Patent application number | Description | Published |
20080218967 | Real Time Adaptive Active Fluid Flow Cooling - The present invention is generally directed to an apparatus providing real time adaptive active fluid flow cooling, for cooling an electronic system, an electronic system utilizing the same, and a method for providing real time adaptive active fluid flow cooling. The electronic system consists of a circuit board having a heat generating component, a heat dissipating element mounted to the heat generating component and an apparatus for providing real time adaptive active flow cooling. The apparatus consisting of a plurality of active cooling devices that remove heated air or fluid with ambient air or fluid by propelling an fluid flow stream in a first direction toward the heat dissipating element, and where at least one active cooling device contained in the plurality of active cooling devices propels an fluid flow stream in a second direction toward the heat dissipating element. | 09-11-2008 |
20080225481 | Real Time Adaptive Active Fluid Flow Cooling - The present invention is generally directed to an apparatus providing real time adaptive active fluid flow cooling, for cooling an electronic system, an electronic system utilizing the same, and a method for providing real time adaptive active fluid flow cooling. The electronic system consists of a circuit board having a heat generating component, a heat dissipating element mounted to the heat generating component and an apparatus for providing real time adaptive active flow cooling. The apparatus consisting of a plurality of active cooling devices that remove heated air or fluid with ambient air or fluid by propelling an fluid flow stream in a first direction toward the heat dissipating element, and where at least one active cooling device contained in the plurality of active cooling devices propels an fluid flow stream in a second direction toward the heat dissipating element. | 09-18-2008 |
20090087188 | Compact Optical Transceivers Including Thermal Distributing and Electromagnetic Shielding Systems and Methods Therefor - An optical transceiver includes structures that define an electrical connector port for allowing connection of an electrical connector to an optical subassembly of the transceiver, and structures that define a vent surrounding at least portions of the connector port, whereby the vent allows bidirectional passage of air therethrough. Included in the transceiver are structures that define electromagnetic interference shielding and selectively transfer heat of heat generating electronic components by conduction to a transceiver housing. Methods of cooling the transceiver by ventilation and internal heat conduction are present. | 04-02-2009 |
20090109611 | METHOD AND COMPUTER SYSTEM WITH ANTI-TAMPER CAPABILITY AND THERMAL PACKAGING STRUCTURE FOR IMPLEMENTING ENHANCED HEAT REMOVAL FROM PROCESSOR CIRCUITRY - A method and computer processor system with anti-tamper capability and thermal packaging structure for implementing enhanced heat removal from processor circuitry, such as, a high-performance cell processor complex, and a design structure on which the subject circuit resides are provided. The computer system includes predefined processor circuits including anti-tamper logic. A volume container substantially contains the predefined processor circuits including the anti-tamper logic. A heat spreader is provided with the predefined processor circuits within the volume container. An external heatsink structure is attached to an outside cover above the volume container. The heatsink structure includes a heatsink base and a plurality of parallel fins extending outwardly from the heatsink base. A heat pipe extending through a folded mesh is attached to the heat spreader within the volume container and is attached to the external heatsink base providing an effective heat removal path for the processor circuits. | 04-30-2009 |
20090147464 | Ventilation Assembly for Computer Hardware Systems - An assembly for dissipating heat generated by electronic components which include a ventilating panel having a plurality of vent holes arranged thereon. More specifically, the perforation pattern of vent holes is staggered to provide adjacent larger and smaller vent holes in at least two rows of vent holes. A second row of vent holes is staggered with respect to the first row of vent holes such that the larger vent holes are aligned with smaller vent holes, preferably in a ratio of two smaller vent holes per one larger vent hole. Such a perforation arrangement of vent holes may be provided on a blindswap cassette for securing and aligning computer cards for mounting in a housing, such as a sled for use in computer systems. | 06-11-2009 |
20100254089 | Cooling System for Electronic Components - Embodiments of the present invention provide for non interruptive fluid cooling of an electronic enclosure. One or more electronic component packages may be removable from a circuit card having a fluid flow system. When installed, the electronic component packages are coincident to and in a thermal relationship with the fluid flow system. If a particular electronic component package becomes non-functional, it may be removed from the electronic enclosure without affecting either the fluid flow system or other neighboring electronic component packages. | 10-07-2010 |
20110228475 | ENCLOSURE WITH CONCURRENTLY MAINTAINABLE FIELD REPLACEABLE UNITS - An electronic system enclosure including cooling units to regulate temperature of electrical components therein. In one embodiment, the electronic system enclosure includes field replaceable units which facilitate concurrent maintenance. In this embodiment, air pressure within the electronic system enclosure is maintained while a field replaceable unit is removed. Also in this embodiment, cooling of the remaining electrical components of the electronic system enclosure is continued during removal of a field replaceable unit. | 09-22-2011 |
20130176679 | Cooling System for Electronic Components - Embodiments of the present invention provide for non interruptive fluid cooling of an electronic enclosure. One or more electronic component packages may be removable from a circuit card having a fluid flow system. When installed, the electronic component packages are coincident to and in a thermal relationship with the fluid flow system. If a particular electronic component package becomes non-functional, it may be removed from the electronic enclosure without affecting either the fluid flow system or other neighboring electronic component packages. | 07-11-2013 |