Apparatus and method for high efficiency operation of fuel cell systems

What is claimed is: 1. A drive circuit comprising: a DC bus; a voltage converter assembly coupled to the DC bus; a fuel cell coupled to the voltage converter assembly; and a controller programmed to: operate the fuel cell to deliver a power output to the voltage converter assembly during a first mode of operation; and operate the voltage converter assembly to permit charging the fuel cell during a second mode of operation, wherein the fuel cell comprises a regenerative fuel cell. 2. The drive circuit of claim 1 further comprising an energy storage device coupled to the DC bus via the voltage converter assembly, wherein the controller is further programmed to control the energy storage device to deliver a supplemental power output to the voltage converter assembly. 3. The drive circuit of claim 2 wherein the energy storage device comprises one of a battery, an ultracapacitor, and a flywheel. 4. The drive circuit of claim 1 wherein the voltage converter assembly comprises at least one bi-directional buck/boost converter. 5. A method of operating a fuel cell propulsion system comprising: causing a fuel cell to deliver a first output to a voltage converter assembly during a first mode of operation; causing the voltage converter assembly to permit charging of the fuel cell during a second mode of operation; and causing the voltage converter assembly to boost the first output and supply the boosted output to a DC link, wherein the fuel cell comprises a regenerative fuel cell. 6. The method of claim 5 further comprising causing an energy storage device to deliver a second output to the voltage converter assembly during the first mode of operation. 7. A fuel cell propulsion system comprising: a motor; a DC bus coupled to the motor via an inverter; a DC-to-DC converter assembly coupled to the DC bus; a fuel cell arrangement coupled to the DC bus via the DC-to-DC converter assembly; and a controller programmed to: operate the fuel cell arrangement to deliver a first power output to the DC-to-DC converter assembly during a high-power-demand operating mode; operate the fuel cell arrangement to deliver a second power output to the DC-to-DC converter assembly during a low-power-demand operating mode; and operate the DC-to-DC converter assembly to permit charging the fuel cell arrangement during a regenerative mode of operation, wherein the fuel cell comprises a regenerative fuel cell. 8. The fuel cell propulsion system of claim 7 further comprising an energy storage unit coupled to the DC-to-DC converter assembly, wherein the controller is further programmed to operate the energy storage unit to supply a power output equal to a difference between a requested operating power of the motor and a power output of the fuel cell arrangement.