Shock wave balloon catheter with multiple shock wave sources

What is claimed is: 1. A device comprising: an axially extending elongate member; a balloon surrounding a portion of the elongate member, said balloon being fillable with a conductive fluid; a first electrode pair having first and second spaced apart electrodes and a second electrode pair having first and second spaced apart electrodes, said electrode pairs being located within and spaced from the balloon, said electrode pairs being mounted on the elongate member and within the conductive fluid and wherein the electrode pairs are configured to produce shock waves that propagate through the liquid, and wherein one electrode in each pair has a surface area larger than the surface area of the other electrode in the pair; and a high voltage source connectable to the first electrode of first electrode pair, and with the second electrode of first electrode pair being connected to the first electrode of the second electrode pair, and with the second electrode of the second electrode pair being connectable to the high voltage source, and wherein when a high voltage pulse is supplied to the first and second electrode pairs, a first arc is generated in the conductive fluid allowing current to flow across the first electrode pair and a second arc is generated in the conductive fluid allowing current to flow across the second electrode pair, thereby creating a series connection running from the first electrode in the first electrode pair to the second electrode of the second pair. 2. A device as recited in claims 1 further including a third electrode pair having first and second spaced apart electrodes, with the second electrode of the second electrode pair being connectable to the first electrode of the third electrode pair and with the second electrode of the third electrode pair being connectable to the high voltage source. 3. A device as recited in claims 1 further including a third electrode pair having first and second spaced apart electrodes and a fourth electrode pair having first and second spaced apart electrodes, with the second electrode of the third electrode pair being connected to the first electrode of the fourth electrode pair, said device further including a multiplexer for selectively connecting the high voltage source to either the first and second electrode pairs or the third and fourth electrode pairs. 4. A device as recited in claim 3 wherein the second electrode of the second electrode pair and the second electrode of the fourth electrode pair are connectable to a common conductor providing a return path to the high voltage source. 5. A device as recited in claims 1 wherein at least two of the electrode pairs are spaced longitudinally along the elongated member. 6. A device as recited in claims 1 wherein the elongated member comprises a guide wire lumen. 7. A device as recited in claims 1 wherein said balloon is a single chamber angioplasty balloon. 8. A device as recited in claims 1 wherein said balloon includes two chambers configured for valvuloplasty. 9. A device comprising: an axially extending elongate member; a balloon surrounding a portion of the elongate member, said balloon being fillable with a conductive fluid; a plurality of electrode pairs located within and spaced from the balloon, said electrode pairs being mounted on the elongate member and within the conductive fluid and wherein the electrode pairs are configured to produce shock waves that propagate through the liquid and wherein one electrode in each pair has a surface area larger than the surface area of the other electrode in the pair; a high voltage source connectable to the electrodes; and a multiplexer and wherein the plurality of electrode pairs include a first set of two pairs of electrodes with one electrode of one pair being connected to one electrode of the other pair, said electrode pairs further including a second set of two pairs of electrodes with one electrode of one pair being connected to one electrode of the other pair, and wherein said multiplexer selectively connects the high voltage source to one or the other of the first and second sets of electrode pairs, with the connected set operating in series across an arc generated in the conductive fluid allowing current to flow across each pair of electrodes. 10. A device as recited in claims 9 wherein one electrode in the first set of two pairs and one electrode in the second set of two pairs are connectable to a common conductor providing a return path to the high voltage source. 11. A device as recited in claims 9 wherein at least two of the electrode pairs are spaced longitudinally along the elongated member. 12. A device as recited in claims 9 wherein the elongated member comprises a guide wire lumen. 13. A device as recited in claims 9 wherein said balloon is a single chamber angioplasty balloon. 14. A device as recited in claims 9 wherein said balloon includes two chambers configured for valvuloplasty. 15. A device comprising: an axially extending elongate member; a tubular member surrounding a portion of the elongate member, said tubular member being fillable with a conductive fluid; a first electrode pair having first and second spaced apart electrodes and a second electrode pair having first and second spaced apart electrodes, said electrode pairs being located within and spaced from the tubular member, wherein the electrode pairs are configured to produce shock waves that propagate through the liquid, and wherein one electrode in each pair has a surface area larger than the surface area of the other electrode in the pair; and a high voltage source connectable to the first electrode of first electrode pair, and with the second electrode of first electrode pair being connected to the first electrode of the second electrode pair, and with the second electrode of the second electrode pair being connectable to the high voltage source, and wherein when a high voltage pulse is supplied to the first and second electrode pairs, a first arc is generated in the conductive fluid allowing current to flow across the first electrode pair and a second arc is generated in the conductive fluid allowing current to flow across the second electrode pair, thereby creating a series connection running from the first electrode in the first electrode pair to the second electrode of the second pair. 16. A device as recited in claims 15 further including a third electrode pair having first and second spaced apart electrodes, with the second electrode of the second electrode pair being connectable to the first electrode of the third electrode pair and with the second electrode of the third electrode pair being connectable to the high voltage source. 17. A device as recited in claims 15 further including a third electrode pair having first and second spaced apart electrodes and a fourth electrode pair having first and second spaced apart electrodes, with the second electrode of the third electrode pair being connected to the first electrode of the fourth electrode pair, said device further including a multiplexer for selectively connecting the high voltage source to either the first and second electrode pairs or the third and fourth electrode pairs. 18. A device as recited in claim 17 wherein the second electrode of the second electrode pair and the second electrode of the fourth electrode pair are connectable to a common conductor providing a return path to the high voltage source. 19. A device as recited in claim 15 wherein the first electrode pair and second electrode pair are spaced longitud