Abstract: Methods for processing a semiconductor workpiece can include providing a semiconductor workpiece that includes one or more kerf regions; forming one or more trenches in the workpiece by removing material from the one or more kerf regions from a first side of the workpiece; mounting the workpiece with the first side to a carrier; thinning the workpiece from a second side of the workpiece; and forming a metallization layer over the second side of the workpiece.

Abstract: A method includes a step of performing a time multiplexed etching process, wherein the last etching step of the time multiplexed etching process is of a first time duration. After performing the time multiplexed etching process, an etching step having a second time duration is performed, wherein the second time duration is greater than the first time duration.

Abstract: A method for processing a wafer having microelectromechanical system structures at the first main surface includes applying a masking material at the second main surface and structuring the masking material to obtain a plurality of masked areas and a plurality of unmasked areas at the second main surface. The method further includes anisotropically etching the wafer from the second main surface at the unmasked areas to form a plurality of recesses. The masking material is then removed at least at some of the masked areas to obtain previously masked areas. The method further includes anisotropically etching the wafer from the second main surface at the unmasked areas and the previously masked areas to increase a depth of the recesses and reduce a thickness of the wafer at the previously masked areas.

Abstract: A method includes a step of performing a time multiplexed etching process, wherein the last etching step of the time multiplexed etching process is of a first time duration. After performing the time multiplexed etching process, an etching step having a second time duration is performed, wherein the second time duration is greater than the first time duration.

Abstract: In one embodiment, a method of forming a semiconductor device includes forming openings in a substrate. The method includes forming a dummy fill material within the openings and thinning the substrate to expose the dummy fill material. The dummy fill material is removed.

Abstract: The various aspects comprise methods and devices for processing a wafer. An aspect of this disclosure includes a wafer. The wafer comprises a plurality of die regions; a plurality of kerf regions between the plurality of die regions; and a metallization area on the plurality of die regions.

Abstract: In one embodiment, a method of forming a semiconductor device includes forming openings in a substrate. The method includes forming a dummy fill material within the openings and thinning the substrate to expose the dummy fill material. The dummy fill material is removed.

Abstract: The various aspects comprise methods and devices for processing a wafer. An aspect of this disclosure includes a wafer. The wafer comprises a plurality of die regions; a plurality of kerf regions between the plurality of die regions; and a metallization area on the plurality of die regions.

Abstract: A method for processing a wafer having microelectromechanical system structures at the first main surface includes applying a masking material at the second main surface and structuring the masking material to obtain a plurality of masked areas and a plurality of unmasked areas at the second main surface. The method further includes anisotropically etching the wafer from the second main surface at the unmasked areas to form a plurality of recesses. The masking material is then removed at least at some of the masked areas to obtain previously masked areas. The method further includes anisotropically etching the wafer from the second main surface at the unmasked areas and the previously masked areas to increase a depth of the recesses and reduce a thickness of the wafer at the previously masked areas.

Abstract: In one embodiment, a method of forming a semiconductor device includes forming openings in a substrate. The method includes forming a dummy fill material within the openings and thinning the substrate to expose the dummy fill material. The dummy fill material is removed.

Abstract: A method for producing at least one cavity within a semiconductor substrate includes dry etching the semiconductor substrate from a surface of the semiconductor substrate at at least one intended cavity location in order to obtain at least one provisional cavity. The method includes depositing a protective material with regard to a subsequent wet-etching process at the surface of the semiconductor substrate and at cavity surfaces of the at least one provisional cavity. Furthermore, the method includes removing the protective material at least at a section of a bottom of the at least one provisional cavity in order to expose the semiconductor substrate. This is followed by electrochemically etching the semiconductor substrate at the exposed section of the bottom of the at least one provisional cavity. A method for producing a micromechanical sensor system in which this type of cavity formation is used and a corresponding MEMS are also disclosed.