Hydrogen producing fuel cartridge and methods for producing hydrogen

The invention claimed is: 1. A fuel cartridge ( 1 ) comprising: a frame ( 6 ) and folded PCB ( 5 ) forming a box sealed together forming a substantially hydrogen impermeable enclosure; a plurality of fuel regions ( 16 A-N) affixed to inner wall ( 11 ) of the PCB are one or more switching thermal control mechanisms ( 19 A and 19 B); electrically connected to said switching thermal control mechanisms are resistance heater elements ( 17 ) ; fuel ( 100 ) within each of the plurality fuel regions; a hydrogen output ( 15 ) fluidly communicating from inside the box to outside; and, a power connection ( 14 ) electrically connected to said thermal control mechanisms communicating from outside the box to inside the box. 2. The fuel cartridge of claim 1 , wherein said fuel is comprised of at least one of sodium borohydrate, alane or ammonia borane. 3. The fuel cartridge of claim 1 wherein inert materials such as alumina or other ceramics are added to the fuel to improve thermal conductivity. 4. The fuel cartridge of claim 1 , further comprising one or more bulkheads (DV) to separate fuel regions. 5. The fuel cartridge of claim 1 , further comprising one or more switching mechanisms. 6. The fuel cartridge of claim 1 , further comprising malleable regions ( 12 ) of the PCB whereby the PCB may be folded. 7. The fuel cartridge of claim 1 , wherein the sealing is at least one adhesive bond, membrane, cover, epoxy, coating, wrapping, sonic weld, weld, high temperature silicone and will withstand the operating pressures to provide substantially gas tight containment of fuel. 8. The fuel cartridge of claim 1 , wherein the heating elements are printed circuits ( 203 ) that act as heaters. 9. A hydrogen producing fuel cartridge ( 1 ) comprising: a PCB ( 30 ) with affixed heater elements ( 50 ) affixed to thermal control and switching mechanisms ( 40 ); an enclosure ( 80 ) sealed to the top ( 31 ) of the PCB together forming a substantially hydrogen impermeable enclosure; within the enclosure a matrix ( 60 ) of fuel compartment ( 62 A-N); within the matrix fuel ( 100 ); a communications input output ( 70 ) extended from the PCB bottom ( 32 ) whereby at least one of electrical power, analog and digital information may be provided via conductive pathways ( 75 ) to thermal control and switching mechanism and resistance heater elements; one or more hydrogen outputs ( 85 / 86 ) through the enclosure; and, one or more manifolds ( 88 ) to collect the hydrogen produced from the fuel 100 inside the enclosure and provide it to said hydrogen output. 10. The fuel cartridge of claim 9 , wherein said fuel is comprised of at least one of sodium borohydrate, alane or ammonia borane. 11. The fuel cartridge of claim 9 , further comprising at least one bulkhead ( 65 ) separating fuel compartments. 12. The fuel cartridge of claim 9 , wherein the fuel compartments are thermally insulated from each other. 13. The fuel cartridge of claim 9 , wherein the fuel compartments are polygonal. 14. The fuel cartridge of claim 9 , wherein the switching mechanism is one of a magnetic read switch, percussion switch, over voltage, thermal lag, heater bank, altered resistive, reflective impedance, microprocessors, and thermal activate switch. 15. The fuel cartridge of claim 1 wherein the switching is one of a magnetic read switch, percussion switch, over voltage, thermal lag, heater bank, altered resistive, reflective impedance, microprocessors, and thermal activate switch.