Physical force capacitive touch sensors

What is claimed is: 1. A physical force capacitive touch sensor, comprising: a substrate; a capacitive sensor element on a face of the substrate comprising an array of electrodes; a cover comprising a first section forming a substantially non-deformable spacer on the substrate that surrounds the capacitive sensor element and a second section forming a flexible cover covering the capacitive sensor element; an electrically conductive plane coupled with the flexible cover via an array of pedestals and being proximate to the capacitive sensor element and being arranged to at least partially cover each electrode in said array of electrodes; wherein a density of pedestals in the array of pedestals coupled between the flexible cover and the electrically conductive plane is greater than a density of electrodes in the array of electrodes; and wherein when a mechanical force is applied to the flexible cover, the flexible cover and electrically conductive plane are biased toward the capacitive sensor element, whereby the capacitive sensor element changes capacitance value. 2. The physical force capacitive touch sensor according to claim 1 , wherein the cover is a single piece cover and the electrically conductive plane is a part of the single piece cover. 3. The physical force capacitive touch sensor according to claim 1 , wherein a deformable space around the capacitive sensor element is created by the flexible cover and the substantially non-deformable spacer, wherein the flexible cover is light transmissive. 4. The physical force capacitive touch sensor according to claim 1 , wherein the substantially non-deformable spacer is light inhibitive. 5. The physical force capacitive touch sensor according to claim 1 , further comprising an alpha-numeric emblem on the flexible cover to indicate a function of an associated capacitive sensor element. 6. The physical force capacitive touch sensor according to claim 5 , wherein the alpha-numeric emblem is silk screened onto the flexible cover or the alpha-numeric emblem is embossed into the flexible cover or the alpha-numeric emblem is stamped onto the flexible cover. 7. The physical force capacitive touch sensor according to claim 1 , wherein the electrically conductive plane is a layer of Indium Tin Oxide (ITO) disposed on a face of the flexible cover or a layer of Antimony Tin Oxide (ATO) disposed on a face of the flexible cover or a layer of Graphene disposed on a face of the flexible cover. 8. The physical force capacitive touch sensor according to claim 1 , further comprising a light source, wherein the light source is an electroluminescent (EL) layer or an organic light emitting diode (OLED) layer or an electrophoretic coating of light emitting material. 9. The physical force capacitive touch sensor according to claim 1 , wherein the other electrode of the capacitive sensor element is coupled to an input of a capacitance value measurement circuit. 10. The physical force capacitive touch sensor according to claim 1 , wherein the substrate and the capacitive sensor element are fabricated from a printed circuit board. 11. The physical force capacitive touch sensor according to claim 1 , wherein the light transmissive substrate comprises glass or plastic. 12. The physical force capacitive touch sensor according to claim 1 , wherein the pedestals are round, square, or rectangular. 13. The physical force capacitive touch sensor according to claim 1 , wherein the plurality of capacitive sensor elements are arranged to form a ring and the electrically conductive plane is ring-shaped. 14. The physical force capacitive touch sensor according to claim 1 , further comprising a light source for illuminating a face of the flexible cover. 15. The physical force capacitive touch sensor according to claim 14 , wherein the light source is located between the electrically conductive plane and the flexible cover or between the electrically conductive plane and the capacitive sensor element or between the capacitive sensor element and the substrate or on an opposite face of the substrate from which the capacitive sensor element is located, whereby light shines through the substrate to illuminate the flexible cover. 16. The physical force capacitive touch sensor according to claim 1 , wherein one of the first and second electrodes is coupled with a supply common or ground and the electrically conductive plane is electrically floating. 17. The physical force capacitive touch sensor according to claim 1 , wherein the first and second electrodes are configured to be selectively coupled with a capacitance measurement device and the electrically conductive plane is coupled with a supply common or ground. 18. The physical force capacitive touch sensor according to claim 1 , further comprising a switch coupled with the electrically conductive plane, wherein in a first operating mode the switch couples the electrically conductive plane and a power supply common or ground, and in a second operating mode, the switch couples the electrically conductive plane with the capacitance value measurement circuit. 19. A capacitive touch sensor arrangement, comprising: a substrate; an array of capacitive sensor electrodes linearly or circularly arranged on a face of the substrate or arranged in a matrix on a face of the substrate; a cover comprising a first section forming a substantially non-deformable spacer on the substrate that surrounds the array of capacitive sensor electrodes and a second section forming a flexible cover covering the array of capacitive sensor elements; and a continuous electrically conductive deformable plane coupled with the flexible cover and being proximate to the array of capacitive sensor electrodes and being arranged to at least partially cover each capacitive sensor electrode in said array of capacitor sensor electrodes; an array of mini-pedestals located between the flexible cover and the electrically conductive deformable plane; wherein a density of mini-pedestals in the array of mini-pedestals between the flexible cover and the electrically conductive deformable plane is greater than a density of capacitive sensor electrodes in the array of capacitive sensor electrodes; and wherein when a mechanical force is applied to a region of the electrically conductive plane, the electrically conductive plane is biased toward at least one of the capacitive sensor elements physically aligned with the region of the continuous electrically conductive plane, whereby the at least one of the capacitive sensor elements changes capacitance value. 20. The capacitive touch sensor arrangement according to claim 19 , further comprising a light source for illuminating a face of the flexible cover, wherein the flexible cover and the electrically conductive deformable plane are light transmissive, wherein when the mechanical force is applied to the flexible cover the electrically conductive deformable plane is biased toward at least one of the plurality of capacitive sensor elements. 21. The capacitive touch sensor arrangement according to claim 19 , wherein the mini-pedestals are round, square, or rectangular. 22. The capacitive touch sensor arrangement according to claim 19 , further comprising a light source for illuminating a face of the electrically conductive deformable plane. 23. The capacitive touch sensor arrangement according to claim 19 , further comprising a capacitive measurement circuit having a plurality of inputs coupled to respective