Alternative placement of thermal sensors on bipolar electrode

What is claimed is: 1. A medical device for tissue ablation, comprising: a catheter shaft; an expandable member coupled to the catheter shaft, the expandable member being capable of shifting between an unexpanded configuration and an expanded configuration; and a plurality of elongate electrode assemblies each constructed as a flexible circuit, the plurality of elongate electrode assemblies disposed on an outer surface of the expandable member; wherein each of the plurality of elongate electrode assemblies includes one or more temperature sensors and a plurality of pairs of electrodes; wherein each of the plurality of elongate electrode assemblies is formed from 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 plurality of pairs of electrodes are in contact with the first conductive layer and are positioned at an upper surface of the multiple-layer structure facing radially away from the expandable member; wherein the one or more temperature sensors are in contact with the second conductive layer of the second laminated sheet and are positioned at a lower surface of the multiple-layer structure facing radially toward the expandable member; wherein the first conductive layer forms a positive trace and a ground trace for the plurality of pairs of electrodes, the second conductive layer forms a positive trace and a ground trace for the one or more temperature sensors, and a via connects the ground trace for the one or more temperature sensors with the ground trace for the plurality of pairs of electrodes; and wherein the one or more temperature sensors is positioned between the plurality of pairs of electrodes. 2. The medical device of claim 1 , wherein a plurality of the one or more temperature sensors positioned between the plurality of pairs of electrodes is positioned on a plurality of electrode pads. 3. The medical device of claim 1 , wherein the first and second laminated sheets are arranged with the first conductive layer of the first laminated sheet attached to the second polymer layer of the second laminated sheet. 4. The medical device of claim 1 , wherein the first and second conductive layers are copper layers. 5. The medical device of claim 1 , wherein each pair of the plurality of pairs of electrodes includes an active electrode and ground electrode, and wherein each of the plurality of elongate electrode assemblies includes a plurality of the active electrodes, a plurality of the ground electrodes, and a plurality of the one or more temperature sensors. 6. The medical device of claim 1 , wherein each pair of the plurality of pairs of electrodes includes an active electrode and a ground electrode, and wherein each of the plurality of elongate electrode assemblies includes a plurality of the active electrodes aligned linearly, a plurality of the ground electrodes aligned linearly and spaced apart from the plurality of the active electrodes, and a plurality of the one or more of the temperature sensors positioned partially under the plurality of the ground electrodes. 7. A method of applying thermal energy to tissue, comprising: inserting the expandable member of the medical device of claim 1 within a patient; 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. 8. The method of claim 7 , wherein each of the one or more temperature sensors comprise one or more thermistors. 9. The method of claim 7 , wherein the pairs of electrodes are arranged side-by-side and longitudinally along the expandable member, and inserting the expandable member is performed in an unexpanded state with the expandable member folded at least between the pairs of electrodes. 10. A medical device for tissue ablation, comprising: expandable member configured to be coupled to a catheter shaft; and a plurality of elongate electrode assemblies each constructed as a flexible circuit, the plurality of elongate electrode assemblies disposed on an outer surface of the expandable member; wherein each of the plurality of elongate electrode assemblies includes one or more temperature sensors and a plurality of pairs of electrodes; wherein each of the plurality of elongate electrode assemblies is formed from 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 plurality of pairs of electrodes are in contact with the first conductive layer and are positioned at an upper surface of the multiple-layer structure facing radially away from the expandable member; wherein the one or more temperature sensors are in contact with the second conductive layer of the second laminated sheet and are positioned at a lower surface of the multiple-layer structure facing radially toward the expandable member; wherein the first conductive layer forms a positive trace and a ground trace for the plurality of pairs of electrodes, the second conductive layer forms a positive trace and a ground trace for the one or more temperature sensors, and a via connects the ground trace for the one or more temperature sensors with the ground trace for the plurality of pairs of electrodes; wherein the one or more temperature sensors is positioned between the plurality of pairs of electrodes; wherein each pair of the plurality of pairs of electrodes comprises an active electrode and a ground electrode; and wherein at least one of the one or more temperature sensors is positioned between the active electrode and the ground electrode of at least one pair of the plurality of pairs of electrodes. 11. The medical device of claim 10 , wherein a plurality of the one or more temperature sensors positioned between the plurality of pairs of electrodes is positioned on a plurality of electrode pads. 12. The medical device of claim 10 , wherein each of the plurality of elongate electrode assemblies includes a plurality of the active electrodes, a plurality of the ground electrodes, and a plurality of the one or more temperature sensors, wherein each of the plurality of the one or more temperature sensors is positioned partially under one of the ground electrodes. 13. The medical device of claim 10 , wherein each of the plurality of elongate electrode assemblies includes a plurality of the active electrodes aligned linearly, a plurality of the ground electrodes aligned linearly and spaced apart from the plurality of the active electrodes, and a plurality of the one or more temperature sensors positioned partially under the plurality of the ground electrodes. 14. A medical device comprising: a catheter shaft; an expandable balloon coupled to the catheter shaft, the expandable balloon being capable of shifting between an expanded configuration and a deflated configuration along pre-determined fold lines; and a plurality of elongate electrode assemblies each constructed as a flexible circuit, the plurality of elongate electrode assemblies disposed on an outer surface of the expandable balloon; wherein each of the plurality of elongate electrode assemblies includes a plurality of active electrodes arranged in a first array, a plurality of ground electrodes arran