| Bridge Semiconductor Corporation Patent applications |
| Patent application number | Title | Published |
|---|
| 20120129300 | METHOD OF MAKING STACKABLE SEMICONDUCTOR ASSEMBLY WITH BUMP/BASE/FLANGE HEAT SPREADER AND BUILD-UP CIRCUITRY - A method of making a stackable semiconductor assembly that includes a semiconductor device, a heat spreader, an adhesive, a terminal, a plated through-hole and build-up circuitry is disclosed. The heat spreader includes a bump, a base and a flange. The bump defines a cavity. The semiconductor device is mounted on the bump at the cavity, electrically connected to the build-up circuitry and thermally connected to the bump. The bump extends from the base into an opening in the adhesive, the base extends vertically from the bump opposite the cavity and the flange extends laterally from the bump at the cavity entrance. The build-up circuitry provides signal routing for the semiconductor device. The plated through-hole provides signal routing between the build-up circuitry and the terminal. The heat spreader provides heat dissipation for the semiconductor device. | 05-24-2012 |
| 20120129299 | METHOD OF MAKING THERMALLY ENHANCED SEMICONDUCTOR ASSEMBLY WITH BUMP/BASE/FLANGE HEAT SPREADER AND BUILD-UP CIRCUITRY - A method of making a semiconductor assembly that includes a semiconductor device, a heat spreader, an adhesive and a build-up circuitry is disclosed. The heat spreader includes a bump, a base and a flange. The bump defines a cavity. The semiconductor device is mounted on the bump at the cavity, electrically connected to the build-up circuitry and thermally connected to the bump. The bump extends from the base into an opening in the adhesive, the base extends vertically from the bump opposite the cavity and the flange extends laterally from the bump at the cavity entrance. The build-up circuitry includes a dielectric layer and conductive traces on the semiconductor device and the flange. The conductive traces provide signal routing for the semiconductor device. | 05-24-2012 |
| 20120129298 | METHOD OF MAKING STACKABLE SEMICONDUCTOR ASSEMBLY WITH BUMP/FLANGE HEAT SPREADER AND DUAL BUILD-UP CIRCUITRY - A method of making a stackable semiconductor assembly that includes a semiconductor device, a heat spreader, an adhesive, a plated through-hole, first build-up circuitry and second build-up circuitry is disclosed. The heat spreader includes a bump and a flange. The bump defines a cavity. The semiconductor device is mounted on the bump at the cavity, electrically connected to the first build-up circuitry and thermally connected to the bump. The bump extends into an opening in the adhesive and the flange extends laterally from the bump at the cavity entrance. The first build-up circuitry and the second build-up circuitry extend beyond the semiconductor device in opposite vertical directions. The plated through-hole extends through the adhesive and provides signal routing between the first build-up circuitry and the second build-up circuitry. The heat spreader provides heat dissipation for the semiconductor device. | 05-24-2012 |
| 20120126401 | STACKABLE SEMICONDUCTOR ASSEMBLY WITH BUMP/BASE/FLANGE HEAT SPREADER AND ELECTROMAGNETIC SHIELDING - A stackable semiconductor assembly includes a semiconductor device, a heat spreader, an adhesive, a terminal, a plated through-hole and build-up circuitry. The heat spreader includes a bump, a base and a flange. The bump defines a cavity. The semiconductor device is mounted on the bump at the cavity, electrically connected to the build-up circuitry and thermally connected to the bump. The bump extends from the base into an opening in the adhesive, the base extends vertically from the bump opposite the cavity and the flange extends laterally from the bump at the cavity entrance. The build-up circuitry provides signal routing for the semiconductor device. The plated through-hole provides signal routing between the build-up circuitry and the terminal. The heat spreader provides heat dissipation for the semiconductor device. | 05-24-2012 |
| 20120126399 | THERMALLY ENHANCED SEMICONDUCTOR ASSEMBLY WITH BUMP/BASE/FLANGE HEAT SPREADER AND BUILD-UP CIRCUITRY - A semiconductor assembly includes a semiconductor device, a heat spreader, an adhesive and a build-up circuitry. The heat spreader includes a bump, a base and a flange. The bump defines a cavity. The semiconductor device is mounted on the bump at the cavity, electrically connected to the build-up circuitry and thermally connected to the bump. The bump extends from the base into an opening in the adhesive, the base extends vertically from the bump opposite the cavity and the flange extends laterally from the bump at the cavity entrance. The build-up circuitry includes a dielectric layer and conductive traces on the semiconductor device and the flange. The conductive traces provide signal routing for the semiconductor device. | 05-24-2012 |
| 20120126388 | STACKABLE SEMICONDUCTOR ASSEMBLY WITH BUMP/FLANGE HEAT SPREADER AND DUAL BUILD-UP CIRCUITRY - A stackable semiconductor assembly includes a semiconductor device, a heat spreader, an adhesive, a plated through-hole, first build-up circuitry and second build-up circuitry. The heat spreader includes a bump and a flange. The bump defines a cavity. The semiconductor device is mounted on the bump at the cavity, electrically connected to the first build-up circuitry and thermally connected to the bump. The bump extends into an opening in the adhesive and the flange extends laterally from the bump at the cavity entrance. The first build-up circuitry and the second build-up circuitry extend beyond the semiconductor device in opposite vertical directions. The plated through-hole extends through the adhesive and provides signal routing between the first build-up circuitry and the second build-up circuitry. The heat spreader provides heat dissipation for the semiconductor device. | 05-24-2012 |
| 20100259322 | READOUT CIRCUIT AND SYSTEM INCLUDING SAME - A readout circuit. The readout circuit includes a charge amplification circuit and an analog-to-digital conversion circuit. The analog-to-digital conversion circuit is connected to the charge amplification circuit. | 10-14-2010 |
| 20100258348 | INTERCONNECT AND SYSTEM INCLUDING SAME - An interconnect. The interconnect includes a thermal isolation structure and a layer of conductive material which covers the thermal isolation structure. The thermal isolation structure has a first end, a second end, and a sidewall. | 10-14-2010 |
| 20100214742 | Heat-sinking memory module device - A memory module has a good heat sinking effect. Each chip on the memory module has a surface exposed in the air. Or, a thermal pad can further adhere to the surface of the chips. Thus, the heat sinking effect of the memory module is improved; and an easy and convenient producing method is obtained. | 08-26-2010 |
| 20090284932 | Thermally Enhanced Package with Embedded Metal Slug and Patterned Circuitry - The present invention thermally enhanced package with embedded metal slug and patterned circuitry discloses a thermal enhanced package with an embedded metal slug that can be easy directly assembled to the printed circuit board to significantly improve package's thermal dissipation efficiency through the assistance of metal traces in the application board. | 11-19-2009 |
