Patent application number | Description | Published |
20090090229 | METHOD AND APPARATUS FOR CONTROLLING SIZE AND ALIGNMENT OF PRECISION GROUND PLATES - An apparatus for maintaining alignment between precision ground plates includes a first plate including a main body portion having plurality of passages. The first plate also includes a first heating device mounted to heat the main body portion to a selected temperature. A second plate including a main body portion having a plurality of passages is positioned adjacent the first plate. The second plate includes a second heating device mounted to heat the main body portion to a selected temperature. A controller operatively connected to the first and second heating devices selectively establishes a desired temperature in each of the first and second plates to facilitate a desired alignment between the plurality of passages in the first plate and the plurality of passages in the second plate. | 04-09-2009 |
20090111299 | Surface Mount Array Connector Leads Planarization Using Solder Reflow Method - A connector and method for making wherein the connector has a connector body, connector leads extending from the connector body for solder connection to an electronic circuit wherein the connector leads do not extend a uniform distance from the body connector body. A solder paste is formed on each connector lead by stenciling it onto a flat plate that is non-wettable to the solder paste. The solder paste is composed of first solder particles having a first lower melting point and second solder particles having a second higher melting point. The solder paste is heated to the first melting point for adhering the solder paste to the connector leads while planarizing the solder covered electrical leads with the flat plate. The connector leads are soldered to an electrical circuit by removing the flat plate and heating the solder paste to the second higher melting point. | 04-30-2009 |
20090215289 | LARGE ARRAY SURFACE MOUNT TECHNOLOGY CONNECTOR CRADLE ASSEMBLY - A large array connector assembly for containing a plurality of wafers is disclosed. The large array connector assembly includes a plurality of guide blocks that includes first and second guide blocks. The first guide block being located at a first end of the assembly. The second guide block being located at a second end of the assembly. A first plate is mechanically coupled to a first portion of the first guide block and a first portion of the second guide block. The first plate includes a plurality of slots each for receiving a tab extending from a corresponding wafer so as to substantially prevent movement of the corresponding wafer in first and second directions while allowing a given degree of movement in a third direction. A second plate is mechanically coupled to a second portion of the first guide block and a second portion of the second guide block. | 08-27-2009 |
20090238235 | METHOD AND APPARATUS FOR DEFECT DETECTION IN A COLD PLATE - Method and apparatus are provided for detecting a defect in a cold plate, configured for cooling an electronics component. The method includes: establishing a first fluid flow through the cold plate, the first fluid flow being at a first temperature; impinging a second fluid flow onto the interface surface, the second fluid flow being at a second temperature, the first temperature and the second temperature being different temperatures; obtaining an isotherm mapping of the interface surface of the cold plate while the first fluid flow passes through the cold plate and the second fluid flow impinges onto the interface surface; and using the isotherm mapping to determine whether the cold plate has a defect. In one embodiment, an infrared-transparent manifold is employed in impinging the second fluid flow onto the interface surface, and the isotherm mapping of the interface surface is obtained through the infrared-transparent manifold. | 09-24-2009 |
20100269334 | ELECTRONIC COMPONENT FOR AN ELECTRONIC CARRIER SUBSTRATE - Disclosed are an electronic component, an assembly of an electronic component and an electronic carrier substrate, and a method of connecting the electronic component to the carrier substrate. The carrier substrate has a first coefficient of thermal expansion (CTE), and the electronic component has a second CTE. The assembly further comprises a conductive material on the carrier substrate for connecting the electronic component to the carrier substrate, and the electrical component is connected to the carrier substrate by heating and then cooling this conductive material. The electronic component includes an expansion joint to allow the electronic component to expand and contract relative to the carrier substrate during the heating and cooling of the conductive material. | 10-28-2010 |
20160084257 | AIR-MOVING ASSEMBLIES WITH FLYWHEELS - Apparatuses and methods are provided for facilitating air-cooling of, for instance, one or more electronics racks within a data center. The apparatus includes an air-moving assembly and one or more flywheels. The air-moving assembly includes a shaft, one or more mechanical fans coupled to the shaft to rotate, at least in part, with the shaft, and a motor coupled to the shaft to rotatably drive the shaft. The flywheel(s) is sized and coupled to the shaft of the air-moving assembly to store rotational energy, and to facilitate, for a specified period of time, continued rotation of the shaft during interruption in power to the motor. In one implementation, the flywheel(s) is sized and coupled to the shaft to facilitate, for the specified time period, continued rotation of the shaft at a specified percentage, or greater, rotational speed of the shaft compared with shaft speed when rotatably driven by the motor. | 03-24-2016 |
20160088764 | AIR-MOVING ASSEMBLIES WITH FLYWHEELS - Apparatuses and methods are provided for facilitating air-cooling of, for instance, one or more electronics racks within a data center. The apparatus includes an air-moving assembly and one or more flywheels. The air-moving assembly includes a shaft, one or more mechanical fans coupled to the shaft to rotate, at least in part, with the shaft, and a motor coupled to the shaft to rotatably drive the shaft. The flywheel(s) is sized and coupled to the shaft of the air-moving assembly to store rotational energy, and to facilitate, for a specified period of time, continued rotation of the shaft during interruption in power to the motor. In one implementation, the flywheel(s) is sized and coupled to the shaft to facilitate, for the specified time period, continued rotation of the shaft at a specified percentage, or greater, rotational speed of the shaft compared with shaft speed when rotatably driven by the motor. | 03-24-2016 |