UPS with multiple independent static switches

That which is claimed: 1. An uninterruptible power supply (UPS) comprising: a frame; first, second and third AC inputs supported by the frame and separately and independently coupleable to different power sources; first, second and third AC outputs supported by the frame and separately coupleable to different loads; a power conversion circuit supported by the frame and having an output coupled to the first AC output, the power conversion circuit coupled to the first AC input and configured to provide power to the first AC output; a first static switch supported by the frame and configured to selectively couple the second AC input to the second AC output; a second static switch supported by the frame and configured to selectively couple the third AC input to the third AC output; and a control circuit supported by the frame and configured to cooperatively control the power conversion circuit and the first and second static switches. 2. The UPS of claim 1 , wherein the power conversion circuit comprises: a rectifier having an input coupled to the first AC input; a DC link coupled to an output of the rectifier; and an inverter having an input coupled to the DC link and an output coupled to the first AC output. 3. The UPS of claim 2 , wherein the control circuit is configured to concurrently close the first static switch and open the second static switch to support an increased efficiency mode of operation in which the power conversion circuit is bypassed. 4. The UPS of claim 1 , wherein the frame comprises an enclosure containing the power conversion circuit and the first and second static switches. 5. A system comprising: a plurality of UPSs, each of the UPSs comprising; a frame; first, second and third AC inputs supported by the frame and separately and independently coupleable to different power sources; first, second and third AC outputs supported by the frame and separately coupleable to different loads; a power conversion circuit supported by the frame and having an output coupled to the first AC output; a first static switch supported by the frame and configured to selectively couple the second AC input to the second AC output; a second static switch supported by the frame and configured to selectively couple the third AC input to the third AC output; and a control circuit supported by the frame and configured to cooperatively control the power conversion circuit and the first and second static switches; and first and second AC power sources coupled to respective ones of the first and second static switches of the plurality of UPSs. 6. The system of claim 5 , wherein the plurality of UPSs comprises a plurality of first UPSs and wherein the second AC power source comprises at least one second UPS. 7. The system of claim 5 , wherein respective ones of the plurality of UPSs are coupled to respective loads. 8. The system of claim 5 , wherein the power conversion circuit comprises: a rectifier having an input coupled to the first AC input; a DC link coupled to an output of the rectifier; and an inverter having an input coupled to the DC link and an output coupled to the first AC output. 9. The system of claim 8 , wherein the control circuit is configured to concurrently close the first static switch and open the second static switch to support an increased efficiency mode of operation in which the inverter and the rectifier are bypassed. 10. The system of claim 5 , wherein the frame comprises an enclosure containing the power conversion circuit and the first and second static switches. 11. A system comprising: a UPS comprising; a frame; first, second and third AC inputs supported by the frame and separately and independently coupleable to different power sources; first, second and third AC outputs supported by the frame and separately coupleable to different loads; a power conversion circuit supported by the frame and having an output coupled to the first AC output; a first static switch supported by the frame and configured to selectively couple the second AC input to the second AC output; a second static switch supported by the frame and configured to selectively couple the third AC input to the third AC output; and a control circuit supported by the frame and configured to cooperatively control the power conversion circuit and the first and second static switches; and first and second loads coupled to respective ones of the first and second static switches. 12. The system of claim 11 : wherein the first static switch is coupled between an AC power source and the first load; and wherein the second static switch is coupled between the first static switch and the second load. 13. The system of claim 11 : wherein the first static switch is coupled between an AC power source and the first load; and wherein the second static switch is coupled between the AC power source and the second load. 14. The system of claim 11 , wherein the power conversion circuit comprises: a rectifier having an input coupled to the first AC input; a DC link coupled to an output of the rectifier; and an inverter having an input coupled to the DC link and an output coupled to the first AC output. 15. The system of claim 11 , wherein the frame comprises an enclosure containing the power conversion circuit and the first and second static switches.