Patent application number | Description | Published |
20090026539 | Method and Layout of Semiconductor Device with Reduced Parasitics - An semiconductor device is disclosed. The device includes a semiconductor body, a layer of insulating material disposed over the semiconductor body, and a region of gate electrode material disposed over the layer of insulating material. Also included are a source region adjacent to gate region and a drain region adjacent to the gate region. A gate connection is disposed over the semiconductor body, wherein the gate connection includes a region of gate electrode material electrically coupling a contact region to the gate electrode. An insulating region is disposed on the semiconductor body beneath the gate connection. | 01-29-2009 |
20090302480 | Through Substrate Via Semiconductor Components - A structure and method of forming through substrate vias in forming semiconductor components are described. In one embodiment, the invention describes a method of forming a through substrate via by partially filling an opening with a fill material, and forming a first insulating layer over the first fill material thereby forming a gap over the opening. The method further includes forming a second insulating layer to close the gap thereby forming an enclosed cavity within the opening. | 12-10-2009 |
20100230818 | Through Substrate Via Semiconductor Components - A structure and method of forming through substrate vias in forming semiconductor components are described. In one embodiment, the invention describes a method of forming a through substrate via by partially filling an opening with a fill material, and forming a first insulating layer over the first fill material thereby forming a gap over the opening. The method further includes forming a second insulating layer to close the gap thereby forming an enclosed cavity within the opening. | 09-16-2010 |
20100279503 | Method for Producing an Electrically Conductive Connection - A method for producing an electrically conductive connection between a first surface of a semiconductor substrate and a second surface of the semiconductor substrate includes producing a hole, forming an electrically conductive layer that includes tungsten, removing the electrically conductive layer from the first surface of the semiconductor substrate, filling the hole with copper and thinning the semiconductor substrate. The hole is produced from the first surface of the semiconductor substrate into the semiconductor substrate. The electrically conductive layer is removed from the first surface of the semiconductor substrate, wherein the electrically conductive layer remains at least with reduced thickness in the hole. The semiconductor substrate is thinned starting from a surface, which is an opposite surface of the first surface of the semiconductor substrate, to obtain the second surface of the semiconductor substrate with the hole being uncovered at the second surface of the semiconductor substrate. | 11-04-2010 |
20110294273 | Method and Layout of Semiconductor Device with Reduced Parasitics - An semiconductor device is disclosed. The device includes a semiconductor body, a layer of insulating material disposed over the semiconductor body, and a region of gate electrode material disposed over the layer of insulating material. Also included are a source region adjacent to gate region and a drain region adjacent to the gate region. A gate connection is disposed over the semiconductor body, wherein the gate connection includes a region of gate electrode material electrically coupling a contact region to the gate electrode. An insulating region is disposed on the semiconductor body beneath the gate connection. | 12-01-2011 |
20130267093 | Through Substrate Via Semiconductor Components And Methods of Formation Thereof - A structure and method of forming through substrate vias in forming semiconductor components are described. In one embodiment, the invention describes a method of forming the through substrate via by filling an opening with a first fill material and depositing a first insulating layer over the first fill material, the first insulating layer not being deposited on sidewalls of the fill material in the opening, wherein sidewalls of the first insulating layer form a gap over the opening. The method further includes forming a void by sealing the opening using a second insulating layer. | 10-10-2013 |
20130341620 | Monitor Structures and Methods of Formation Thereof - In accordance with an embodiment of the present invention, a method of forming an electronic device includes forming a first opening and a second opening in a workpiece. The first opening is deeper than the second opening. The method further includes forming a fill material within the first opening to form part of a through via and forming the fill material within the second opening. | 12-26-2013 |
20140042537 | Semiconductor Device and Method of Making the Same - A semiconductor device includes a drift region in a first region of a semiconductor body. The drift region includes dopants of a first conductivity type. A dopant retarding region is formed at least adjacent an edge of the drift region. Dopants of a second conductivity type are implanted into the semiconductor body. The semiconductor body is annealed to form a body region so that dopants of the second conductivity type are driven into the semiconductor body at a first diffusion rate. The dopant retarding region prevents the dopants from diffusing into the drift region at the first diffusion rate. | 02-13-2014 |
20140239411 | Through Vias and Methods of Formation Thereof - In accordance with an embodiment of the present invention, a semiconductor chip includes a device region disposed in or over a substrate, a doped region disposed in the device region, and a through via disposed in the substrate. The through via extends through the doped region. | 08-28-2014 |
20150035171 | Segmented Bond Pads and Methods of Fabrication Thereof - In accordance with an embodiment of the present invention, a semiconductor device includes a first bond pad disposed at a first side of a substrate. The first bond pad includes a first plurality of pad segments. At least one pad segment of the first plurality of pad segments is electrically isolated from the remaining pad segments of the first plurality of pad segments. | 02-05-2015 |