Patent ID: 9224931
Filing Date: 2015-12-29
Classification: H01L

Abstract:
1. A method of producing an optoelectronic semiconductor component comprising: a) providing a carrier having a top side, an underside situated opposite the top side, and at least one connection area arranged at the top side; b) applying at least one optoelectronic component to the top side, wherein the optoelectronic component has at least one contact area facing away from the carrier; c) applying an electrically insulating material to the contact area and the connection area, wherein the electrically insulating material is free of foreign particles of a filler; d) applying the electrically insulating material to a radiation passage area of the optoelectronic component at least in places, and the electrically insulating material is radiation-transmissive; e) applying at least one conversion layer to an outer area of the electrically insulating material facing away from the optoelectronic component; f) applying an electrically insulating layer to exposed places of the electrically insulating material of the optoelectronic component and of the carrier, wherein the electrically insulating layer comprises foreign particles of the filler with a predefinable concentration; g) removing the electrically insulating layer in a region above the contact area and/or the connection area to thereby produce openings; h) removing at least the electrically insulating material in a region above the contact area and the connection area, thereby producing at least two openings in the electrically insulating material; and i) arranging electrically conductive material on the electrically insulating layer and at least in places in the openings, wherein the electrically conductive material electrically conductively connects the contact area to the connection area, wherein the electrically insulating layer is radiation-reflective or radiation-absorbent, the electrically insulating layer is applied to exposed places of the optoelectronic component; of the electrically insulating material and of the conversion layer, and an outer area of the conversion layer facing away from the optoelectronic component remains free of the electrically insulating layer.