Input device with capacitive force sensor and method for constructing the same

What is claimed is: 1. An input device comprising: a display having a viewing side and a non-viewing side substantially opposing the viewing side; a first plurality of sensor electrodes disposed on the viewing side of the display the first plurality of sensor electrodes configured to capacitively sense positional information associated with user input in a sensing region overlapping the display; a second plurality of sensor electrodes disposed on the non-viewing side of the display and configured to capacitively sense a separation distance between the non-viewing side of the display and a casing, wherein the display is separated from the casing and moveable relative to the casing; and a biasing member operably coupled to the display such that a force associated with the user input causes a change in the separation distance between the non-viewing side of the display and the casing; wherein the positional information of the user input is sensed by the first plurality of sensor electrodes concurrently with the separation distance being sensed by the second plurality of sensor electrodes. 2. The input device of claim 1 , wherein the display is separated from the casing by a gas. 3. The input device of claim 1 , wherein the casing is held at a constant electric potential. 4. The input device of claim 1 , wherein the second plurality of capacitive electrodes are capacitively coupled to the casing. 5. The input device of claim 1 , further comprising a processing system, the processing system communicatively coupled to the first plurality of sensor electrodes and the second plurality of sensor electrodes and configured to: operate the first plurality of sensor electrodes to determine the positional information for user input in the sensing region; and operate the second plurality of sensor electrodes to determine the change in the separation distance between the casing and the display. 6. The input device of claim 5 , wherein the processing system is further configured to determine a force applied to the display based on the change in the separation distance. 7. The input device of claim 5 , wherein the processing system is further configured to determine a plurality of separation distances from the second plurality of sensor electrodes. 8. The input device of claim 7 , wherein the processing system is configured to determine the force applied to the display based on at least a subset of the plurality of separation distances. 9. The input device of claim 5 , wherein the processing system is configured to determine the force applied to the display based on a change in the separation distance and positional information. 10. The input device of claim 9 , wherein the processing system is configured to determine the force applied by applying a correction factor to the separation distance based on the positional information. 11. The input device of claim 1 , wherein the biasing member is configured to have a monotonic force-displacement response. 12. A processing system for a touch screen device, the touch screen device comprising: a display having a viewing side and a non-viewing side, a first plurality of sensor electrodes disposed on the viewing side of the display, a second plurality of sensor electrodes disposed on the non-viewing side of the display, a biasing member operably coupled to the display such that a force applied to the viewing side of the display cause a change in a separation distance between the display and a casing and a removal of the force returns the display to an original position; wherein the processing system is communicatively coupled to the first plurality of sensor electrodes and the second plurality of sensor electrodes and configured to: operate the first plurality of sensor electrodes to sense positional information associated with user input in a sensing region overlapping the viewing side of the display; operate the second plurality of sensor electrodes to sense the change in the separation distance between the non-viewing side of the display and the casing; and determine a force applied to the viewing side of the display based at least in part on the change in the separation distance. 13. The processing system of claim 12 , wherein determining the force applied is further based on the positional information. 14. The processing system of claim 13 , wherein the determination of the separation distance is based on a change in a capacitive coupling formed between the second plurality of sensor electrodes and the casing. 15. The processing system of claim 12 , wherein the processing system is configured to hold the casing at a constant voltage. 16. The processing system of claim 15 , wherein the processor is configured to determine the change in the separation distance when holding the casing at the constant voltage. 17. The processing system of claim 14 , wherein the determination of the force applied to the viewing side of the display is based on a correction factor applied to the determined separation distance, wherein the correction factor is based on the positional information. 18. The processing system of claim 12 , further configured to determine a plurality of separation distances, wherein each separation distance of the plurality of separation distances corresponds to a single electrode from the second plurality of sensor electrodes. 19. The processing system claim 12 , wherein the touch screen device further comprises a circuit assembly physically coupled to the non-viewing side of display comprising the second plurality of sensor electrodes. 20. The processing system of claim 12 , wherein determining the force applied facilitates user navigation comprising scrolling, panning, menu navigation, and cursor control.