Multi-electrode ablator tip having dual-mode, omni-directional feedback capabilities

What is claimed is: 1. A tip electrode comprising: an electrically insulative substrate comprising an inner lumen, an external tip surface, and a plurality of channels extending from the inner lumen to the external tip surface, wherein the electrically insulative substrate comprises a rigid material; a plurality of segmented electrodes, a plurality of wire or conductor traces and a plurality of spot electrodes; wherein at least one of the plurality of segmented electrodes is disposed on the electrically insulative substrate, wherein each of the plurality of segmented electrodes and each of the plurality of spot electrodes are laterally separated from each other by an electrically insulative gap and wherein each of the spot electrodes and each of the segmented electrodes are electrically coupled to at least one of the plurality of wire or conductor traces. 2. The tip electrode according to claim 1 further comprising a plurality of thermal sensors, wherein at least one of the plurality of thermal sensors is disposed within a channel and is adjacent the external tip surface. 3. The tip electrode according to claim 2 , wherein at least one of the plurality of thermal sensors is disposed adjacent one of the plurality of spot electrodes such that the thermal sensor can be electrically connected to a conductor pair electrically connected to the spot electrode. 4. The tip electrode according to claim 1 further comprising an irrigation through hole extending through the electrically-insulative substrate. 5. The tip electrode according to claim 4 , wherein said irrigation through hole comprises a channel which acts to deliver irrigant and in addition contains at least one electrode or thermal sensor wire or conductor. 6. The tip electrode according to claim 1 , wherein at least one of the plurality of wire or conductor traces comprises a conductor pair and wherein a thermal sensor is electrically coupled to the conductor pair. 7. The tip electrode according to claim 1 , wherein at least one of the plurality of spot electrodes is disposed within the lateral confines of an ablating electrode segment. 8. The tip electrode according to claim 1 , wherein at least one of the plurality of channels comprises a metallized surface to electrically couple one of the plurality of spot electrodes or one of the plurality of segmented electrodes to the at least one wire or conductor trace. 9. The tip electrode according to claim 1 , wherein the plurality of segmented electrodes comprises at least three segmented electrodes. 10. The tip electrode according to claim 9 , wherein the plurality of spot electrodes comprises at least three spot electrodes. 11. The tip electrode according to claim 10 wherein each of the spot electrodes is disposed within a separate segmented electrode. 12. The tip electrode according to claim 11 , wherein each of the spot electrodes is disposed within a distal portion of the electrically insulative substrate. 13. The tip electrode according to claim 1 further comprising a tip ring electrode. 14. The tip electrode according to claim 13 wherein the tip ring electrode is disposed proximal of the plurality of segmented electrodes. 15. The tip electrode according to claim 14 further comprising a ring spot electrode. 16. The tip electrode according to claim 15 , wherein the ring spot electrode is surrounded by the tip ring electrode. 17. The tip electrode according to claim 1 , wherein each of the plurality of segmented electrodes extend in a longitudinal direction along a length of the tip. 18. The tip electrode according to claim 17 further comprising a distal end non-conductive portion. 19. The tip electrode according to claim 17 further comprising an irrigation through-hole at a distal end of the electrically insulative substrate. 20. The tip electrode according to claim 17 further comprising a plurality of longitudinal non-conductive portions. 21. The tip electrode according to claim 20 wherein each of the plurality of segmented electrodes is bordered by two of the plurality of longitudinal non-conductive portions. 22. The tip electrode of claim 1 wherein the electrically insulative substrate comprises alumina, zirconia, zirconia-toughened alumina or silicon nitride. 23. The tip electrode according to claim 1 , wherein at least one of the plurality of segmented electrodes disposed on the electrically insulative substrate comprises a vapor deposited metal on the ceramic material. 24. A system for ablating tissue comprising: a tip electrode comprising: an electrically insulative substrate comprising an inner lumen, an external tip surface, and a plurality of channels extending from the inner lumen to the external tip surface, wherein the electrically insulative substrate comprises a ceramic material; a plurality of segmented electrodes, and a plurality of spot electrodes; wherein at least one of the plurality of segmented electrodes is disposed on the electrically insulative substrate, wherein each of the plurality of segmented electrodes and each of the plurality of spot electrodes are laterally separated from each other by an electrically insulative gap and wherein each of the spot electrodes and each of the segmented electrodes are electrically coupled to at least one wire or conductor; and an electronic control unit configured to control the plurality of spot electrodes and the plurality of segmented electrodes to bipolar pace cardiac tissue. 25. A tip electrode comprising: an electrically insulative substrate comprising an inner lumen, an external tip surface, and a plurality of channels extending from the inner lumen to the external tip surface; a plurality of segmented electrodes, a plurality of wire or conductor traces and a plurality of spot electrodes; wherein at least one of the plurality of segmented electrodes is disposed on the electrically insulative substrate, wherein each of the plurality of segmented electrodes and each of the plurality of spot electrodes are laterally separated from each other by an electrically insulative gap, wherein at least one of the plurality of spot electrodes is disposed within the confines of an ablating electrode segment, wherein each of the spot electrodes and each of the segmented electrodes are electrically coupled to at least one of the plurality of wire or conductor traces, wherein at least one of the plurality of channels extends in a radial direction to at least one of the spot electrodes, wherein at least one of the plurality of spot electrodes is disposed within an ablating electrode segment.