Recharger for hydrogen fuel cells

The invention claimed is: 1. A method comprising: receiving a plurality of individual removable hydrogen-rechargeable fuel cells within a manifold within a fuel cell recharger, the fuel cell recharger manifold configured to receive a plurality of the plurality of fuel cells, each of the plurality of fuel cells including a hydrogen fuel cell and a hydrogen storage chamber; opening a plurality of independently actuated valves at multiple output ports of the manifold of the fuel cell recharger, each of the plurality of independently actuated valves independently controlled by control electronics, each of the plurality of independently actuated valves corresponding to each of the plurality of the plurality of fuel cells; evacuating the plurality of fuel cells and the manifold to which the plurality of fuel cells are coupled; generating hydrogen from a hydrogen generator coupled to the manifold; recharging the plurality of fuel cells with the generated hydrogen; measuring pressure in the manifold while recharging; and stopping the recharging when the pressure reaches a first predetermined threshold. 2. The method of claim 1 , further including: waiting a predetermined amount of time following stopping the recharging; measuring pressure in the manifold following the predetermined amount of time; and recharging the plurality of fuel cells if the pressure is below a second predetermined threshold. 3. The method of claim 2 , wherein the second predetermined threshold is lower than the first predetermined threshold, and wherein the method following evacuation of the plurality of fuel cells and manifold is repeated until the pressure measured after the predetermined amount of time is greater than the second threshold. 4. The method of claim 1 , further including measuring pressure in the manifold while evacuating to determine whether at least one of the plurality of fuel cells have failed. 5. The method of claim 1 , further including individually vacuum testing each of the plurality of fuel cells, the vacuum testing of each of the plurality of fuel cells including: closing a plurality of independently actuated output valves on the manifold to which the plurality of fuel cells are coupled; opening a selected independently actuated output valve on the manifold to which a selected one of the plurality of fuel cells is coupled; evacuating the manifold and the selected one of the plurality of fuel cells; measuring pressure in the manifold and in the selected one of the plurality of fuel cells while evacuating to determine whether the selected one of the plurality of fuel cells has failed. 6. The method of claim 1 , further including measuring pressure in the manifold following stopping the recharging to determine whether at least one of the plurality of fuel cells has failed. 7. The method of claim 1 , further including individually pressure testing each of the plurality of fuel cells, the pressure testing of each of the plurality of fuel cells including: closing a plurality of independently actuated output valves on the manifold to which the plurality of fuel cells are coupled; opening a selected independently actuated output valve on the manifold to which a selected one of the plurality of fuel cells is coupled; measuring pressure in the manifold and in the selected one of the plurality of fuel cells following stopping the recharging to determine whether the selected one of the plurality of fuel cells has failed.