Dynamic DC link voltage control

What is claimed is: 1. An Uninterruptible Power Supply (UPS) system, the UPS system comprising: an input configured to receive input AC power; an output configured to provide output AC power to a load; a converter coupled to the input and configured to convert the input AC power into DC power; a DC bus coupled to the converter and configured to receive the DC power; an inverter coupled to the DC bus and configured to convert the DC power from the DC bus into output AC power and provide the output AC Power to the output; and a controller configured to receive an output AC output voltage level selection from a user, operate the inverter to generate the output AC power having an AC voltage level based on the output AC output voltage level selection, and operate the converter to generate the DC power having a DC voltage level based on the output AC output voltage level selection. 2. The UPS system of claim 1 , wherein in operating the converter to generate the DC power, the controller is further configured to operate the converter to maintain an amplitude modulation ratio between the DC voltage level and the AC Voltage level for different AC output voltage selection values. 3. The UPS system of claim 1 , wherein the controller includes a reference signal generator configured to generate a DC Bus reference signal based on the output AC output voltage level selection from the user. 4. The UPS system of claim 3 , wherein the reference signal generator includes a digital processor. 5. The UPS system of claim 3 , further comprising a feedback controller coupled to the DC bus and configured to monitor a DC bus voltage level of the DC bus and generate a DC bus voltage level signal based on the DC bus voltage level. 6. The UPS system of claim 5 , further comprising a voltage regulator coupled to the feedback controller, the reference signal generator, and the converter, the voltage regulator configured to operate the converter to generate the DC bus voltage level on the DC bus based on a difference between the DC Bus reference signal and the DC bus voltage level signal. 7. The UPS system of claim 1 , wherein the controller includes an interface configured to receive the output AC output voltage level selection from the user. 8. The UPS system of claim 7 , wherein the interface includes a manual switch. 9. The UPS system of claim 7 , wherein the interface is configured to receive a signal from an external system indicating the output AC output voltage level selection from the user. 10. A method for operating a UPS system, the method comprising: receiving, at an input of the UPS system, input AC power; receiving a first AC output voltage level selection from a user; converting the input AC power into DC power having a first DC voltage level based on the first AC output voltage level selection; providing the DC power to a DC bus; converting the DC power into AC power having a first AC voltage level based on the first AC output voltage level selection; and providing the AC power to an output of the UPS system. 11. The method of claim 10 , further comprising: receiving a second AC output voltage level selection from the user; adjusting the DC power to a second DC voltage level based on the second AC output voltage level selection; and adjusting the AC power to a second AC voltage level based on the second AC output voltage level selection. 12. The method of claim 11 , wherein adjusting the DC power to a second DC voltage level includes maintaining an amplitude modulation ratio at a substantially constant value. 13. The method of claim 11 , wherein converting the input AC power into DC power having a first DC voltage level includes generating a first DC reference signal based on the first DC voltage level. 14. The method of claim 13 , wherein converting the input AC power into DC power having a first DC voltage level includes monitoring a DC bus voltage level on the DC bus and generating a first DC bus voltage level signal. 15. The method of claim 14 , wherein converting the input AC power into DC power having a first DC voltage level includes converting the input AC power into the DC power having the first DC voltage level based on the difference between the first DC reference signal and the first DC bus voltage level signal. 16. The method of claim 15 , wherein adjusting the DC power to a second DC voltage level includes generating a second DC reference signal based on the second DC voltage level. 17. The method of claim 16 , wherein adjusting the DC power to a second DC voltage level includes monitoring a DC bus voltage level on the DC bus and generating a second DC bus voltage level signal. 18. The method of claim 17 , wherein adjusting the DC power to a second DC voltage level includes converting the input AC power into the DC power having the second DC voltage level based on the difference between the second DC reference signal and the second DC bus voltage level signal. 19. The method of claim 11 , further comprising converting backup DC power from a DC source into the DC power having one of the first DC voltage level and the second DC voltage level. 20. An Uninterruptible Power Supply (UPS) system, the UPS system comprising: an input configured to receive input AC power; an output configured to provide output AC power to a load; a converter coupled to the input and configured to convert the input AC power into DC power; a DC bus coupled to the converter and configured to receive the DC power; an inverter coupled to the DC bus and configured to convert the DC power from the DC bus into output AC power and provide the output AC Power to the output; and means for adjusting an AC voltage level of the output AC power while maintaining an amplitude modulation radio of the UPS system.