Patent application number | Description | Published |
20080264563 | Apparatus and Method to Enable Easy Removal of One Substrate from Another for Enhanced Reworkability and Recyclability - A method and apparatus enables easy removal of a first substrate (e.g., a label, EMC gasket, etc.) from a second substrate (e.g., a cover of a computer enclosure) for enhanced reworkability or recyclability. An adhesive layer affixes the substrates to each other. A coating that includes a dewetting agent (DA) is interposed between the second substrate and the adhesive layer. Removal is facilitated by applying heat and/or pressure to activate the DA. Preferably, the DA thermally decomposes to form gaseous products at a predefined temperature. Heat may be applied through one or more of the substrates to drive the DA to decomposition, which forms bubbles that lift the first substrate relative to the second substrate. Optionally, the DA may be encapsulated in microspheres. For example, the DA may be silicone oil and/or an adhesive solvent encapsulated in microspheres and may be activated by applying pressure sufficient to crush the microspheres. | 10-30-2008 |
20100044095 | Via Stub Elimination - An enhanced mechanism is disclosed for via stub elimination in printed wiring boards (PWBs) and other substrates. In one embodiment, the substrate includes a plurality of insulator layers and internal conductive traces. First and second through-holes extend completely through the substrate and respectively pass through first and second ones of the internal conductive traces, which are at different depths within the substrate. Photolithographic techniques are used to generate plated-through-hole (PTH) plugs of controlled, variable depth in the through-holes before first and second conductive vias are respectively plated onto the first and second through-holes. The depth of these PTH plugs is controlled (e.g., using a photomask and/or variable laser power) to prevent the first and second conductive vias from extending substantially beyond the first and second internal conductive traces, respectively, and thereby prevent via stubs from being formed in the first place. This advantageously eliminates the costly and time consuming process of via stub backdrilling. | 02-25-2010 |
20100044096 | Horizontally Split Vias - A mechanism is disclosed for providing horizontally split vias are provided in printed wiring boards (PWBs) and other substrates. In one embodiment, the substrate includes a plurality of insulator layers and internal conductive traces. First and second through-holes extend completely through the substrate and respectively pass through first/second ones and third/fourth ones of the internal conductive traces, which are at different depths within the substrate. Photolithographic techniques are used to generate plated-through-hole (PTH) plugs of controlled, variable depth in the through-holes before first/second conductive vias are plated onto the first through-hole and before third/fourth conductive vias are plated onto the second through-hole. The depth of these PTH plugs is controlled (e.g., using a photomask and/or variable laser power) to prevent the conductive vias from extending substantially beyond their respective internal conductive traces, thereby horizontally spitting the two conductive vias plated onto each of the through-holes. This advantageously increases wiring density up to 2×. | 02-25-2010 |
20110239790 | PIEZOELECTRIC CHROMIC IMPACT SENSOR - An impact sensor includes a piezoelectric transducer operatively connected to a chromic device. The chromic device includes a chromic material that changes from a first color state to a second color state in response to electric power generated by the piezoelectric transducer when exposed to a given level of impact force. The chromic material is bistable so that the chromic material remains in the second color state for a significant amount of time. An impact force to which the sensor has been subjected may be quantified by observing the chromic device. In one embodiment, the chromic material is an electrochromic material, such as a viologen, that changes through a color gradient of light transmission states from the first color state to the second color state. A printed color gradient may be used to aid in quantifying the impact force. In another embodiment, the chromic device includes a thermochromic material. | 10-06-2011 |
20120122342 | IMPLEMENTING IMPEDANCE GRADIENT CONNECTOR FOR BOARD-TO-BOARD APPLICATIONS - A method and connector housing are provided for implementing an impedance gradient connector for board-to-board applications. The impedance gradient connector housing includes a plurality of impedance zones with a first impedance zone including a first mating face with a first Printed Circuit Board (PCB) and with a second impedance zone including a second mating face with a second PCB. Each of the respective predefined impedance zones including the first mating face and the second mating face include a selected impedance to minimize impedance mismatch with associated PCBs. | 05-17-2012 |
20120211273 | VIA STUB ELIMINATION - An enhanced mechanism is disclosed for via stub elimination in printed wiring boards (PWBs) and other substrates. In one embodiment, the substrate includes a plurality of insulator layers and internal conductive traces. First and second through-holes extend completely through the substrate and respectively pass through first and second ones of the internal conductive traces, which are at different depths within the substrate. Photolithographic techniques are used to generate plated-through-hole (PTH) plugs of controlled, variable depth in the through-holes before first and second conductive vias are respectively plated onto the first and second through-holes. The depth of these PTH plugs is controlled (e.g., using a photomask and/or variable laser power) to prevent the first and second conductive vias from extending substantially beyond the first and second internal conductive traces, respectively, and thereby prevent via stubs from being formed in the first place. | 08-23-2012 |
20140242349 | METHOD AND SYSTEM FOR ALLIGNMENT OF GRAPHITE NANOFIBERS FOR ENHANCED THERMAL INTERFACE MATERIAL PERFORMANCE - The exemplary embodiments of the present invention provide an apparatus and a thermal interface material with aligned graphite nanofibers in the thermal interface material to enhance the thermal interface material performance. The thermal interface material having a thickness between a first surface and a second surface opposite the first surface. The comprising thermal interface material includes a plurality of carbon nanofibers (CNFs), wherein a majority of the CNFs are oriented orthogonal to a plane of the first surface. The apparatus includes the thermal interface material, and a first object having a third surface; and a second object having a fourth surface; wherein the thermal interface material is sandwiched between the third surface and the fourth surface. | 08-28-2014 |