Patent application number | Description | Published |
20080205023 | ELECTRONIC COMPONENTS ON TRENCHED SUBSTRATES AND METHOD OF FORMING SAME - A method of mounting an electronic component on a substrate includes forming at least one trench in a surface of the substrate. The trenches formed in the substrate reduce a stiffness of the substrate, which provides less resistance to shear. Accordingly, the trenches reduce the amount of strain on the joints, which mount the electronic component to the substrate, which enhances the life of the joints. | 08-28-2008 |
20080218990 | ELECTRONIC COMPONENTS ON TRENCHED SUBSTRATES AND METHOD OF FORMING SAME - A method of mounting an electronic component on a substrate includes forming at least one trench in a surface of the substrate. The trenches formed in the substrate reduce a stiffness of the substrate, which provides less resistance to shear. Accordingly, the trenches reduce the amount of strain on the joints, which mount the electronic component to the substrate, which enhances the life of the joints. | 09-11-2008 |
20080225484 | THERMAL PILLOW - Methods, apparatus and assemblies for enhancing heat transfer in electronic components using a flexible thermal pillow. The flexible thermal pillow has a thermally conductive material sealed between top and bottom conductive layers, with the bottom layer having a flexible reservoir residing on opposing sides of a central portion of the pillow that has a gap. The pillow may have roughened internal surfaces to increase an internal surface area within the pillow for enhanced heat dissipation. In an electronic assembly, the central portion of the pillow resides between a heat sink and heat-generating component for the thermal coupling there-between. During thermal cycling, the flexible reservoir of the pillow expands to retain thermally conductive material extruded from the gap, and then contracts to force such extruded material back into the gap. An external pressure source may contact the pillow for further forcing the extruded thermally conductive material back into the gap. | 09-18-2008 |
20080226875 | ELECTRONIC COMPONENTS ON TRENCHED SUBSTRATES AND METHOD OF FORMING SAME - A method of mounting an electronic component on a substrate includes forming at least one trench in a surface of the substrate. The trenches formed in the substrate reduce a stiffness of the substrate, which provides less resistance to shear. Accordingly, the trenches reduce the amount of strain on the joints, which mount the electronic component to the substrate, which enhances the life of the joints. | 09-18-2008 |
20100049466 | Tracking Thermal Mini-Cycle Stress - Monitoring temperature excursions an assembly experiences over a life of the assembly is provided. A determination is made as to whether the assembly has been in service beyond a predetermined end of life objective. Responsive to the assembly failing to be in service beyond the predetermined end of life objective, a new temperature value associated with the assembly is read. A modifier value for a figure of merit (FOM) value is computed and added to a cumulative figure of merit value. The cumulative figure of merit value is compared to a cumulative stress figure of merit budget. Responsive to the cumulative figure of merit value exceeding the cumulative stress figure of merit budget, an identified stress management solution is implemented. | 02-25-2010 |
20100049995 | Enhanced Thermal Management for Improved Module Reliability - Mitigating effects of delamination of components in the data processing system is provided. A signal is received from one or more sensors in the data processing system. A determination is made as to whether the signal indicates that one threshold in a plurality of thresholds has been reached or exceeded. Responsive to the signal indicating that one threshold in the plurality of thresholds has been reached or exceeded, a determination is made as to whether the one threshold is a low temperature threshold or a high temperature threshold. Responsive to the one threshold being a low temperature threshold, one of a plurality of actions is initiated to increase a temperature of the data processing system thereby mitigating effects of delamination of the components in the data processing system. | 02-25-2010 |
20100181665 | System and Method of Achieving Mechanical and Thermal Stability in a Multi-Chip Package - A system and method system for achieving mechanical and thermal stability in a multi-chip package. The system utilizes a lid and multiple thermal interface materials. The method includes utilizing a lid on a multi-chip package and utilizing multiple thermal interface materials on the multi-chip package. | 07-22-2010 |
20100276784 | ELECTRONIC COMPONENTS ON TRENCHED SUBSTRATES AND METHOD OF FORMING SAME - An electronic module including a substrate having at least one structure that reduces stress flow through the substrate, wherein the structure comprises at least one trench in a surface of the substrate. | 11-04-2010 |
20110121469 | PASSIVATION LAYER SURFACE TOPOGRAPHY MODIFICATIONS FOR IMPROVED INTEGRITY IN PACKAGED ASSEMBLIES - A structure and method for producing the same is disclosed. The structure includes an organic passivation layer with solids suspended therein. Preferential etch to remove a portion of the organic material and expose portions of such solids creates enhanced surface roughness, which provides a significant advantage with respect to adhesion of that passivation layer to the packaging underfill material. | 05-26-2011 |
20120175766 | SYSTEM AND METHOD OF ACHIEVING MECHANICAL AND THERMAL STABILITY IN A MULTI-CHIP PACKAGE - A system and method system for achieving mechanical and thermal stability in a multi-chip package. The system utilizes a lid and multiple thermal interface materials. The method includes utilizing a lid on a multi-chip package and utilizing multiple thermal interface materials on the multi-chip package. | 07-12-2012 |
20120228748 | PASSIVATION LAYER SURFACE TOPOGRAPHY MODIFICATIONS FOR IMPROVED INTEGRITY IN PACKAGED ASSEMBLIES - A structure and method for producing the same is disclosed. The structure includes an organic passivation layer with solids suspended therein. Preferential etch to remove a portion of the organic material and expose portions of such solids creates enhanced surface roughness, which provides a significant advantage with respect to adhesion of that passivation layer to the packaging underfill material. | 09-13-2012 |
20130123159 | AQUEOUS CERIUM-CONTAINING SOLUTION HAVING AN EXTENDED BATH LIFETIME FOR REMOVING MASK MATERIAL - An aqueous solution of a cerium (IV) complex or salt having an extended lifetime is provided. In one embodiment, the extended lifetime is achieved by adding at least one booster additive to an aqueous solution of the cerium (IV) complex or salt. In another embodiment, the extended lifetime is achieved by providing an aqueous solution of a cerium (IV) complex or salt and a cerium (III) complex or salt. The cerium (III) complex or salt can be added or it can be generated in-situ by introducing a reducing agent into the aqueous solution of the cerium (IV) complex or salt. The aqueous solution can be used to remove a mask material, especially an ion implanted and patterned photoresist, from a surface of a semiconductor substrate. | 05-16-2013 |
20140151849 | ELECTRONIC COMPONENTS ON TRENCHED SUBSTRATES AND METHOD OF FORMING SAME - An electronic module includes a substrate including at least one structure that reduces stress flow through the substrate, wherein the structure includes at least one trench in a surface of the substrate, and a plurality of capacitor legs disposed on an upper surface of the substrate. | 06-05-2014 |