Fluidic components suitable for fuel cell systems including pressure regulators and valves

The invention claimed is: 1. A pressure regulator comprising: a movable shuttle disposed between a high pressure diaphragm and a low pressure diaphragm; a shuttle housing to house the shuttle; a conduit connecting an inlet to an outlet, wherein the high pressure diaphragm is located proximate to the inlet and the low pressure diaphragm is located proximate to the outlet; and, a temperature sensitive component comprising a shape memory alloy material disposed within the pressure regulator, in thermal communication with a fuel cell or electronic device so that when the temperature of the pressure regulator reaches a predetermined level, the temperature sensitive component changes its shape to render the pressure regulator inoperative; wherein the shape memory alloy material comprises a wire having a relatively thin shape at temperatures below the predetermined temperature level and a relatively thicker shape at temperatures greater than or equal to the predetermined temperature level. 2. The pressure regulator of claim 1 wherein the temperature sensitive component is disposed in an area between the low pressure diaphragm and the outlet and renders the pressure regulator inoperative by substantially sealing the outlet. 3. The pressure regulator of claim 1 wherein the temperature sensitive component is disposed in an area between the high pressure diaphragm and the inlet and renders the pressure regulator inoperative by substantially sealing the inlet. 4. The pressure regulator of claim 1 wherein the temperature sensitive component is disposed in an area between at least one of the low pressure diaphragm, the high pressure diaphragm, the outlet and the inlet and renders the pressure regulator inoperative by substantially sealing at least one of the inlet and the outlet. 5. The pressure regulator of claim 1 wherein the temperature sensitive component is disposed between the movable shuttle and the shuttle housing and renders the pressure regulator inoperative by substantially arresting the movement of the shuttle. 6. The pressure regulator of claim 1 wherein the predetermined temperature is a temperature which triggers a device such as a fuel cell to shut down. 7. The pressure regulator of claim 1 wherein the predetermined temperature is a temperature which triggers a device such as an electronic device to shut down. 8. A method of operating a pressure regulator disposed between a hydrogen supply and a fuel cell system, the method comprising: within the pressure regulator providing a movable shuttle in a shuttle housing and disposed between a high pressure diaphragm and a low pressure diaphragm wherein the high pressure diaphragm is located proximate to the inlet and the low pressure diaphragm is located proximate to the outlet; providing a fluid conduit between the inlet and the outlet; controlling the pressure at the outlet by controlling the movement of the shuttle between the high pressure diaphragm and the low pressure diaphragm; and, disrupting the fluid connection between the inlet and the outlet using a temperature sensitive component comprising a shape memory alloy material disposed in the pressure regulator, wherein the disrupting step comprises: fluidly disconnecting the inlet and the outlet by expansion of the temperature sensitive component when the temperature in the pressure regulator is greater than or equals a predetermined fuel cell temperature, and, fluidly connecting the inlet and the outlet by contraction of the temperature sensitive component when the temperature in the pressure regulator falls below the predetermined fuel cell temperature; wherein the shape memory alloy material comprises a wire having a relatively thin shape at temperatures below the predetermined fuel cell temperature and a relatively thicker shape at temperatures greater than or equal to the predetermined fuel cell temperature. 9. The method of claim 8 wherein the disrupting step is effected by disposing the temperature sensitive component in an area between the low pressure diaphragm and the outlet, and substantially sealing the outlet by the expanding temperature sensitive component when the temperature in the regulator is greater than or equals a predetermined fuel cell temperature. 10. The method of claim 8 wherein the disrupting step is effected by disposing the temperature sensitive component in an area between the movable shuttle and the shuttle housing, and substantially arresting the movement of the shuttle by the expanding temperature sensitive component when the temperature in the regulator is greater than or equals a predetermined fuel cell temperature. 11. The method of claim 8 wherein the regulator is in thermal communication with a fuel cell or electronic device. 12. The method of claim 11 wherein the temperature sensitive component is disposed in an area between at least one of the low pressure diaphragm, the high pressure diaphragm, the outlet and the inlet and renders the pressure regulator inoperative by substantially sealing at least one of the inlet and the outlet. 13. A pressure regulator within a fuel cell or electronic device comprising: a movable shuttle disposed between a high pressure diaphragm and a low pressure diaphragm; a shuttle housing to house the shuttle; a conduit connecting an inlet to an outlet, wherein the high pressure diaphragm is located proximate to the inlet and the low pressure diaphragm is located proximate to the outlet; and, a temperature sensitive component comprising a shape memory alloy material disposed within the pressure regulator, so that when the temperature of the pressure regulator reaches a predetermined level, the temperature sensitive component changes its shape to render the pressure regulator inoperative; wherein the shape memory alloy material comprises a wire having a relatively thin shape at temperatures below the predetermined temperature level and a relatively thicker shape at temperatures greater than or equal to the predetermined temperature level.