Substrate provided with a multilayer coating having thermal properties, in particular for production of a heated glazing unit

The invention claimed is: 1. A coated substrate comprising a substrate coated with a thin-film multilayer comprising, in alternation, “n” metallic functional films, and “(n+1)” antireflection coatings where n is an integer≧3, each antireflection coating comprising at least one antireflection film, such that each functional film is located between two antireflection coatings; wherein the thin-film multilayer comprises at least two high-refractive-index antireflection film, each having a refractive index ≧2.15, such that the antireflection coating located under the first, starting from the substrate, functional film and the antireflection coating located on the last, starting from the substrate, functional film each comprise at least one high-refractive-index antireflection film and each antireflection coating located between two functional films does not comprise a high-refractive-index film having a refractive index ≧2.15; and wherein the thickness e x of each of a second functional film, and a third functional film starting from the substrate, is smaller than the thickness of the preceding functional film, in the direction of the substrate, and is such that: e x =αe x-1 , wherein: x is the position, starting from the substrate, of one of the second and third functional film with respect to the functional films; x−1 is the position, in the direction of the substrate, of one of the preceding functional films; α satisfies 0.5≦α<1; and the thickness of the first metallic functional film e 1 , starting from the substrate is such that 10 nm≦e 1 ≦18 nm; wherein said substrate is suitable for incorporation into a thermal insulation, a heated glazing, a solar protection glazing, display, photovoltaic panel or other electronic device, or wherein said substrate is suitable for coating with one or more functional films that act on solar radiation and/or infrared radiation. 2. The coated substrate of claim 1 , wherein the antireflection coating located under the first, starting from the substrate, functional film consists, in this order, starting from the substrate, of: one or more high-refractive-index antireflection films and then a medium-refractive-index wetting antireflection film having a refractive index of between 1.60 and 2.15, excluding these values, and comprising a crystalline oxide, optionally doped with at least one other element. 3. The coated substrate of claim 1 , wherein the antireflection coating located on the last, starting from the substrate, functional film consists essentially of one or more high-refractive-index antireflection films. 4. The coated substrate of claim 1 , wherein at least one high-refractive-index antireflection film comprises silicon zirconium nitride. 5. The coated substrate of claim 1 , wherein the value of a differs by at least 0.02 for all functional films of layer 2 or more of the multilayer to which the formula e x =αe x-1 is applied. 6. The coated substrate of claim 1 , wherein the value of a is different for all the functional films of layer 2 or more. 7. The coated substrate of claim 1 , wherein the total thickness of the metallic functional films is greater than 30 nm, or this total thickness lies between 35 and 50 nm for a thin-film multilayer comprising three functional films, or this total thickness lies between 40 and 60 nm for a thin-film multilayer comprising four functional films. 8. The coated substrate of claim 1 , wherein each of the antireflection coatings located between two functional films that do not comprise a high-refractive-index antireflection film comprise at least one antireflection film comprising silicon nitride, optionally doped with at least one other element. 9. The coated substrate of claim 1 , wherein the last film of each antireflection coating subjacent a functional film is a wetting antireflection film comprising a crystalline oxide, optionally doped with at least one other element. 10. A glazing unit, comprising the coated substrate of claim 1 , optionally associated with at least one other substrate, wherein the substrate bearing the thin-film multilayer is optionally bent or tempered, or both bent and tempered. 11. A heated transparent coating, a transparent electrode, a lighting device, a display device, or a photovoltaic panel comprising the coated substrate of claim 1 . 12. The coated substrate of claim 1 , wherein the metallic functional films comprise silver or a metal alloy comprising silver. 13. The coated substrate of claim 2 , wherein the crystalline oxide is zinc oxide optionally doped with aluminum. 14. The coated substrate of claim 1 , wherein α satisfies 0.55≦α≦0.95. 15. The coated substrate of claim 1 , wherein α satisfies 0.6≦α≦0.95. 16. The coated substrate of claim 7 , wherein the total thickness of the metallic thin film is between 30 and 60 nm, including these values. 17. The coated substrate of claim 8 , wherein the silicon nitride is doped with aluminum. 18. The coated substrate of claim 9 , wherein the crystalline oxide is zinc oxide, optionally doped with aluminum. 19. The glazing unit of claim 10 , which is a multiple glazing unit. 20. A laminated glazing unit comprising: the coated substrate of claim 1 which is optionally bent or tempered; an electrical connector configured to heated the laminated glazing unit, and optionally, a second substrate. 21. The coated substrate of claim 1 that is made of glass or another rigid mineral material and that is transparent. 22. The coated substrate of claim 1 that is suitable for incorporation into a thermal insulation. 23. The coated substrate of claim 1 that is suitable for incorporation into a glazing. 24. The coated substrate of claim 1 that is suitable for incorporation into a photovoltaic panel. 25. The coated substrate of claim 1 that is suitable for incorporation into a display or other electronic device.