Method of manufacturing an OLED device

The invention claimed is: 1. A method of manufacturing an OLED device comprising an OLED and an integrated negative overvoltage protection diode, which method comprises at least the steps of: depositing a first OLED electrode and a separate second OLED electrode contact on a carrier, which second OLED electrode contact incorporates a first overvoltage protection diode electrode; depositing an organic material layer stack as a single layer stack to simultaneously define an active region of the OLED and an active region of the overvoltage protection diode; depositing a second OLED electrode to extend over the active region of the OLED and the second OLED electrode contact, such that the first overvoltage protection diode electrode is electrically connected to the second OLED electrode through the second OLED contact; and depositing a second overvoltage protection diode electrode to extend over the active region of the overvoltage protection diode and the first OLED electrode, such that the second overvoltage protection diode electrode is electrically connected to the first OLED electrode, wherein the OLED and the overvoltage protection diode are connected in anti-parallel. 2. A method according to claim 1 , wherein the step of depositing the organic material layer stack is preceded by a step of depositing an insulating material layer to electrically isolate the first OLED electrode from the second OLED electrode contact. 3. A method according to claim 1 , wherein the polarity of the second OLED electrode is opposite to the polarity of the first overvoltage protection diode electrode. 4. A method according to claim 1 , wherein the second OLED electrode is the OLED cathode and the first overvoltage protection diode electrode is the overvoltage protection anode. 5. A method according to claim 1 , wherein the second overvoltage protection diode electrode and the second OLED electrode are formed by electrically separating these regions from a uniformly applied layer. 6. A method according to claim 1 , wherein the second OLED electrode contact comprises a plain rectangular shape, and wherein the overvoltage protection diode is arranged within that rectangular shape. 7. A method according to claim 1 , wherein the first OLED electrode and the second OLED electrode contact are patterned such that the first overvoltage protection diode electrode extends into the region defined by the first OLED electrode. 8. A method according to claim 1 , wherein the active area of the OLED is realised to emit light of a first colour, and the active area of the overvoltage protection diode is realised to emit light of a second colour. 9. An OLED device comprising an OLED and an integrated negative overvoltage protection diode, which OLED device comprises a first OLED electrode and a separate second OLED electrode contact on a carrier, which second OLED electrode contact incorporates a first overvoltage protection diode electrode; an organic material layer stack deposited as a single layer stack applied to simultaneously define an active region of the OLED and an active region of the overvoltage protection diode; a second OLED electrode extending over the active region of the OLED and the second OLED electrode contact, such that the first overvoltage protection diode electrode is electrically connected to the second OLED electrode through the second OLED contact; and a second overvoltage protection diode electrode extending over the active region of the overvoltage protection diode and the first OLED electrode ( 100 ), such that the second overvoltage protection diode electrode is electrically connected to the first OLED electrode ( 100 ), wherein the OLED and the overvoltage protection diode are connected in anti-parallel. 10. The OLED device according to claim 9 , wherein the first OLED electrode and the second OLED electrode contact comprise a layer of a transparent conductive oxide. 11. The OLED device according to claim 9 , wherein the integrated overvoltage protection diode is dimensioned to ensure protection against an overvoltage that exceeds the nominal voltage of the OLED by a factor of at least two, more preferably by a factor of at least three, most preferably by factor of at least four. 12. The OLED device according to claim 9 , wherein the total area required by the integrated overvoltage protection diode is at most 5% of the OLED active are, more preferably at most 3.33% of the OLED active area, most preferably at most 2.5% of the OLED active area. 13. The OLED device according to claim 9 , comprising a housing frame extending about the light-emitting area of the OLED, and wherein the overvoltage protection diode is concealed by the housing frame. 14. A lighting panel comprising the OLED device according to claim 9 , wherein the OLED lighting panel comprises a plurality of independent lighting areas connected in parallel and with at least one of the OLED device in one of the independent lighting areas.