Apparatus and method for high efficiency operation of fuel cell systems

What is claimed: 1 . A fuel cell system for a vehicle comprising: a traction motor; a voltage converter assembly coupled to the traction motor, the voltage converter assembly comprising a plurality of boost converters and a buck/boost converter; a fuel cell assembly coupled to the plurality of boost converters; an energy storage device coupled to the buck/boost converter; an interface coupleable to the energy storage device, the interface configured to allow for charging the energy storage device from an external charging source; and a control system configured to selectively: operate the plurality of boost converters to deliver a first power output to the traction motor; operate the plurality of boost converters to deliver a second power output to the traction motor; and operate the buck/boost converter to deliver a third power output to the traction motor. 2 . The fuel cell system of claim 1 , wherein the energy storage device comprises one of a battery, an ultracapacitor, and a flywheel. 3 . The fuel cell system of claim 1 , wherein the fuel cell assembly comprises a regenerative fuel cell. 4 . The fuel cell system of claim 1 , wherein the fuel cell assembly comprises a plurality of fuel cells. 5 . The fuel cell system of claim 1 , wherein the voltage converter assembly further comprises an inverter coupled to the traction motor. 6 . The fuel cell system of claim 5 , wherein the traction motor is an AC motor. 7 . The fuel cell system of claim 1 , further comprising an auxiliary load coupled to the energy storage device. 8 . The fuel cell system of claim 1 , further comprising an auxiliary load coupled to the fuel cell assembly. 9 . The fuel cell propulsion system of claim 1 , wherein the control system is further configured to operate the voltage converter assembly to charge the energy storage device from the fuel cell assembly. 10 . The fuel cell propulsion system of claim 1 , wherein the control system is further configured to operate the voltage converter assembly to charge the energy storage device via regenerative braking. 11 . A fuel cell vehicle comprising: an AC traction motor; an inverter coupled to the AC traction motor; a plurality of boost converters coupled to the inverter; a buck/boost converter coupled to the inverter; a fuel cell assembly coupled to the plurality of boost converters; an energy storage device coupled to the buck/boost converter; and a control system configured to selectively: operate the plurality of boost converters to deliver a first power output to the inverter; operate the plurality of boost converters to deliver a second power output to the inverter; operate the buck/boost converter to deliver a third power output to the inverter; and operate the buck/boost converter to deliver a fourth power output to the energy storage device. 12 . The fuel cell vehicle of claim 11 , wherein the energy storage device comprises one of a battery, an ultracapacitor, and a flywheel. 13 . The fuel cell vehicle of claim 11 , wherein the fuel cell assembly comprises a regenerative fuel cell. 14 . The fuel cell vehicle of claim 11 , wherein the fuel cell assembly comprises a plurality of fuel cells. 15 . The fuel cell vehicle of claim 11 , further comprising an auxiliary load coupled to the energy storage device. 16 . The fuel cell vehicle of claim 11 , further comprising an auxiliary load coupled to the fuel cell assembly. 17 . The fuel cell vehicle of claim 11 , wherein the control system is further configured to operate the plurality of boost converters to deliver a fifth power output to the buck/boost converter. 18 . The fuel cell vehicle of claim 17 , wherein the fourth power output delivered to the energy storage device is derived from the fifth power output. 19 . The fuel cell vehicle of claim 11 , wherein the fourth power output delivered to the energy storage device is derived from the traction motor operating in a regenerative braking mode.