| Patent application number | Description | Published |
|---|
| 20090149021 | SPRAY DISPENSING METHOD FOR APPLYING LIQUID METAL - Embodiments of a method for applying a thermal-interface material are described. During this method, a first surface of a heat-removal device and a second surface of a semiconductor die are prepared. Next, a region on a given surface, which is at least one of the first surface and the second surface, is defined. Then, the thermal-interface material is applied to at least the region, where the thermal-interface material includes a material that is a liquid metal over a range of operating temperatures of the semiconductor die. | 06-11-2009 |
| 20090175008 | Electrical connection interfaces and methods for adjacently positioned circuit components - Electrical components, such as packaged integrated circuit devices that are mountable on a substrate surface, are provided with at least one exposed electrical contact on a side surface of the component that will be substantially perpendicular to the substrate surface when the component is mounted. Two such components can be mounted side-by-side on the substrate surface with the above-mentioned contacts close to one another between the above-mentioned side surfaces. An electrical connection between the contacts can be made (or perfected) by depositing an electrically conductive connector material in contact with both of the contacts between the above-mentioned side surfaces. | 07-09-2009 |
| 20090205200 | TECHNIQUE FOR REDUCING WASTED MATERIAL ON A PRINTED CIRCUIT BOARD PANEL - A process for assembling a rigid-flex printed circuit board (PCB) is presented. During operation, the process receives rigid-flex PCBs that are to be coupled together, wherein a rigid-flex PCB includes flexible PCBs coupled to rigid PCBs. The process then places the PCBs onto a carrier which is configured to: align the PCBs so that bond regions located on the flexible PCBs overlap with bond regions located on corresponding flexible PCBs, and apply pressure to the overlapped bond regions. The process then sends the carrier through a reflow oven which reflows solder on the PCBs so that the components become mechanically and electrically coupled to the PCBs. The temperature profile generated by the reflow oven and the pressure applied by the carrier cures and sets an anisotropic conductive film located in the bond regions so that the overlapped flexible PCBs become mechanically and electrically coupled together. | 08-20-2009 |
| 20100139085 | TECHNIQUE FOR REDUCING WASTED MATERIAL ON A PRINTED CIRCUIT BOARD PANEL - A process for assembling a rigid-flex printed circuit board (PCB) is presented. During operation, the process receives rigid-flex PCBs that are to be coupled together, wherein a rigid-flex PCB includes flexible PCBs coupled to rigid PCBs. The process then places the PCBs onto a carrier which is configured to: align the PCBs so that bond regions located on the flexible PCBs overlap with bond regions located on corresponding flexible PCBs, and apply pressure to the overlapped bond regions. The process then sends the carrier through a reflow oven which reflows solder on the PCBs so that the components become mechanically and electrically coupled to the PCBs. The temperature profile generated by the reflow oven and the pressure applied by the carrier cures and sets an anisotropic conductive film located in the bond regions so that the overlapped flexible PCBs become mechanically and electrically coupled together. | 06-10-2010 |
| 20100213958 | SYSTEMS AND METHODS FOR PROVIDING A SYSTEM-ON-A-SUBSTRATE - This relates to systems and methods for providing a system-on-a-substrate. In some embodiments, the necessary components for an entire system (e.g., a processor, memory, accelerometers, I/O circuitry, or any other suitable components) can be fabricated on a single microchip in “bare die” form. The die can, for example, be coupled to suitable flash memory through a substrate and flexible printed circuit board (“flex”). In some embodiments, the flex can extend past the substrate, die, or both, to allow additional, relatively large components to be coupled to the flex. In some embodiments, the die can be coupled to the flash memory through the flex and without a substrate. In some embodiments, component test points can be placed on the flash memory side of the substrate. | 08-26-2010 |
| 20100224401 | METHODS AND APPARATUS FOR SHIELDING CIRCUITRY FROM INTERFERENCE - This is directed to methods and apparatus for shielding a circuitry region of an electronic device from interference (e.g., EMI). A conductive dam may be formed about a periphery of the circuitry region. A non-conductive or electrically insulating fill may then be applied to the circuitry region within the dam. Next, a conductive cover may be applied above the fill. The cover may be electrically coupled to the dam. The dam may include two or more layers of conductive material stacked on top of one another. In some embodiments, the conductive cover may be pad printed or screen printed above the fill. In other embodiments, the conductive cover may be a conductive tablet that is melted above the fill. | 09-09-2010 |
| 20110013373 | SYSTEMS AND METHODS FOR PROVIDING VIAS THROUGH A MODULAR COMPONENT - This relates to systems and methods for providing one or more vias through a module of an electrical system. For example, in some embodiments, the module can include one or more passive elements and/or active of the electrical system around which a packaging has been plastic molded. The module can be stacked under another component of the electrical system. Vias can then be provided that extend through the module. The vias can include, for example, electrically conductive pathways. In this manner, the vias can provide electrical pathways for coupling the component stacked on top of the module to other entities of an electronic device including the electrical system. For example, the component can be coupled to other entities such as other components, other modules, printed circuit boards, other electrical systems, or to any other suitable entity. | 01-20-2011 |
