Back-emitting OLED device and method for homogenizing the luminance of a back-emitting OLED device

The invention claimed is: 1. An organic light-emitting diode device, comprising: a transparent substrate with a first main face comprising a stack comprising in this order, starting from said first main face: a lower electrode forming an anode, which is transparent, said anode having a sheet resistance R1, an organic light-emitting system above the anode, an upper electrode forming a cathode and arranged above the organic light-emitting system, said cathode having a sheet resistance R2, the ratio r=R2/R1 ranging from 0.01 to 2.5, the anode, the organic light-emitting system and the cathode defining an active common zone, a first anode electrical contact delimiting, alone or with optional one or more second anode electrical contacts, a contour of a first region of a surface of the anode, a first cathode electrical contact, which is: arranged above the active common zone, partially covering a region of the cathode above the first region, of a contact surface that is smaller than a surface area of the active common zone and than a surface area of the first region, offset from the first anode electrical contact and from the optional one or more second anode electrical contacts, at every point of the contact surface, and above the organic light-emitting system, away from the first main face, a reflector covering the active common zone, wherein, for each point B of the first anode electrical contact and of each optional second anode electrical contact, the point B being in a first edge of the first region, on defining a distance D between said point B and a point C of the contact surface which is closest to said point B, and on defining a distance L between said point B and a point X of an opposite edge of the first region from the first edge, passing through C the following criteria are defined: if 0.01≦r<0.1, then 30%<D/L<48%, if 0.1≦r<0.5, then 10%<D/L<45%, if 0.5≦r<1, then 10%<D/L<45%, if 1≦r<1.5, then 5%<D/L<35%, if 1.5≦r<2.5, then 5%<D/L<30%. 2. The organic light-emitting diode device as claimed in claim 1 , wherein the contact surface extends from a center of the first region to edges of the active common zone. 3. The organic light-emitting diode device as claimed in claim 1 , wherein the contact surface is a solid surface, or a grid-like surface, the surface optionally being star-like. 4. The organic light-emitting diode device as claimed in claim 1 , wherein: if 0.04≦r<0.1, then 40%<D/L<48%, if 0.1≦r<0.5, then 30%<D/L<45%, if 0.5≦r<1, then 20%≦D/L≦40%, if 1≦r<1.5, then 10%<D/L≦35%, if 1.5≦r<2.5, then 15%≦D/L≦25%. 5. The organic light-emitting diode device as claimed in claim 1 , comprising one or more resistive anode electrical contacts arranged in the first region and linked to the first anode electrical contact and/or to the optional one or more second anode electrical contacts, said one or more resistive anode electrical contacts having a larger resistance than a resistance of the first anode electrical contact and/or the optional one or more second anode electrical contacts, and wherein the ratio r ranging from 0.01 to 2.5 is replaced with a ratio r′=R2/R′1 ranging from 0.01 and 2.5 in which R′ 1 is the equivalent sheet resistance of the assembly of anode and one or more resistive anode electrical contacts in the first region. 6. The organic light-emitting diode device as claimed in claim 1 , wherein the first anode electrical contact extends and forms alone or with the optional one or more second anode electrical contacts a closed or quasi-closed contour. 7. The organic light-emitting diode device as claimed in claim 1 , wherein the first cathode electrical contact has a surface homothetic to the surface of the first region. 8. The organic light-emitting diode device as claimed in claim 5 , wherein the first region is a square or a rectangle, the first cathode electrical contact is cross-shaped, centered, cross according to diagonals of the first region, and the ratio r or r′ is chosen equal to 1.1±0.1 or wherein the first region is disk-shaped, the first cathode electrical contact centered with 1≦r or r′<1.5 and 20%<D/L≦30%. 9. The organic light-emitting diode device as claimed in claim 1 , wherein the first anode electrical contact is an extended contact, and at least two of the optional one or more second anode electrical contacts are of extended type and wherein Lp<0.25P, with Lp being the distance between each extended contact and P a perimeter of the first region. 10. The organic light-emitting diode device as claimed in claim 1 , wherein the first anode electrical contact is a point-like contact, and wherein the optional one or more second anode electrical contacts are point-like contacts and are distributed so as to delimit the first region, and wherein the distance between each point-like contact is less than half a maximum distance Lmax of the first region. 11. The organic light-emitting diode device as claimed in claim 1 , wherein the cathode is transparent or semi-reflecting, wherein the reflector comprises a reflecting covering element above the cathode on moving away from the first main face, the reflecting covering element being separated from the cathode by an electrical insulating element, and wherein the first cathode electrical contact, adjacent to the electrical insulating element, forms part of the reflector and is in contact or electrically coupled with the reflecting covering element. 12. The organic light-emitting diode device as claimed in claim 11 , wherein the first cathode electrical contact is based on the same material as the reflecting covering element, wherein the first cathode electrical contact and the reflecting covering element are formed by a continuous layer on the electrical insulating element and the cathode and the continuous layer is based on the same material as the cathode. 13. The organic light-emitting diode device as claimed in claim 12 , wherein the cathode comprises a layer based on aluminum and the first cathode electrical contact comprises a layer based on aluminum. 14. The organic light-emitting diode device as claimed in claim 1 , wherein the reflector comprises a Bragg mirror, adjacent to the first cathode electrical contact, and the first cathode electrical contact forms part of the reflector. 15. A method for homogenizing the luminance of a back-emitting organic light-emitting device with a transparent substrate with a first main face comprising a stack comprising in this order, starting from said first main face: a lower electrode forming an anode, which is transparent, anode of sheet resistance R1, an organic light-emitting system above the anode, an upper electrode forming a cathode, above the organic light-emitting system comprising an electroconducting layer, cathode of sheet resistance R2, the anode, the organic light-emitting system and the cathode defining an active common zone a first anode electrical contact, a first cathode electrical contact of contact surface less than a surface of the active common zone, the method comprising: adjusting a ratio r=R2/R1 ranging from 0.01 to 2.5, positioning the first cathode electrical contact above the active common zone, and selecting a size of the contact surface so as to obtain a luminance homogeneity of the active common zone greater than or equal to 5% to that of an organic light-emitting diode device differing through the choice of an aluminum cathode of 100 nm, arranging a reflector above the cathode. 16. The organic light-emitting diode device as claimed in claim 6 , wherein the first cathode electrical contact is substanti