METHOD FOR PRODUCING AN OPTOELECTRONIC ASSEMBLY, AND OPTOELECTRONIC ASSEMBLY

摘要

A method for producing an optoelectronic assembly having a first and at least a second optoelectronic components may include forming a first electrically conductive layer on a substrate, forming a second electrically conductive layer on the first electrically conductive layer, applying an insulator material on the second electrically conductive layer and the substrate, such that at least a first insulator region, which insulates a first component region from a second component region, a second insulator region, which insulates the second component region from a first contact region, a third insulator region arranged on a side of the first component region, and a fourth insulator region arranged between the first and second insulator regions on a side of the second component region are formed by the insulator material, forming a first and second optically functional layers in the first and second component regions, respectively, and applying an electrically conductive electrode layer.

主权项

1. A method for producing an optoelectronic assembly which comprises a first optoelectronic component and at least a second optoelectronic component, which is connected in series with the first optoelectronic component, the method comprising:
forming a first electrically conductive layer on a substrate, forming a second electrically conductive layer on the first electrically conductive layer, applying an insulator material in a structured way onto the second electrically conductive layer and the substrate, in such a way that at least a first insulator region, which electrically insulates a first component region for arrangement of the first optoelectronic component from a second component region for arrangement of the second optoelectronic component, a second insulator region, which electrically insulates the second component region from a first contact region, a third insulator region, which is arranged on a side of the first component region facing away from the first insulator region, and a fourth insulator region, which is arranged between the first and second insulator regions on a side of the second component region facing away from the second insulator region, are formed by the insulator material, wherein a third contact region is formed between the first insulator region and the fourth insulator region, forming a first optically functional layer in the first component region and a second optically functional layer is formed in the second component region, and applying an electrically conductive electrode layer in a structured way onto the optically functional layers and the first and third contact regions, in such a way that the first optically functional layer is electrically coupled to the third contact region and the second optically functional layer is electrically coupled to the first contact region.