Patent application number | Description | Published |
20120106120 | TRANSMISSION LINE FOR ELECTRONIC CIRCUITS - A transmission line formed in a device including a stack of first and second chips having their front surfaces facing each other and wherein a layer of a filling material separates the front surface of the first chip from the front surface of the second chip, this line including: a conductive strip formed on the front surface side of the first chip in at least one metallization level of the first chip; and a ground plane made of a conductive material formed in at least one metallization level of the second chip. | 05-03-2012 |
20120308177 | PROCESS FOR FABRICATING AN INTEGRATED CIRCUIT COMPRISING AT LEAST ONE COPLANAR WAVEGUIDE - An integrated circuit includes a silicon-on-insulator wafer and interconnect layer providing a support for a coplanar waveguide formed above a top side of the support. A through-silicon via is formed from a back side of the support and passing through the silicon-on-insulator wafer to reach the interconnect layer. A trench is formed from the back side of the support underneath the coplanar waveguide. The trench extends over at least an entire length of the coplanar waveguide. The trench passes through the silicon-on-insulator wafer to reach the interconnect layer and may have a substantially same depth as the through-silicon via. | 12-06-2012 |
20120320550 | METHOD FOR ELECTRICAL CONNECTION BETWEEN ELEMENTS OF A THREE-DIMENSIONAL INTEGRATED STRUCTURE AND CORRESPONDING DEVICE - A link device for three-dimensional integrated structure may include a module having a first end face designed to be in front of a first element of the structure, and a second end face designed to be placed in front of a second element of the structure. The two end faces may be substantially parallel, and the module including a substrate having a face substantially perpendicular to the two end faces and carrying an electrically conducting pattern formed in a metallization level on top of the face and enclosed in an insulating region. The electrically conducting pattern may include a first end part emerging onto the first end face and a second end part emerging onto the second end face and connected to the first end part. | 12-20-2012 |
20130140693 | METHOD FOR FORMING AN INTEGRATED CIRCUIT - A method for forming an integrated circuit including the steps of: a) forming openings in a front surface of a first semiconductor wafer, the depth of the openings being smaller than 10 μm, and filling them with a conductive material; b) forming doped areas of components in active areas of the front surface, forming interconnection levels on the front surface and leveling the surface supporting the interconnection levels; c) covering with an insulating layer a front surface of a second semiconductor wafer, and leveling the surface coated with an insulator; d) applying the front surface of the second wafer coated with insulator on the front surface of the first wafer supporting interconnection levels, to obtain a bonding between the two wafers; e) forming vias from the rear surface of the second wafer, to reach the interconnection levels of the first wafer; and f) thinning the first wafer to reach the openings filled with conductive material. | 06-06-2013 |
20130292824 | CONNECTION OF A CHIP PROVIDED WITH THROUGH VIAS - A chip provided with through vias wherein the vias are formed of an opening with insulated walls coated with a conductive material and filled with an easily deformable insulating material, elements of connection to another chip being arranged in front of the easily deformable insulating material. | 11-07-2013 |
20130313724 | SHIELDED COPLANAR LINE - In one embodiment there is disclosed a method for manufacturing an integrated circuit in a semiconductor substrate including through vias and a coplanar line, including the steps of: forming active components and a set of front metallization levels; simultaneously etching from the rear surface of the substrate a through via hole and a trench crossing the substrate through at least 50% of its height; coating with a conductive material the walls and the bottom of the hole and of the trench; and filling the hole and the trench with an insulating filling material; and forming a coplanar line extending on the rear surface of the substrate, in front of the trench and parallel thereto, so that the lateral conductors of the coplanar line are electrically connected to the conductive material coating the walls of the trench. | 11-28-2013 |
20140015102 | SEMICONDUCTOR DEVICE COMPRISING AN INTEGRATED CAPACITOR AND METHOD OF FABRICATION - A semiconductor device includes a substrate wafer and having a front face and a back face. A front hole is formed in the front face and a multilayer capacitor is formed in the front hole. A back hole is formed in the back face of the substrate wafer to expose at least a portion of the multilayer capacitor. A front electrical connection on the front face and a back electrical connection in the back hole are used to make electrical connection to first and second conductive plates of the multilayer capacitor which are separated by a dielectric layer. The front hole may have a cylindrical shape or an annular shape. | 01-16-2014 |
20140075726 | METHOD FOR MANUFACTURING BAW RESONATORS ON A SEMICONDUCTOR WAFER - A method for manufacturing a wafer on which are formed resonators, each resonator including, above a semiconductor substrate, a stack of layers including, in the following order from the substrate surface: a Bragg mirror; a compensation layer made of a material having a temperature coefficient of the acoustic velocity of a sign opposite to that of all the other stack layers; and a piezoelectric resonator, the method including the successive steps of: a) depositing the compensation layer; and b) decreasing thickness inequalities of the compensation layer due to the deposition method, so that this layer has a same thickness to within better than 2%, and preferably to within better than 1%, at the level of each resonator. | 03-20-2014 |