Patent application number | Description | Published |
20090184423 | LOW RESISTANCE AND INDUCTANCE BACKSIDE THROUGH VIAS AND METHODS OF FABRICATING SAME - A backside contact structure and method of fabricating the structure. The method includes: forming a dielectric isolation in a substrate, the substrate having a frontside and an opposing backside; forming a first dielectric layer on the frontside of the substrate; forming a trench in the first dielectric layer, the trench aligned over and within a perimeter of the dielectric isolation and extending to the dielectric isolation; extending the trench formed in the first dielectric layer through the dielectric isolation and into the substrate to a depth less than a thickness of the substrate; filling the trench and co-planarizing a top surface of the trench with a top surface of the first dielectric layer to form an electrically conductive through via; and thinning the substrate from a backside of the substrate to expose the through via. | 07-23-2009 |
20100032808 | THROUGH WAFER VIA AND METHOD OF MAKING SAME - A through wafer via structure. The structure includes: a semiconductor substrate having a top surface and an opposite bottom surface; and an array of through wafer vias comprising at least one electrically conductive through wafer via and at least one electrically non-conductive through wafer via, each through wafer via of the array of through wafer vias extending from the top surface of the substrate to between greater than halfway to and all the way to the bottom surface of the substrate. Also methods for fabricating the though wafer via structure. | 02-11-2010 |
20100032810 | THROUGH WAFER VIAS AND METHOD OF MAKING SAME - A method of forming and structure for through wafer vias and signal transmission lines formed of through wafer vias. The method of forming through wafer vias includes forming an array of through wafer vias comprising at least one electrically conductive through wafer via and at least one electrically non-conductive through wafer via through a semiconductor substrate having a top surface and an opposite bottom surface, each through wafer via of the array of through wafer vias extending from the top surface of the substrate to the bottom surface of the substrate. | 02-11-2010 |
20100032811 | THROUGH WAFER VIAS AND METHOD OF MAKING SAME - A method of forming and structure for through wafer vias and signal transmission lines formed of through wafer vias. The structure includes, a semiconductor substrate having a top surface and an opposite bottom surface; and an array of through wafer vias comprising at least one electrically conductive through wafer via and at least one electrically non-conductive through wafer via, each through wafer via of the array of through wafer vias extending from the top surface of to the bottom surface of the substrate, the at least one electrically conductive via electrically isolated from the substrate. | 02-11-2010 |
20100164075 | TRENCH FORMING METHOD AND STRUCTURE - An electrical structure and method of forming. The method includes providing a semiconductor structure comprising a semiconductor substrate, a buried oxide layer (BOX) formed over the semiconductor substrate, and a silicon on insulator layer (SOI) formed over and in contact with the BOX layer. The SOI layer comprises shallow trench isolation (STI) structures formed between electrical devices. A first photoresist layer is formed over the STI structures and the electrical devices. Portions of said first photoresist layer, portions of the STI structures, and portions of the BOX layer are removed resulting in formed trenches. Ion implants are formed within portions of the semiconductor substrate. Remaining portions of the first photoresist layer are removed. A dielectric layer is formed over the electrical devices and within the trenches. A second photoresist layer is formed over the dielectric layer. Portions of the second photoresist layer are removed. | 07-01-2010 |
20100230752 | SOI (SILICON ON INSULATOR) SUBSTRATE IMPROVEMENTS - A structure, and a method for forming the same. The structure includes a semiconductor substrate which includes a top substrate surface, a buried dielectric layer on the top substrate surface, N active semiconductor regions on the buried dielectric layer, N active devices on the N active semiconductor regions, a plurality of dummy regions on the buried dielectric layer, a protection layer on the N active devices and the N active semiconductor regions, but not on the plurality of dummy regions. The N active devices comprise first active regions which comprise a first material. The plurality of dummy regions comprise first dummy regions which comprise the first material. A first pattern density of the first active regions and the first dummy regions is uniform across the structure. A trench in the buried dielectric layer such that side walls of the trench are aligned with the plurality of dummy regions. | 09-16-2010 |
20110278570 | SCALING OF BIPOLAR TRANSISTORS - Bipolar transistor structures, methods of designing and fabricating bipolar transistors, methods of designing circuits having bipolar transistors. The method of designing the bipolar transistor includes: selecting an initial design of a bipolar transistor; scaling the initial design of the bipolar transistor to generate a scaled design of the bipolar transistor; determining if stress compensation of the scaled design of the bipolar transistor is required based on dimensions of an emitter of the bipolar transistor after the scaling; and if stress compensation of the scaled design of the bipolar transistor is required then adjusting a layout of a trench isolation layout level of the scaled design relative to a layout of an emitter layout level of the scaled design to generate a stress compensated scaled design of the bipolar transistor. | 11-17-2011 |
20120248573 | TUNABLE SEMICONDUCTOR DEVICE - Embodiments of the invention include a method for forming a tunable semiconductor device and the resulting structure. The invention comprises forming a semiconductor substrate. Next, pattern a first mask over the semiconductor substrate. Dope regions of the semiconductor substrate not protected by the first mask to form a first discontinuous subcollector. Remove the first mask. Pattern a second mask over the semiconductor substrate. Dope regions of the semiconductor substrate not protected by the second mask and on top of the first discontinuous subcollector to form a second discontinuous subcollector. Remove the second mask and form a collector above the second discontinuous subcollector. Breakdown voltage of the device may be tuned by varying the gaps separating doped regions within the first and second discontinuous subcollectors. Doped regions of the first and second discontinuous subcollectors may be formed in a mesh pattern. | 10-04-2012 |
20120329219 | THROUGH WAFER VIAS AND METHOD OF MAKING SAME - A method of forming and structure for through wafer vias and signal transmission lines formed of through wafer vias. The method of forming through wafer vias includes forming an array of through wafer vias comprising at least one electrically conductive through wafer via and at least one electrically non-conductive through wafer via through a semiconductor substrate having a top surface and an opposite bottom surface, each through wafer via of the array of through wafer vias extending from the top surface of the substrate to the bottom surface of the substrate. | 12-27-2012 |