System and method for operating power converters

What is claimed is: 1. An electrical circuit for a power converter, said electrical circuit comprising: an electrically conductive element; a first switching device coupled to said electrically conductive element proximate an alternating current (AC) source; a voltage measurement device coupled to said electrically conductive element proximate a direct current (DC) link, wherein said electrical circuit extends between the AC source and the DC link; a DC voltage source coupled to said electrically conductive element; a first capacitive device coupled to said electrically conductive element, said first capacitive device positioned between said first switching device and said voltage measurement device; a second switching device coupled to said electrically conductive element, said second switching device positioned between said first capacitive device and said voltage measurement device; and a controller operatively coupled to said DC voltage source, said voltage measurement device, said first switching device, and said second switching device, said controller configured to open said second switching device when a measured voltage signal generated by said voltage measurement device is substantially representative of a reference voltage value. 2. The electrical circuit in accordance with claim 1 , wherein said electrically conductive element comprises a first electrically conductive element coupled to at least a positive DC rail and a second electrically conductive element coupled to at least a negative DC rail, said voltage measurement device configured to measure the voltage across at least one DC link device extending between said positive DC rail and said negative DC rail. 3. The electrical circuit in accordance with claim 1 , wherein said first switching device is configured to isolate said electrical circuit from the AC source. 4. The electrical circuit in accordance with claim 1 , wherein said DC voltage source is a DC pre-charger configured to energize said electrical circuit with a predetermined voltage value. 5. The electrical circuit in accordance with claim 1 further comprising: a second capacitive device coupled to said electrically conductive element; and a third switching device coupled to said electrically conductive element, said second capacitive device positioned between said second switching device and said third switching device, and said third switching device positioned between said second capacitive device and said voltage measurement device. 6. The electrical circuit in accordance with claim 5 , wherein said first capacitive device, said second switching device, said second capacitive device, and said third switching device define a plurality of said switching devices and a plurality of said capacitive devices alternating is a nested configuration. 7. The electrical circuit in accordance with claim 6 , wherein said plurality of said switching devices and said plurality of said capacitive devices alternating in a nested configuration are configured to sequentially energize each of said capacitive devices of said plurality of capacitive devices to an associated predetermined voltage. 8. The electrical circuit in accordance with claim 1 , wherein said controller comprises a comparator device. 9. The electrical circuit in accordance with claim 1 , wherein said controller comprises a computer comprising a processor and a memory device coupled to said processor. 10. An electric power system comprising: an alternating current (AC) source; a direct current (DC) link; and a first power converter comprising an electrical circuit extending between said AC source and said DC link, said electrical circuit comprising: an electrically conductive element; a first switching device coupled to said electrically conductive element proximate said AC source; a voltage measurement device coupled to said electrically conductive element proximate said DC link, wherein said electrical circuit extends between said AC source and said DC link; a DC voltage source coupled to said electrically conductive element; a first capacitive device coupled to said electrically conductive element, said first capacitive device positioned between said first switching device and said voltage measurement device; a second switching device coupled to said electrically conductive element, said second switching device positioned between said first capacitive device and said voltage measurement device; and a controller operatively coupled to said DC voltage source, said voltage measurement device, said first switching device, and said second switching device, said controller configured to open said second switching device when a measured voltage signal generated by said voltage measurement device is substantially representative of a reference voltage value. 11. The electric power system in accordance with claim 10 further comprising a second power converter coupled to said DC link, said second power converter substantially similar to said first power converter. 12. The electric power system in accordance with claim 10 , wherein said first power converter and said second power converter are multilevel power converters. 13. The electric power system in accordance with claim 10 further comprising: a second capacitive device coupled to said electrically conductive element; and a third switching device coupled to said electrically conductive element, said second capacitive device positioned between said second switching device and said third switching device, and said third switching device positioned between said second capacitive device and said voltage measurement device. 14. The electric power system in accordance with claim 13 , wherein said first capacitive device, said second switching device, said second capacitive device, and said third switching device define a plurality of said switching devices and a plurality of said capacitive devices alternating is a nested configuration. 15. The electric power system in accordance with claim 14 , wherein said plurality of said switching devices and said plurality of said capacitive devices alternating is a nested configuration are configured to sequentially energize each of said capacitive devices of said plurality of capacitive devices to an associated predetermined voltage.