Patent application number | Description | Published |
20090212392 | Capacitor Pairs with Improved Mismatch Performance - A semiconductor device includes a first capacitor comprising a plurality of first unit capacitors interconnected to each other, each having a first unit capacitance; and a second capacitor comprising a plurality of second unit capacitors interconnected to each other, each having a second unit capacitance, wherein the first unit capacitors and the second unit capacitors have equal numbers of unit capacitors. The first unit capacitors and the second unit capacitors are arranged in an array with rows and columns and placed in an alternating pattern in each row and each column. The first and the second unit capacitors each have a total number greater than two. | 08-27-2009 |
20100026601 | Antennas Integrated in Semiconductor Chips - An integrated circuit structure includes a semiconductor chip including a top surface, a bottom surface, and a side surface; a metal seal ring adjacent the side surface; and an antenna including a seal-ring antenna. The seal-ring antenna includes at least a portion of the metal seal ring. | 02-04-2010 |
20110309420 | Capacitors Integrated with Metal Gate Formation - A semiconductor structure including a capacitor having increased capacitance and improved electrical performance is provided. The semiconductor structure includes a substrate and a MIM capacitor over the substrate. The MIM capacitor includes a bottom plate, an insulating layer over the bottom plate, and a top plate over the insulating layer. The semiconductor structure further includes a MOS device including a gate dielectric over the substrate and a metal-containing gate electrode free from polysilicon on the gate dielectric, wherein the metal-containing gate electrode is formed of a same material and has a same thickness as the bottom plate. | 12-22-2011 |
20120092806 | PROTECTION STRUCTURE FOR METAL-OXIDE-METAL CAPACITOR - A capacitor structure includes first and second sets of electrodes and a plurality of line plugs. The first set of electrodes has a first electrode and a second electrode formed in a first metallization layer among a plurality of metallization layers, wherein the first electrode and the second electrode are separated by an insulation material. The second set of electrodes has a third electrode and a fourth electrode formed in a second metallization layer among the plurality of metallization layers, wherein the third electrode and the fourth electrode are separated by the insulation material. The line plugs connect the second set of electrodes to the first set of electrodes. | 04-19-2012 |
20140246751 | Integrated Circuit Using Deep Trench Through Silicon (DTS) - An embodiment radio frequency area of an integrated circuit includes a substrate having a first resistance, the substrate including an implant region, a buried oxide layer disposed over the substrate, an interface layer between the substrate and the buried oxide layer, the interface layer having a second resistance lower than the first resistance, a silicon layer disposed over the buried oxide layer, and an interlevel dielectric disposed in a deep trench, the deep trench extending through the silicon layer, the buried oxide layer, and the interface layer over the implant region. In an embodiment, the deep trench extends through a polysilicon layer disposed over the silicon layer. | 09-04-2014 |
20150115381 | MECHANISMS FOR FORMING RADIO FREQUENCY (RF) AREA OF INTEGRATED CIRCUIT STRUCTURE - Embodiments of mechanisms of forming a radio frequency area of an integrated circuit are provided. The radio frequency area of an integrated circuit structure includes a substrate, a buried oxide layer formed over the substrate, and an interface layer formed between the substrate and the buried oxide layer. The radio frequency area of an integrated circuit structure also includes a silicon layer formed over the buried oxide layer and an interlayer dielectric layer formed in a deep trench. The radio frequency area of an integrated circuit structure further includes the interlayer dielectric layer extending through the silicon layer, the buried oxide layer and the interface layer. The radio frequency area of an integrated circuit structure includes an implant region formed below the interlayer dielectric layer in the deep trench and a polysilicon layer formed below the implant region. | 04-30-2015 |
20150132918 | Integrated Circuit Using Deep Trench Through Silicon (DTS) - An embodiment radio frequency area of an integrated circuit is disclosed. The radio frequency area includes a substrate having an implant region. The substrate has a first resistance. A buried oxide layer is disposed over the substrate and an interface layer is disposed between the substrate and the buried oxide layer. The interface layer has a second resistance lower than the first resistance. A silicon layer is disposed over the buried oxide layer and an interlevel dielectric is disposed in a deep trench. The deep trench extends through the silicon layer, the buried oxide layer, and the interface layer over the implant region. The deep trench may also extend through a polysilicon layer disposed over the silicon layer. | 05-14-2015 |
20150155096 | METHOD OF FORMING CAPACITOR STRUCTURE - A method of forming a capacitor structure includes forming a first set of electrodes having a first electrode and a second electrode, wherein each electrode of the first set of electrodes has an L-shaped portion. The method further includes forming a second set of electrodes having a third electrode and a fourth electrode, wherein each electrode of the second set of electrodes has an L-shaped portion. The method further includes forming insulation layers between the first set of electrodes and the second set of electrodes. The method further includes forming a first L-shaped line plug connecting the first electrode to the third electrode, wherein an entirety of an outer surface of the first L-shaped line plug is recessed with respect to an outer surface of the L-shaped portion of the first electrode. The method further includes forming a second line plug connecting the second electrode to the fourth electrode. | 06-04-2015 |
20150206902 | SEMICONDUCTOR DEVICE AND METHOD FOR FORMING THE SAME - Embodiments for forming a semiconductor device structure are provided. The semiconductor device structure includes a substrate and a buried oxide layer formed over the substrate. An interface layer is formed between the substrate and the buried oxide layer. The semiconductor device structure also includes a silicon layer formed over the buried oxide layer; and a polysilicon layer formed over the substrate and in a deep trench. The polysilicon layer extends through the silicon layer, the buried oxide layer and the interface layer. | 07-23-2015 |