Deflectable support of RF energy electrode with respect to opposing ultrasonic blade

The invention claimed is: 1. An end-effector, comprising: a clamp arm comprising a clamp arm pad,wherein the clamp arm pad comprises one or more resistors embedded in the clamp arm pad to sense a height of the clamp arm pad; and an ultrasonic blade configured to acoustically couple to an ultrasonic transducer and to electrically couple to a pole of an electrical generator; wherein the clamp arm comprises: a clamp jaw having a proximal end and a distal end, the proximal end pivotally movable about a pivot point; the clamp arm pad fixed to the clamp jaw; and a cantilever electrode having a proximal end fixed to the proximal end of the clamp jaw and a distal end that is free to deflect, the cantilever electrode defining a surface configured to contact tissue and apply electrical energy to the tissue in contact therewith, wherein the cantilever electrode is configured to electrically couple to an opposite pole of the electrical generator. 2. The end-effector of claim 1 , further comprising at least one gap pad fixed to the cantilever electrode to set a gap between the ultrasonic blade and the cantilever electrode. 3. The end-effector of claim 2 , wherein the at least one gap pad is located at the proximal end of the cantilever electrode, wherein the at least one gap pad is made a material having a hardness that is greater than a hardness of the clamp arm pad such that the at least one gap pad has longer wear life than the clamp arm pad, and wherein the clamp arm pad is made of a polymer material and the at least one gap pad is made of a polyimide material. 4. The end-effector of claim 2 , wherein the at least one gap pad is made of a non-compliant material and the clamp arm pad is made of a compliant material. 5. The end-effector of claim 2 , wherein the cantilever electrode comprises a gap pad of the at least one gap pad at the proximal end of the cantilever electrode, a second gap pad of the at least one gap pad at the distal end of the cantilever electrode, and a third gap pad of the at least one gap pad located between the proximal end of the cantilever electrode and the distal end of the cantilever electrode. 6. The end-effector of claim 1 , wherein the clamp arm pad comprises a base portion fixedly attached to the clamp jaw and a plurality of teeth extending from the base portion in a direction toward the cantilever electrode. 7. The end-effector of claim 1 , wherein the cantilever electrode defines a plurality of apertures. 8. The end-effector of claim 1 , wherein the cantilever electrode comprises a center pivot configuration to enable the cantilever electrode to rotate about the center pivot. 9. The end-effector of claim 1 , wherein the cantilever electrode is formed into a spring element, and wherein the spring element further comprises strips of metal to form a leaf spring configuration. 10. The end-effector of claim 1 , further comprising a spring disposed between the cantilever electrode and the clamp jaw. 11. The end-effector of claim 9 , wherein the cantilever electrode comprises wear pads attached to the cantilever electrode on a side facing the ultrasonic blade. 12. The end-effector of claim 1 , wherein the cantilever electrode is overmolded with an elastomer to provide uniform compression along a length of the cantilever electrode, and the clamp arm pad comprises at least a portion disposed between the clamp jaw and the cantilever electrode and another portion extending beyond the surface of the cantilever electrode that is configured to contact tissue. 13. The end-effector of claim 12 , wherein the cantilever electrode comprises electrical contacts on lateral portions thereof. 14. The end-effector of claim 12 , wherein a spring rate of the cantilever electrode increases as the cantilever electrode overmolded with the elastomer compresses against the elastomer. 15. The end-effector of claim 12 , wherein the ultrasonic blade comprises overmolded rings or pads. 16. The end-effector of claim 12 , where the cantilever electrode comprises a diaphragm attached to the clamp jaw by rigid electrically conductive connections, wherein the clamp arm pad is disposed on the diaphragm, and wherein the diaphragm is formed of a thin metallic conductor material to flex or deflect the cantilever electrode. 17. The end-effector of claim 12 , wherein the cantilever electrode overmolded with the elastomer comprises ends folded into springs and that are in electrical contact with the clamp jaw. 18. The end-effector of claim 1 , wherein the one or more than one resistor is configured to melt or wear along with the clamp arm pad such that a resistance value of the one or more resistors is analogous to the height of the clamp arm pad. 19. The end-effector of claim 1 , wherein the cantilever electrode comprises a resilient plug at the distal end, and wherein the clamp arm pad comprises at least a portion disposed between the clamp jaw and the cantilever electrode and another portion extending beyond the surface of the cantilever electrode to contact tissue. 20. An end-effector, comprising: a clamp arm; and an ultrasonic blade configured to acoustically couple to an ultrasonic transducer and to electrically couple to a pole of an electrical generator; wherein the clamp arm comprises: a clamp jaw having a proximal end and a distal end, the proximal end pivotally movable about a pivot point; a clamp arm pad fixed to the clamp jaw; and a cantilever electrode having a proximal end fixed to the proximal end of the clamp jaw and a distal end that is free to deflect, the cantilever electrode defining a surface configured to contact tissue and apply electrical energy to the tissue in contact therewith, wherein the cantilever electrode is configured to electrically couple to an opposite pole of the electrical generator; wherein the cantilever electrode is overmolded with an elastomer to provide uniform compression along a length of the cantilever electrode, wherein the clamp arm pad fixed to the clamp jaw comprises at least a portion disposed between the clamp jaw and the cantilever electrode and another portion extending beyond the surface of the cantilever electrode that is configured to contact tissue; wherein the cantilever electrode comprises a diaphragm attached to the clamp jaw by rigid electrically conductive connections, wherein the clamp arm pad is disposed on the diaphragm, and wherein the diaphragm is formed of a thin metallic conductor material to flex or deflect the cantilever electrode. 21. An end-effector, comprising: a clamp arm; and an ultrasonic blade configured to acoustically couple to an ultrasonic transducer and to electrically couple to a pole of an electrical generator; wherein the clamp arm comprises: a clamp jaw having a proximal end and a distal end, the proximal end pivotally movable about a pivot point; a clamp arm pad fixed to the clamp jaw; and a cantilever electrode having a proximal end fixed to the proximal end of the clamp jaw and a distal end that is free to deflect, the cantilever electrode defining a surface configured to contact tissue and apply electrical energy to the tissue in contact therewith, wherein the cantilever electrode is configured to electrically couple to an opposite pole of the electrical generator; wherein the cantilever electrode is overmolded with an elastomer to provide uniform compression along a length of the cantilever electrode, wherein the clamp arm pad fixed to the clamp jaw comprises at least a portion disposed between the clamp jaw and th