Fuel cell based power generator and fuel cartridge

The invention claimed is: 1. A power generator comprising: a power generator cavity adapted to receive a fuel cartridge, the fuel cartridge including a water vapor responsive hydrogen producing fuel, the power generator cavity having an upper surface, a lower surface opposite the upper surface, a first side joining the upper surface and the lower surface, and an open second side opposite the first side, the upper surface including perforations adapted to allow passage of water vapor; a protrusion disposed within the power generator cavity to engage a check valve of the fuel cartridge; a fuel cell disposed along the cartridge upper surface to convert hydrogen and oxygen to electricity and to generate water vapor; a case channel disposed along the lower surface of the power generator cavity, the case channel arranged to transport hydrogen along a lower surface of the power generator cavity to a first side of the power generator cavity; a hydrogen transport channel disposed along the first side and the upper surface of the power generator cavity to transport hydrogen from the case channel to the fuel cell and to transport water vapor to the power generator cavity; a first hydrogen impermeable water vapor permeable membrane disposed between the water vapor responsive hydrogen producing fuel and the perforations in the case to direct passage of water vapor from ambient to the power generator cavity; and a second hydrogen impermeable water vapor permeable membrane disposed along a lower surface of the hydrogen transport channel and along an upper surface of the power generator cavity to direct water vapor generated by the fuel cell to the power generator cavity. 2. The power generator of claim 1 further comprising: a selective gas impermeable membrane positioned between the fuel cell and the power generator cavity; and an exhaust valve positioned between the fuel cell and the selectively gas impermeable membrane to controllably exhaust gas. 3. The power generator of claim 2 further comprising: a sensor; and a controller coupled to the sensor and to the exhaust valve to control the exhaust valve in response to signals from the sensor. 4. The power generator of claim 2 wherein the selective gas impermeable membrane is impermeable to H2, N2, and O2. 5. A method comprising: removing a tear-away gas impermeable foil from a hydrogen producing fuel cartridge to expose a water vapor responsive hydrogen producing fuel within the hydrogen producing fuel cartridge to a water vapor permeable, gas impermeable membrane separating the hydrogen producing fuel from ambient; inserting the hydrogen producing fuel cartridge into a power generator cartridge cavity, the power generator cartridge cavity having an upper surface, a lower surface opposite the upper surface, a first side joining the upper surface and the lower surface, and an open second side opposite the first side, the upper surface including perforations adapted to allow passage of water vapor, the power generator cartridge cavity having a first hydrogen impermeable water vapor permeable membrane disposed between the water vapor responsive hydrogen producing fuel and the perforations in the case to direct passage of water vapor from ambient to the power generator cartridge cavity; and opening a valve in the fuel cartridge when inserting the cartridge into the cavity to form a passage for hydrogen from the fuel cartridge to flow through a case channel along a lower surface of the cavity and through a hydrogen transport channel to a fuel cell in the power generator, wherein: the case channel is disposed along the lower surface of the power generator cartridge cavity, the case channel arranged to transport hydrogen along a lower surface of the power generator cartridge cavity to a first side of the power generator cartridge cavity; a hydrogen transport channel is disposed along the first side and the upper surface of the power generator cartridge cavity to transport hydrogen from the case channel to the fuel cell and to transport water vapor to the power generator cartridge cavity, the hydrogen transport channel including a second hydrogen impermeable water vapor permeable membrane disposed along a lower surface of the hydrogen transport channel and along an upper surface of the power generator cartridge cavity to direct water vapor generated by the fuel cell to the power generator cartridge cavity. 6. The method of claim 5 further comprising forming a seal between the passage and the inserted fuel cartridge. 7. The method of claim 5 and further comprising: sensing a parameter in the power generator; and controlling an exhaust valve coupled to the passage responsive to the sensed parameter. 8. The method of claim 7 wherein the parameter comprises temperature. 9. The method of claim 7 wherein the parameter comprises pressure. 10. The method of claim 5 and further comprising providing water vapor from the fuel cell to the fuel cartridge via a water vapor permeable gas impermeable membrane disposed between the fuel cell and the fuel cartridge.