11. The method of claim 10 , wherein at least one thermistor of the one or more thermistors is disposed between each pair of the plurality of pairs of electrodes, and further comprising monitoring the temperature within each pair of electrodes by measuring a temperature from the at least one thermistor of the one or more thermistors disposed therebetween. 12. The method of claim 9 , wherein the pairs of electrodes are arranged side-by-side and longitudinally along the expandable member. 13. The method of claim 9 , wherein inserting the expandable member is performed in an unexpanded state with the expandable member folded at least between the pairs of electrodes. 14. The method of claim 9 , wherein the one or more temperature sensors and the plurality of pairs of electrodes are arranged on a plurality of electrode pads. 15. A method of applying thermal energy to tissue, comprising: inserting an expandable member of a device within a patient, the device further comprising a plurality of pairs of electrodes disposed on an outer surface of the expandable member, each pair of the plurality of pairs of electrodes comprising an active electrode, a ground electrode, and one or more temperature sensors associated therewith; wherein the plurality of pairs of electrodes and the one or more temperature sensors are positioned adjacent to a multiple-layer structure comprising a first laminated sheet including a first polymer layer laminated to a first conductive layer and a second laminated sheet including a second polymer layer laminated to a second conductive layer; wherein the one or more temperature sensors are in contact with the first conductive layer; wherein the plurality of pairs of electrodes are in contact with the second conductive layer; wherein the first conductive layer forms a positive trace and a ground trace for the one or more temperature sensors; and wherein the second conductive layer forms a positive trace and a ground trace for the plurality of pairs of electrodes; expanding the expandable member to an expanded state; activating the plurality of pairs of electrodes; and monitoring the temperature between the plurality of pairs of electrodes by measuring a temperature from each of the one or more temperature sensors. 16. The method of claim 15 , wherein the one or more temperature sensors comprise one or more thermistors. 17. The method of claim 16 , wherein at least one thermistor of the one or more thermistors is disposed between each pair of the plurality of pairs of electrodes, and further comprising monitoring the temperature within each pair of electrodes by measuring a temperature from the at least one thermistor of the one or more thermistors disposed therebetween. 18. The method of claim 15 , wherein the pairs of electrodes are arranged side-by-side and longitudinally along the expandable member. 19. The method of claim 15 , wherein inserting the expandable member is performed in an unexpanded state with the expandable member folded at least between the pairs of electrodes. 20. The method of claim 15 , wherein one or more pairs of the plurality of pairs of electrodes are arranged on one or m