Irrigated ablation electrode having smooth edges to minimize tissue char

What is claimed is: 1. An irrigated ablation electrode assembly comprising: an inner lumen; a proximal member; a distal member configured for connection to the proximal member, the distal member comprising an electrically conductive material and having a distal end and an outer surface configured for the delivery of ablative energy; and a passageway extending from the inner lumen to the outer surface, wherein the conjunction of the passageway and the outer surface is rounded or chamfered and is configured to reduce energy intensity concentration at the conjunction. 2. The electrode assembly of claim 1 , wherein the passageway extends radially outwardly to the outer surface through the distal member. 3. The electrode assembly of claim 2 , further comprising a second passageway that extends axially along a central longitudinal axis of the distal member to the outer surface through the distal member. 4. An irrigated ablation electrode assembly comprising: a distal member comprising an electrically conductive material and having a distal end and an outer surface configured for the delivery of ablative energy; and a passageway extending from the inner lumen to the outer surface, wherein the conjunction of the passageway and the outer surface is chamfered, the chamfer having a width of a cut surface from about 0.001 inches to about 0.004 inches, the conjunction further being configured to reduce energy intensity concentration at the conjunction. 5. An irrigated ablation electrode assembly comprising: a distal member comprising an electrically conductive material and having a distal end and an outer surface configured for the delivery of ablative energy; and a passageway extending from the inner lumen to the outer surface, wherein the conjunction of the passageway and the outer surface is rounded, the conjunction having a radius of about 0.002″ to about 0.008″, the conjunction further being configured to reduce energy intensity concentration at the conjunction. 6. The electrode assembly of claim 1 , including a temperature sensor in the distal member. 7. The electrode assembly of claim 1 , wherein the proximal member is substantially less thermally conductive than the distal member. 8. The electrode assembly of claim 1 , wherein the proximal member is comprised of an electrically nonconductive material. 9. The electrode assembly of claim 1 , wherein at least a portion of the passageway is thermally insulated from the distal member by a thermally nonconductive material. 10. The electrode assembly of claim 3 , wherein the second passageway extends axially along a central longitudinal axis of the proximal member towards the distal member. 11. The electrode assembly of claim 2 , wherein the passageway extends towards the distal end at an angle less than perpendicular to a central longitudinal axis of the distal member. 12. The electrode assembly of claim 11 , wherein the passageway extends towards the distal end at an angle between about 20 and about 70 degrees from an angle perpendicular to the central longitudinal axis of the distal portion. 13. The electrode assembly of claim 3 , wherein the diameter of the inner lumen is greater than the diameter of the second passageway and the inner lumen and second passageway are connected together by a tapered transition portion of the inner lumen. 14. The electrode assembly of claim 6 , wherein at least a portion of the temperature sensor is surrounded by an electrically nonconductive material. 15. The electrode assembly of claim 1 , wherein the inner lumen includes a hydrophilic coating. 16. An irrigated ablation electrode assembly comprising: a proximal member having an outer surface, an inner lumen, and a proximal passageway extending radially outwardly from the inner lumen to the outer surface of the proximal member, wherein the proximal member comprises an electrically nonconductive material; and a distal member comprising an electrically conductive material and having a distal end, an inner lumen, an outer surface configured for the delivery of ablative energy, and a distal passageway extending axially from the inner lumen through the distal member to the outer surface of the distal member; wherein the proximal member and distal member are configured for connection with one another; wherein the proximal member comprises a material having a thermal conductivity which is lower than a thermal conductivity of a material of the distal member; and wherein the conjunction of the distal passageway and the outer surface of the distal member is rounded or chamfered and is configured to reduce energy intensity concentration at the conjunction. 17. The electrode assembly of claim 16 , wherein the conjunction of the distal passageway and the outer surface of the distal member is chamfered, the chamfer having a width of a cut surface from about 0.001 inches to about 0.004 inches. 18. The electrode assembly of claim 16 , wherein the conjunction of the distal passageway and the outer surface of the distal member is rounded, the conjunction having a radius of about 0.002″ to about 0.008″. 19. An irrigated ablation catheter comprising: a catheter shaft having a distal end; a proximal member connected to the distal end of the catheter shaft, the proximal member having an outer surface, an inner lumen, and a proximal passageway extending from the inner lumen to the outer surface of the proximal member; and a distal member connected to the proximal member, wherein the distal member is configured to receive a portion of the proximal member such that the portion of the proximal member is disposed internally relative to the distal member, the distal member having an outer surface, a distal end, and a distal passageway extending from the inner lumen through the distal member to the outer surface of the distal member; wherein the proximal member has a lower thermal conductivity than the distal member, and the distal member comprises an electrode; and wherein the conjunction of the distal passageway and the outer surface of the distal member is rounded with a radius that is configured to reduce energy intensity concentration at the conjunction. 20. The electrode assembly of claim 1 , wherein the conjunction of the passageway and the outer surface is chamfered, the chamfer having a width of a cut surface from about 0.001 inches to about 0.004 inches. 21. The electrode assembly of claim 1 , wherein the conjunction of the passageway and the outer surface is rounded, the conjunction having a radius of about 0.002″ to about 0.008″.