External charger with customizable magnetic charging field

What is claimed is: 1. An external charger for charging at least one implantable medical device, comprising: a primary charging coil positioned radially symmetrically with respect to a main axis; and a plurality of first coils that are positioned with radial symmetry with respect to the main axis, wherein each first coil is positioned at a different location about the main axis, and wherein each of the first coils is configured to be differently activated in conjunction with activation of the primary charging coil to produce a combined magnetic field to charge the at least one implantable medical device, wherein the combined magnetic field is radially asymmetric with respect to the main axis. 2. The external charger of claim 1 , wherein the plurality of first coils are located within an area extent of the primary charging coil. 3. The external charger of claim 1 , further comprising a memory for storing a plurality of coupling parameters, and wherein each of the first coils is configured to be differently activated in accordance with at least one of the coupling parameters. 4. The external charger of claim 3 , wherein each coupling parameter is indicative of the coupling between the external charger and one of the implantable medical devices. 5. The external charger of claim 4 , wherein each coupling parameter is indicative of the coupling between one of the first coils and one of the plurality of implantable medical devices. 6. The external charger of claim 3 , wherein each coupling parameter is indicative of the coupling between one of the first coils and at least one of the implantable medical devices. 7. The external charger of claim 1 , wherein each of the first coils is configured to be differently activated by being controllable to carry different currents. 8. The external charger of claim 1 , wherein each of the first coils is configured to be differently activated by being coupleable in series with the primary charging coil. 9. The external charger of claim 1 , wherein each of the first coils is configured to be differently activated by being selectively openable or closeable. 10. The external charger of claim 1 , wherein the first coils and the primary charging coil are comprised of separate wires. 11. The external charger of claim 1 , wherein each of the first coils is coupled to at least one of a plurality of adjustable resistors, and wherein each of the first coils is configured to be differently activated by adjusting resistances of at least one of the adjustable resistors. 12. The external charger of claim 1 , wherein each of the first coils is activated by a current source, and wherein each of the first coils is configured to be differently activated by setting the current sources. 13. The external charger of claim 1 , wherein the primary charging coil is activated by a first current, and wherein at least one of the first coils is activated with a second current flowing in the opposite direction from the first current. 14. The external charger of claim 1 , further comprising a test current source configured to provide a test current to each of the first coils to determine at least one coupling parameter between each first coil and at least one implantable medical device, and wherein each first coil is configured to be differently activated in accordance with its at least one coupling parameter. 15. An external charger for charging at least one implantable medical device, comprising: a plurality of coplanar first coils positioned radially symmetrically with respect to a main axis, wherein each first coil is positioned at a different location about the main axis; and test circuitry configured to determine at least one coupling parameter between each first coil and at least one implantable medical device, wherein each of the first coils is configured to be differently activated in accordance with its at least one coupling parameter to produce a magnetic field that is radially asymmetric with respect to the main axis. 16. The external charger of claim 15 , further comprising a memory for storing the coupling parameters. 17. The external charger of claim 15 , wherein each of the first coils is configured to be differently activated by being controllable to carry different currents. 18. The external charger of claim 15 , wherein each of the first coils is configured to be differently activated by being selectively openable or closeable. 19. The external charger of claim 15 , wherein the first coils are comprised of separate wires. 20. The external charger of claim 15 , wherein each of the first coils is coupled to at least one of a plurality of adjustable resistors, and wherein each of the first coils is configured to be differently activated by adjusting resistances of at least one of the adjustable resistors. 21. The external charger of claim 15 , wherein each of the first coils is activated by a current source, and wherein each of the first coils is configured to be differently activated by setting the current sources in accordance with the at least one coupling parameter. 22. The external charger of claim 15 , wherein the test circuitry comprises a test current source configured to provide a test current to each of the first coils to determine the coupling parameters. 23. The external charger of claim 15 , further comprising a primary charging coil, wherein each of the first coils is configured to be differently activated in conjunction with activation of the primary coil to produce the magnetic field that is radially asymmetric with respect to the main axis. 24. The external charger of claim 23 , wherein the main axis comprises a main axis of the primary charging coil. 25. The external charger of claim 23 , wherein the plurality of first coils are located within an area extent of the primary charging coil. 26. The external charger of claim 23 , wherein the primary charging coil is activated by a first current, and wherein at least one of the first coils is activated with a second current flowing in the opposite direction from the first current. 27. The external charger of claim 23 , wherein each of the first coils is configured to be differently activated by being coupleable in series with the primary charging coil.