Method for manufacturing electronic object comprising a body and a porous-membrane-comprising battery

The invention claimed is: 1. A process for manufacturing a smart card comprising a body and a metal-air battery integrated in the body, said battery comprising an electrolyte layer and an air-permeable porous protective membrane covering the electrolyte layer, said process comprising a step of forming two lateral air supply ducts extending from the protective membrane at two opposite lateral ends of the battery to an air source outside the smart card, wherein a second porous air or oxygen-permeable material, distinct from said air-permeable porous protective membrane, is contained in said ducts and completely closes said ducts along its path, at least in places along its path, said process further comprising a step of forming in said body a cavity opening into a surface of the body and a step of placing an electronic chip module in the cavity, said battery placed under the chip module, and arranging a conduit in a space at a bottom wall of the cavity, wherein said two lateral air supply ducts extend upward and perpendicular, with respect to a top of the smart card, along open vertical walls of said cavity, wherein said conduit extends parallel along the bottom wall of the cavity, with respect to a top of the smart card, and continues perpendicular up and around the battery and chip module to the air source, whereby said two lateral air supply ducts and said conduit provide said battery access to said air source for powering said smart card via electrochemical reaction. 2. Process according to claim 1 , wherein said electronic chip module comprises a porous support film permeable to air or permeable to oxygen and/or metallizations with perforations or recesses. 3. Process according to claim 1 , wherein said conduit extends through the chip module. 4. Process according claim 1 , wherein the conduit comprises a layer of porous or oxygen-permeable material extending parallel to one of the main surfaces of the body. 5. Process according to claim 1 , wherein the conduit comprises a layer of porous or oxygen-permeable material extending perpendicular to a major surface of the body. 6. Process according to claim 1 , wherein the duct is in the form of a cylinder, a ring, a plate, or capillaries for containing said second porous air or oxygen-permeable material. 7. Process according to claim 1 , wherein the porous or oxygen-permeable material comprises an end or zone placed against the membrane of the battery. 8. Process according to claim 1 , wherein the porous or oxygen-permeable material is selected from a waterproof and breathable fabric based on poly tetrafluoroethylene or polymer paper, a fabric having undergone a waterproofing treatment but remaining porous and permeable to air. 9. Process according to claim 1 , wherein the porous or oxygen-permeable material is selected from a mixture of glass fibre and poly tetrafluoroethylene, zeolite, a mixture of TiO2 nano fibres, elements consisting of Y203-stabilized ZrO 2 or CaO, porous silicon, dimethylsilicone or other silicone type layer. 10. A portable smart card comprising a body and a metal-air battery integrated in the body, said battery comprising an electrolyte layer and an air-permeable porous protective membrane covering the electrolyte layer; two lateral air supply ducts extending from said protective membrane at two opposite lateral ends of the battery to an air source outside the smart card, and an air-permeable porous material, distinct from said air-permeable porous protective membrane, contained in said duct and completely closing said ducts along its path, at least in places along its path a cavity opening into a surface of the body; an electronic chip module in the cavity, said battery under the chip module; and a conduit arranged in a space at a bottom wall of the cavity, wherein said two lateral air supply ducts extend upward and perpendicular, with respect to a top of the smart card, along open vertical walls of said cavity, wherein said conduit extends parallel along the bottom wall of the cavity with respect to a top of the smart card, and continues perpendicular up and around the battery and chip module to the air source, whereby said two lateral air supply ducts and said conduit provide said battery access to said air source for powering said smart card via electrochemical reaction. 11. Portable object according to claim 10 , wherein the porous or oxygen-permeable material is hydrophobic or waterproof. 12. Portable object according to claim 10 , wherein the porous or oxygen-permeable material is in the form of a layer extending substantially over the entire surface of smart card inside or on the surface.