Abstract: Method of making through-substrate-vias in glass substrates includes providing a first substrate on which a plurality of needles protruding vertically from the substrate are made; providing a second substrate made of glass; locating the substrates adjacent each other such that the needles on the first substrate face the second substrate; applying heat to a temperature where the glass softens, by heating the glass or the needle substrate or both; applying a force such that the needles on the first substrate penetrate into the glass to provide impressions in the glass; and finally, removing the first substrate and providing material filling the impressions in the second substrate made of glass. A device includes a silicon substrate having a cavity in which a MEMS component is accommodated, and a cap wafer made of a material having a low dielectric constant, and through substrate vias of metal, is bonded to the silicon substrate.

Abstract: A substrate-through electrical connection (10) for connecting components on opposite sides of a substrate, and a method for making same. The connection includes a substrate-through via made from substrate material (10?). There is a trench (11) provided surrounding the via, the walls of the trench being coated with a layer of insulating material (12) and the trench (11) is filled with conductive or semi-conductive material (13). A doping region (15) for threshold voltage adjustment is provided in the via material in the surface of the inner trench wall between insulating material (12) and the material (10?) in the via. There are contacts (17?, 17?) to the via on opposite sides of the substrate, and a contact (18) to the conductive material (13) in the trench (11) so as to enable the application of a voltage to the conductive material (13).

Abstract: Method of making through-substrate-vias in glass substrates includes providing a first substrate on which a plurality of needles protruding vertically from the substrate are made; providing a second substrate made of glass; locating the substrates adjacent each other such that the needles on the first substrate face the second substrate; applying heat to a temperature where the glass softens, by heating the glass or the needle substrate or both; applying a force such that the needles on the first substrate penetrate into the glass to provide impressions in the glass; and finally, removing the first substrate and providing material filling the impressions in the second substrate made of glass. A device includes a silicon substrate having a cavity in which a MEMS component is accommodated, and a cap wafer made of a material having a low dielectric constant, and through substrate vias of metal, is bonded to the silicon substrate.

Abstract: A substrate-through electrical connection (10) for connecting components on opposite sides of a substrate, and a method for making same. The connection includes a substrate-through via made from substrate material (10?). There is a trench (11) provided surrounding the via, the walls of the trench being coated with a layer of insulating material (12) and the trench (11) is filled with conductive or semi-conductive material (13). A doping region (15) for threshold voltage adjustment is provided in the via material in the surface of the inner trench wall between insulating material (12) and the material (10?) in the via. There are contacts (17?, 17?) to the via on opposite sides of the substrate, and a contact (18) to the conductive material (13) in the trench (11) so as to enable the application of a voltage to the conductive material (13).