Method for manufacturing photovoltaic cells with multiple junctions and multiple electrodes

What is claimed is: 1. A photovoltaic device comprising: an assembly of n stacked photovoltaic cells, n being 2 or more, the assembly comprising: a front photovoltaic cell 1, at least one intermediate photovoltaic cell (1<i<n), if n is strictly greater than 2, a back photovoltaic cell n, and a lamination interlayer placed between two photovoltaic cells, each photovoltaic cell comprising: two current output terminals, at least one photovoltaic junction, current-collecting buses, and connecting strips that extend from the current-collecting buses to the current output terminals, all the output terminals for current output being placed on the same face of the photovoltaic device, wherein each intermediate photovoltaic cell comprising 2(i−1) apertures for passing extension pieces coming from the photovoltaic cells 1 to (i−1) and optionally two apertures for passing current output terminals from the photovoltaic cell i, the back photovoltaic cell n comprising 2(n−1) apertures for passing extension pieces coming from the photovoltaic cells 1 to (n−1) and optionally two apertures for passing current output terminals from the photovoltaic cell n. 2. The device as claimed in claim 1 , in which the device is parallelepiped shaped and the current output terminals are placed on the lower or upper face of the parallelepiped. 3. The device as claimed in claim 2 , in which the current output terminals are aligned, preferably near the side face of the device. 4. The device as claimed in claim 1 , in which the current output terminals are wires. 5. The device as claimed in claim 1 , in which the current output terminals are contacts at the ends of the connecting strips. 6. The device as claimed in claim 1 , in which the back photovoltaic cell comprises a film of a light-reflecting material. 7. The device as claimed in claim 6 , as a roof component, a roof for a building, or a non-transparent wall cladding for a building. 8. The device as claimed in claim 1 , in which the back photovoltaic cell does not comprise a film of a light-reflecting material. 9. The device as claimed in claim 8 , as a window component for a building. 10. The device as claimed in claim 1 , in which the photovoltaic junction material is chosen from the group comprising: microcrystalline silicon; polymorphous silicon; amorphous silicon; cadmium telluride CdTe associated with a cadmium sulfide CdS buffer layer; the chalcopyrites CuIn1-xGax(Se, S)2, where x lies between 0 and 1, associated with a cadmium sulfide CdS or indium sulfide In2S3 buffer layer; hydrogenated, amorphous alloys of silicon and germanium SixGe1-x; and organic materials based on poly(3-hexylthiophene) and [6,6]-phenyl-C61-butyric acid methyl; and mixtures of the above. 11. The device as claimed in claim 1 in which two electrodes consisting of a transparent conductive oxide (TCO) are present on each face of the junction. 12. The device as claimed in claim 1 , in which the current output terminals are gathered together in a junction box forming a first group consisting of positive current output terminals and a second group consisting of negative current output terminals. 13. The device as claimed in claim 1 , in which the current output terminals are grouped in pairs, with each pair comprising a positive electrode and a negative electrode, each pair being placed in a junction box or all the pairs being placed in a single junction box. 14. The photovoltaic array comprising: a device as claimed in claim 13 , a plurality of junction boxes. 15. A method for manufacturing a photovoltaic device as claimed in claim 1 , comprising: laminating stacked photovoltaic cells and lamination interlayers. 16. The method as claimed in claim 15 , comprising: stacking: the front photovoltaic cell 1, the apertured lamination interlayer, the apertures facing the current output terminals of the front photovoltaic cell 1, on which the lamination interlayer is deposited, at least one intermediate photovoltaic cell i, each intermediate photovoltaic cell i comprising 2(i−1) apertures for passing extension pieces coming from the photovoltaic cells 1 to (i−1) and optionally two apertures for passing current output terminals from the photovoltaic cell i; the apertured lamination interlayer, the apertures facing the current output terminals of the photovoltaic cell i, on which the lamination interlayer is deposited, and the back photovoltaic cell n comprising 2(n−1) apertures for passing extension pieces coming from the photovoltaic cells 1 to (n−1) and optionally two apertures for passing current output terminals from the photovoltaic cell n to form a stack; the method further comprising: passing extension pieces and current output terminals through the apertures, and laminating the stack, the lamination possibly being obtained by sequential operations after each cell or each interlayer has been deposited, or possibly being obtained in a single step after the cells and the interlayers have been assembled. 17. A photovoltaic array comprising: an array of devices, each of the devices comprising: an assembly of n stacked photovoltaic cells, n being 2 or more, the assembly comprising: a front photovoltaic cell 1; at least one intermediate photovoltaic cell (1<i<n) if n is strictly greater than 2; and a back photovoltaic cell n, each intermediate photovoltaic cell i comprising 2(i−1) apertures for passing extension pieces coming from the photovoltaic cells 1 to (i−1) and optionally two apertures for passing current output terminals from the photovoltaic cell i, the back photovoltaic cell n comprising 2(n−1) apertures for passing extension pieces coming from the photovoltaic cells 1 to (n−1) and optionally two apertures for passing current output terminals from the photovoltaic cell n, a lamination interlayer placed between two photovoltaic cells, each photovoltaic cell comprising: two current output terminals, at least one photovoltaic junction, current-collecting buses, and connecting strips that extend from the current-collecting buses to the current output terminals, all the output terminals for current output being placed on the same face of the photovoltaic device; and at least one junction box adapted to receive the current output terminals. 18. The photovoltaic array as claimed in claim 17 , comprising a single junction box.