Electrode assembly with hybrid weld

What is claimed is: 1. An electrode assembly comprising: a mandrel having a first face and a second face, comprising a positive portion, a negative portion, a breakaway notch and one or more removable portions adjacent to the breakaway notch; a positive electrode; a negative electrode; a positive feedthrough pin; and a negative feedthrough pin; wherein the positive portion and the negative portion are connected by one or more removable portions; wherein the positive feedthrough pin is connected to the positive portion and the negative feedthrough pin is connected to the negative portion; wherein the positive electrode is attached to the positive portion and the negative electrode is attached to the negative portion; wherein one or both electrodes are connected to the mandrel by one or more ultrasonic welds from the same face of the mandrel from which the one or both electrodes are attached; and wherein one or both electrodes are connected to the mandrel by one or more laser welds from an opposite face of the mandrel to which the one or both electrodes are attached. 2. The electrode assembly of claim 1 , wherein an ultrasonic weld provides one or more knurls. 3. The electrode assembly of claim 1 , wherein a laser weld is formed about one or more knurls. 4. The electrode assembly of claim 1 , wherein the positive portion and/or the negative portion have a groove configured to accept the feedthrough pins. 5. The electrode assembly of claim 1 , wherein the positive and negative feedthrough pins are independently selected from steel, platinum, aluminum, titanium, vanadium, niobium, molybdenum, platinum-iridium, and copper and their alloys. 6. The electrode assembly of claim 1 , wherein the positive and negative electrodes are independently selected from aluminum, steel, silver, copper, nickel, titanium, vanadium or alloys thereof. 7. The electrode assembly of claim 1 , wherein the positive electrode is coated with a positive active material selected from lithium cobalt oxide, carbon monofluoride, silver vanadium oxide, or combinations thereof. 8. The electrode assembly of claim 1 , wherein the negative electrode is coated with a negative active material selected from lithium titanate, artificial graphite powder, lithium or combinations thereof. 9. The electrode assembly of claim 1 , wherein the mandrel is formed from an electrically conductive material selected from stainless steel, aluminum, titanium, vanadium, nickel, copper, their alloys or combinations thereof. 10. The electrode assembly of claim 1 , wherein the positive electrode, the negative electrode, or both is/are interposed in the groove between the positive feedthrough pin or negative feedthrough pin and the mandrel. 11. The electrode assembly of claim 1 , wherein a passage is interposed between the positive and the negative portions. 12. The electrode assembly of claim 11 , wherein a separator strip is passed through the passage. 13. The electrode assembly of claim 12 , wherein the electrodes and the separator strip are wound around the mandrel. 14. A method of preparing an electrode assembly according to claim 1 , comprising: providing a mandrel having a first face and a second face and comprising a positive portion and a negative portion connected by one or more removable portions that are separated by the breakaway notch; providing a positive electrode; providing a negative electrode; providing a positive feedthrough pin; providing a negative feedthrough pin; connecting the positive feedthrough pin to the positive portion and the negative feedthrough pin to the negative portion; attaching the positive electrode to a face of the positive portion by ultrasonic welding from the same face of the mandrel to which the electrode is attached; attaching the negative electrode to a face of the negative portion by ultrasonic welding from the same face of the mandrel to which the electrode is attached; and attaching the positive electrode, the negative electrode or both to a face of the positive portion and/or the negative portion respectively by laser welding from an opposite face of the mandrel to which the electrode is attached. 15. A method of preparing an electrode assembly of claim 14 , wherein ultrasonic welding provides one or more knurls. 16. A method of preparing an electrode assembly of claim 15 , wherein laser welding provides molten mandrel material about the one or more knurls. 17. The method of preparing an electrode assembly of claim 14 , further comprising the step of providing a groove configured to accept the positive feedthrough pin on the positive portion on a face of the mandrel. 18. The method of preparing an electrode assembly of claim 17 , wherein the positive feedthrough pin is conductively connected in the groove on the positive portion. 19. The method of preparing an electrode assembly of claim 14 , further comprising the step of, providing a groove configured to accept the negative feedthrough pin on the negative portion on a face of the mandrel. 20. The method of preparing an electrode assembly of claim 19 , wherein the negative feedthrough pin is conductively connected in the groove on the negative portion. 21. The method of preparing an electrode assembly of claim 14 , wherein the positive and negative feedthrough pins are independently selected from steel, platinum, aluminum, titanium, vanadium, niobium, molybdenum, platinum-iridium, copper and alloys thereof. 22. The method of preparing an electrode assembly of claim 14 , wherein the positive and negative electrodes are independently selected from aluminum, steel, silver, copper, nickel, titanium, vanadium, and alloys thereof. 23. The method of preparing an electrode assembly of claim 22 , wherein the positive electrode is coated with a positive active material selected from lithium cobalt oxide, carbon monofluoride, silver vanadium oxide, or combinations thereof. 24. The method of preparing an electrode assembly of claim 22 , wherein the negative electrode is coated with a negative active material selected from lithium titanate, artificial graphite powder, lithium, or combinations thereof. 25. The method of preparing an electrode assembly of claim 14 , wherein the mandrel is formed from an electrically conductive material selected from stainless steel, aluminum, titanium, vanadium, nickel, copper, and alloys thereof. 26. The method of preparing an electrode assembly of claim 14 , wherein the positive electrode, the negative electrode, or both is/are interposed in the groove between the positive feedthrough pin or negative feedthrough pin and the mandrel. 27. The method of preparing an electrode assembly of claim 14 , further including passing a separator strip through a passage between the positive and the negative portions. 28. The method of preparing an electrode assembly of claim 27 , further including winding the electrodes and the separator strip around the mandrel. 29. The method of preparing an electrode assembly of claim 28 , wherein winding is accomplished by rotating the mandrel. 30. The method of preparing an electrode assembly of claim 29 , further comprising the step of detaching the one or more removable portions. 31. The method of preparing an electrode assembly of claim 14 , wherein the mandrel is planar. 32.