| Patent application number | Description | Published |
|---|
| 20090002114 | INTEGRATED INDUCTOR - An integrated inductor has a winding. The winding includes a first level metal layer inlaid in a first dielectric layer, a second level metal layer inlaid in a second dielectric layer above the first dielectric layer, and a first line-shaped via structure inlaid in a slot of a third dielectric layer interposed between the first and second dielectric layers for interconnecting the first and second level metal layers. | 01-01-2009 |
| 20090057907 | INTERCONNECTION STRUCTURE - An interconnection structure includes an inter-layer dielectric; a topmost copper metal layer inlaid into the inter-layer dielectric; an insulating layer disposed on the inter-layer dielectric and the topmost copper metal layer; a via opening in the insulating layer for exposing a top surface of the topmost copper metal layer, wherein the via opening consists of an inwardly tapered upper via portion and a lower via portion having a substantially vertical sidewall profile; and an aluminum layer filling into the via opening. | 03-05-2009 |
| 20090160019 | SEMICONDUCTOR CAPACITOR - A capacitor structure is provided. The capacitor structure includes a plurality of first conductive lines paralleled disposed in a conductive layer on a substrate, wherein the first conductive lines are isolated to each other in the conductive layer and are grouped into a first electrode group and a second electrode group, an insulating layer formed on the first conductive lines and in the space between the first conductive lines, a second conductive line formed on the insulating layer electrically connected to the first conductive lines of the first electrode group, and a third conductive line formed on the insulating layer electrically connected to the first conductive lines of the second electrode group. | 06-25-2009 |
| 20090166676 | SIGE DEVICE WITH SIGE-EMBEDDED DUMMY PATTERN FOR ALLEVIATING MICRO-LOADING EFFECT - A semiconductor device with dummy patterns for alleviating micro-loading effect includes a semiconductor substrate having thereon a middle annular region between an inner region and an outer region; a SiGe device on the semiconductor substrate within the inner region; and a plurality of dummy patterns provided on the semiconductor substrate within the middle annular region. At least one of the dummy patterns contains SiGe. | 07-02-2009 |
| 20090215277 | DUAL CONTACT ETCH STOP LAYER PROCESS - A dual CESL process includes: (1) providing a substrate having thereon a first device region, a second device region and a shallow trench isolation (STI) region between the first and second device regions; (2) forming a first-stress imparting film with a first stress over the substrate, wherein the first-stress imparting film does not cover the second device region; and (3) forming a second-stress imparting film with a second stress over the substrate, wherein the second-stress imparting film does not cover the first device region, an overlapped boundary between the first- and second-stress imparting films is created directly above the STI region, and wherein the overlapped boundary is placed in close proximity to the second device region in order to induce the first stress to a channel region thereof in a transversal direction. | 08-27-2009 |
| 20090261937 | INTEGRATED INDUCTOR - An integrated inductor includes a winding consisting of an aluminum layer atop a passivation layer, wherein the aluminum layer does not extend into the passivation layer and has a thickness that is not less than about 2.0 micrometers. The passivation layer has a thickness not less than about 0.8 micrometers. By eliminating copper from the integrated inductor and increasing the thickness of the passivation layer, the distance between the bottom surface of the inductor structure and the main surface of the semiconductor substrate is increased, thus the parasitic substrate coupling may be reduced and the Q-factor may be improved. Besides, the increased thickness of the aluminum layer may help improve the Q-factor as well. | 10-22-2009 |
| 20100065943 | METHOD FOR INCLUDING DECOUPLING CAPACITORS INTO SEMICONDUCTOR CIRCUIT HAVING LOGIC CIRCUIT THEREIN AND SEMICONDUCTOR CIRCUIT THEREOF - A method for including decoupling capacitors into a semiconductor circuit having at least a logic circuit therein, includes: arranging a first decoupling capacitor and a second decoupling capacitor into a first area and a second area around the logic circuit respectively, wherein a gate oxide thickness of the first decoupling capacitor is different from a gate oxide thickness of the second decoupling capacitor. | 03-18-2010 |
| 20100164018 | HIGH-VOLTAGE METAL-OXIDE-SEMICONDUCTOR DEVICE - A high-voltage MOS transistor includes a gate overlying an active area of a semiconductor substrate; a drain doping region pulled back away from an edge of the gate by a distance L; a first lightly doped region between the gate and the drain doping region; a source doping region in a first ion well; and a second lightly doped region between the gate and the source doping region. | 07-01-2010 |
| 20100252860 | LATERAL BIPOLAR JUNCTION TRANSISTOR WITH REDUCED BASE RESISTANCE - A lateral bipolar junction transistor formed in a semiconductor substrate includes an emitter region; a base region surrounding the emitter region; a gate disposed at least over a portion of the base region; a collector region having at least one open side and being disposed about a periphery of the base region; a shallow trench isolation (STI) region disposed about a periphery of the collector region; a base contact region disposed about a periphery of the STI region; and an extension region merging with the base contact region and laterally extending to the gate on the open side of the collector region. | 10-07-2010 |
| 20100289058 | LATERAL BIPOLAR JUNCTION TRANSISTOR - A lateral bipolar junction transistor includes an emitter region; a base region surrounding the emitter region; a gate disposed at least over a portion of the base region; a collector region surrounding the base region with an offset between an edge of the gate and the collector region; a lightly doped drain region between the edge of the gate and the collector region; a salicide block layer disposed on or over the lightly doped drain region; and a collector salicide formed on at least a portion of the collector region. | 11-18-2010 |
| 20110049671 | BONDING PAD STRUCTURE AND INTEGRATED CIRCUIT CHIP USING SUCH BONDING PAD STRUCTURE - An integrated circuit chip includes a substrate; a topmost metal layer over the substrate; a lower metal layer on or over the substrate and lower than the topmost metal layer; and at least one bonding pad in the lower metal layer. | 03-03-2011 |
