Patent application number | Description | Published |
20090152216 | RACK SYSTEM PROVIDING FLEXIBLE CONFIGURATION OF COMPUTER SYSTEMS WITH FRONT ACCESS - A system for receiving and supporting a plurality of devices connected to a network. The system comprises a rack having a front side providing access to a plurality of chassis bays for receiving a chassis and aligning a back end of the chassis for blind docking with an electrical power source. The chassis includes a power supply, a fan, and a front side providing access to a plurality of module bays for receiving a module and aligning a back end of the module for blind docking with the power supply. A compute module is received in a module bay and directly blind docked to the power supply. The system further includes at least one other module received in a module bay within the same chassis as the compute module and directly blind docked with the same power supply along with the compute module. The at least one other module is interchangeably selected from the group consisting of a second compute module and an expansion module, wherein the one or more components of the expansion module are controlled by the motherboard of the compute module within the same chassis. | 06-18-2009 |
20090213544 | VARIABLE POSITION DAMPERS FOR CONTROLLING AIR FLOW TO MULTIPLE MODULES IN A COMMON CHASSIS - An apparatus comprising a chassis providing a plurality of module bays, one or more modules received in the module bays, wherein each module has at least one damper actuator extending from a distal end of the module. A fan assembly and a plurality of air flow dampers are secured in a distal end of the chassis, wherein each damper is aligned with one module bay to control air flow through the aligned module bay. Each damper is biased to close in the absence of contact with a damper actuator and opens in response to contact with a damper actuator. Each damper opens to a variable extent determined by the profile of the contacting damper actuator. The damper actuator of a particular module has a profile corresponding to the thermal load of that module, such that installing a module into the chassis automatically opens the aligned damper to the desired extent. | 08-27-2009 |
20090256512 | PLURALITY OF CONFIGURABLE INDEPENDENT COMPUTE NODES SHARING A FAN ASSEMBLY - A system comprising a chassis that includes a plurality of modules and a fan assembly disposed in a distal end of the chassis for drawing air in parallel pathways through the plurality of modules. At least one of the modules is a compute module having a thermal sensor disposed to sense the temperature of air flowing across a processor mounted on a motherboard. The system further comprises a fan controller receiving output from the thermal sensor, wherein the fan controller operates the fan assembly to cool the plurality of modules and maintain the thermal sensor output within an operating temperature range. The fan controller controls the fan speed according to predetermined thermal profile settings associated with one of the compute modules received in the chassis. For example, the predetermined thermal profile settings may include a minimum fan speed, a maximum fan speed, and control loop feedback settings. | 10-15-2009 |
20090260870 | Adapter Card Electromagnetic Compatibility Shielding - An electromagnetic shield comprising an electrically conductive frame for establishing electrical contact between a chassis wall and an expansion card mounting bracket. The frame has a plurality of spring fingers interconnected about a perimeter of a central opening in the frame, wherein each spring finger defines a central axis that extends outwardly away from the central opening. The frame may include a substantially planar portion adjacent the central opening in the frame, wherein the plurality of spring fingers incline along the central axis to extend out of the plane defined by the substantially planar portion. The incline of the spring fingers allows a mounting bracket to slide laterally without jamming against the side of a spring finger during installation, removal or side-to-side shifting of the mounting plate. | 10-22-2009 |
20090261051 | Toolless Rail Mounting For A Computer System Rack - A rack for supporting electronic devices and modules with adjustable rails. The rack has a vertical wall with a set of holes at various elevations, each set of holes including at least a proximal hole evenly spaced apart from a distal hole. A longitudinally-extending rail has a set of clips for selectively securing the rail to the vertical wall, wherein the set of clips includes at least a proximal clip selectively receivable in the proximal hole at a selected elevation for supporting a proximal end of the rail and a distal clip selectively receivable in the distal hole at the selected elevation for supporting a distal end of the rail. The system may include a second rail for securing to an opposing vertical wall of the rack to form a shelf or bay for an electronic device. Each rail may be latched in place and can be selectively installed and removed without use of tools. | 10-22-2009 |
20090261211 | Cable Management System - A cable management system for a rack-mounted electronic system including an elongate cable guide plate securable to a rack and having opposing first and second, longitudinally-extending flanges. An array of cable alignment tabs are disposed on the cable guide plate between the opposing flanges and arranged in longitudinally-oriented columns and laterally-oriented rows. Adjacent columns are sufficiently spaced to receive two or more cables against the cable guide plate and adjacent rows are sufficiently spaced to receive one or more cables. Each of a plurality of cable-fastening straps are configured for being selectively secured across the cable guide plate from the first flange to the opposing second flange. | 10-22-2009 |
20090261214 | Securing And Managing Electronic Cables In A Modular, Rack-Mounted Computer System - A cable clamp has a first clamp member secured to the chassis or to the rack adjacent to one of the module bays and a second clamp member movably secured to the first clamp member. The first clamp member defines a first clamp surface and the second clamp member defines a second clamp surface facing the first clamp surface. An elastic material is secured to a surface of one or both of the first and second clamp surfaces. The second clamp member is movable away from the first clamp member for receiving the one or more electronic cables between the first and second clamp surfaces. A biasing member biases the second clamp member toward the first clamp member sufficient to compress and frictionally engage the elastic material with the one or more electronic cables. | 10-22-2009 |
20090262497 | Duct System For High Power Adapter Cards - Method and apparatus for substantially preventing recirculation of heated air from an exhaust outlet of an expansion card to an air inlet of the expansion card, wherein the air inlet and exhaust outlet are both on the same end of the chassis. The apparatus comprises a chassis with a chassis fan, a motherboard within the chassis having an expansion card connector, and an expansion card in communication with the expansion card connector and secured to the front end of the chassis. The expansion card also includes a card fan configured to move cooling air through the air inlet to the exhaust outlet. An air duct redirects the hot air from the exhaust outlet to prevent recirculation into the expansion card and causes the heated air to exit through the chassis fan. The air duct may include a longitudinal segment through a computer module and a lateral segment selectively securable over the exhaust outlet. | 10-22-2009 |
20090263992 | Blind Docking Electrical Connector - Method and apparatus for blind docking an electronic device or module with an electrical connector, for example within a rack for a computer system. A forwardly-directed power connector is secured to a distal end of at least one rail or shelf bracket for blind docking with a rearwardly-directed power connector on the electronic module. The shelf bracket securing the forwardly-directed electrical connector is included in a pair of longitudinally-extending shelf brackets secured to opposing vertical side walls of a rack at a common elevation to form a module bay. The electronic module may slide along the shelf bracket until a rearwardly-directed power connector of the electronic module blind docks with the forwardly-directed power connector. A boss or alignment stud may be included on the bracket to improve alignment of the connectors. The forwardly-direct electrical connector may also be secured to the bracket with a floating connection to enable minor adjustments in alignment during blind docking. | 10-22-2009 |