IHP GmbH - Innovations for High Performance Microelectronics Patent applications |
Patent application number | Title | Published |
20140027715 | P-TYPE GRAPHENE BASE TRANSISTOR - A hot hole transistor with a graphene base comprises on a substrate an emitter layer, a collector layer, and a base layer that comprises a graphene layer, wherein an emitter barrier layer is arranged between the base layer and the emitter layer, and a collector barrier layer is arranged between the base and the collector layers and adjacent to the graphene layer. | 01-30-2014 |
20130223464 | LIGHT-EMITTING SEMICONDUCTOR STRUCTURE AND OPTOELECTRONIC COMPONENT THEREFROM - A light emitting semiconductor device according the invention includes an SOI substrate, a collector and an injector. The SOI substrate includes a carrier layer, a buried oxide layer on the carrier layer, and a doped silicon layer structure with a conductivity type. The doped silicon layer structure with the conductivity type includes at least two silicon- or silicon germanium layers arranged adjacent to one another, wherein a dislocation network is configured in their interface portions at which dislocation network a radiative charge carrier combination with a light energy is provided, which light energy is smaller than a band gap energy of the silicon- or silicon germanium layers. The collector is formed as a pn-junction in a portion between the dislocation network and a surface of the silicon layer structure that is oriented away from the carrier layer, and wherein the injector is configured as a metal insulator semiconductor diode. | 08-29-2013 |
20130026659 | MICROELECTRONIC COMPONENT - A method for producing a MEMS component including the steps of simultaneously embedding structure elements during producing the multi-level conductive path layer stack which structure elements are to be subsequently exposed, subsequently producing a recess that extends from a substrate backside to the multi-level conductive path layer stack, exposing the micromechanical structure elements in the multi-level conductive path layer stack through the recess. In order to increase process precision a reference mask for defining a lateral position or a lateral extension of the micromechanical structure elements to be exposed is produced, wherein the reference mask is either arranged on the substrate front side between the substrate and the multi-level conductive path layer stack or in a layer of the multi-level conductive path layer stack which layer is more proximal to the substrate than the structure element to be exposed. | 01-31-2013 |