Patent application number | Description | Published |
20100079936 | TOOL-LESS BACKPLANE RETENTION FOR COMPUTER HARDWARE - An apparatus is provided and includes a housing, including a housing mating device, through which an installation path for an assembly is defined with a space in which a first part is positioned, a backplane body having opposing faces on which a second part and a backplane mating device are respectively disposed, and a hub, in which a hub mating device is defined, and from which a two-stage mating device extends, the two-stage mating device including first and second elastically coupled stages. The hub and the backplane body are coupled to form the assembly and the assembly is installed/removed in/from the space with the second stage of the two-stage mating device elastically hooked by the housing mating device or released from the housing mating device and the first and second stages of the two-stage mating device biasing the hub and the backplane body to remain coupled. | 04-01-2010 |
20110157829 | Container-based data center having greater rack density - A container includes first and second long sides parallel to the container's length. Racks are organized in rows parallel to the container's width. Each rack is receptive to installation of equipment along a height of the data rack parallel to the container's height. Openings are defined within the first and/or second long sides of the container. Heat exchangers may be installed, where each exchanger is installed on a rack to cool air exhausted by any equipment installed on this rack. Each row may include as many of the racks positioned side-to-side, length-wise, and parallel to the width of the container as can fit within the container. The racks of each row may be slidable in unison back and forth along the length of the container, between a first position at which the racks block an opening and a second position at which the racks block another opening. | 06-30-2011 |
20120009810 | DUAL FORCE SINGLE POINT ACTUATION INTEGRATED LOAD MECHANISM FOR SECURING A COMPUTER PROCESSOR TO A SOCKET - A dual force single point actuation integrated load mechanism for securing a computer processor to a socket, the dual force single point actuation integrated load mechanism including a base mounted around the socket; and a load plate rotatably coupled to the base and secured to the base when an activate lever and a hinge lever are secured above the load plate. | 01-12-2012 |
20120075806 | Container-based data center having greater rack density - A container includes first and second long sides parallel to the container's length. Racks are organized in rows parallel to the container's width. Each rack is receptive to installation of equipment along a height of the data rack parallel to the container's height. Openings are defined within the first and/or second long sides of the container. Heat exchangers may be installed, where each exchanger is installed on a rack to cool air exhausted by any equipment installed on this rack. Each row may include as many of the racks positioned side-to-side, length-wise, and parallel to the width of the container as can fit within the container. The racks of each row may be slidable in unison back and forth along the length of the container, between a first position at which the racks block an opening and a second position at which the racks block another opening. | 03-29-2012 |
20120214347 | Edge Connector That Accommodates Printed Circuit Boards Of Varying Thickness - An edge connector is provided that accommodates printed circuit boards (PCB) of varying thickness. Embodiments include a body; a set of card connector engagement pins coupled to the body, the set of card connector engagement pins coupling with a circuit card connector; and the set of PCB engagement pins coupled to the body, the set of PCB engagement pins receiving contact pads of the PCB, wherein each PCB engagement pin includes a contact point that slopes away from the body of the edge connector, wherein the contact point of each PCB engagement pin slopes in an opposite direction from the contact point of the other PCB engagement pin in the set, wherein each PCB engagement pin is flexible inward toward the body of the edge connector. | 08-23-2012 |
20120228016 | Pin That Inserts Into A Circuit Board Hole - A pin and a method of establishing contact between a pin and plating of a circuit board hole is provided. Embodiments include a pin comprising a pair of outwardly biased flexible beams that each extend from a body of the pin, the flexible beams connected at one end to one another at the body of the pin and separated from each other at an end opposite the end connected to the body, the separation between the pair of flexible beams forming an open slot, each flexible beam including a contact point that contacts the plating of the hole when the pin is inserted into the circuit board hole. | 09-13-2012 |
20120255153 | TOOL-LESS BACKPLANE RETENTION FOR COMPUTER HARDWARE - An apparatus is provided and includes a housing, including a housing mating device, through which an installation path for an assembly is defined with a space in which a first part is positioned, a backplane body having opposing faces on which a second part and a backplane mating device are respectively disposed, and a hub, in which a hub mating device is defined, and from which a two-stage mating device extends, the two-stage mating device including first and second elastically coupled stages. The hub and the backplane body are coupled to form the assembly and the assembly is installed/removed in/from the space with the second stage of the two-stage mating device elastically hooked by the housing mating device or released from the housing mating device and the first and second stages of the two-stage mating device biasing the hub and the backplane body to remain coupled. | 10-11-2012 |
20120267154 | Low Resistance, Multi-Contact Point Pin - A low resistance, multi-contact point pin, configured for insertion into a pin receptacle having an electrically conductive plating, where the pin includes: a surface and more than one electrically conductive extrusion from the surface of the pin, with each extrusion extruding substantially orthogonal to a direction of insertion of the pin into the pin receptacle, and where the extrusions configured to electrically couple, with parallel resistance, the pin to the electrically conductive plating of the pin receptacle. | 10-25-2012 |
20120293952 | HEAT TRANSFER APPARATUS - An apparatus is provided to remove heat from a heat-generating component of a computer, such as a processor. The apparatus comprises a first heat sink having a plurality of leader fins, wherein the first heat sink is thermo-conductively coupled to a heat-generating component that is coupled to a first portion of a chassis; and a second heat sink having a plurality of follower fins, wherein the second heat sink is thermo-conductively coupled to a second portion of the chassis, and wherein the plurality of follower fins are disposed in an interlaced configuration with the plurality of follower fins to promote radiative heat transfer from the leader fins to the follower fins. Optionally, one or more alignment structures may be used to facilitate the relative movement of the first and second chassis portions into an operative position in which the leader and follower fins are in the interlaced configuration. The apparatus may be used to remove heat from a heat-generating component in a closed system with little or no limited air flow. | 11-22-2012 |
20130033833 | LAND GRID ARRAY INTERCONNECT FORMED WITH DISCRETE PADS - A land grid array (LGA) and a method of forming the LGA are disclosed. The method comprises plating a printed circuit board to form a grid array of copper pads, and soldering a discrete pad over each of the plated copper pads in the grid array. The discrete pad is a solid object that can be handled and positioned independent of other discrete pads. Optionally, the method may further comprise measuring variations in flatness of the printed circuit board as a function of location in the grid array, and selecting individual discrete pads that each have a thickness selected for use at a particular location in the grid array so that the discrete pads provide a locus of exposed surfaces having greater flatness than the printed circuit board. | 02-07-2013 |
20130288504 | MEMORY MODULE CONNECTOR WITH LATCH ASSIST - A memory module connector includes a dynamically-assisted latch that facilitates connecting and releasing a memory module. The latch includes a lever pivotably coupled to the connector for urging the memory module into and out of a fully seated position within the connector. The lever provides a mechanical advantage for lowering and raising the memory module. A latch assist member urges the latch into engagement with the memory module in response to an insertion of the memory module, and dynamically positions the lever in response to movement of the memory module within the connector. | 10-31-2013 |
20140098480 | MEMORY MODULE CONNECTOR WITH AUXILIARY POWER CABLE - A memory module includes persistent-storage memory chips and an auxiliary voltage connector for powering the persistent-storage memory chips. An auxiliary power cable has a first end coupled to an electronic power source on the system board and has a second end having connector that plugs in to the auxiliary voltage connector on the memory module to provide power to the persistent-storage memory chips. The auxiliary power cable also resists movement of a latch lever to require disconnecting the auxiliary power cable before ejecting the memory module. | 04-10-2014 |
20140099815 | MEMORY MODULE CONNECTOR WITH AUXILIARY POWER - An apparatus includes a socket that receives a memory module that includes a card having card edge voltage pads along the lower card edge, auxiliary voltage pads along at least one of the vertical card edges, and one or more persistent, solid-state memory chips on one or both card faces. A latch pivotally coupled to the socket is movable between a latched position and an unlatched position. The latch includes electrical latch contacts positioned for being engaged with the auxiliary voltage pads when that latch is in the latched position and being disengaged from the auxiliary voltage pads when the latch is in the unlatched position. The electrical latch contacts may provide a different voltage to the auxiliary voltage pads than the socket provides to the card edge voltage pads along the lower card edge. | 04-10-2014 |
20140153194 | MEMORY MODULE SOCKET WITH TERMINATING APPARATUS - A memory module socket and a terminating resistor assembly. The terminating resistor assembly provides an elongate conductive bus bar and a plurality of conductive branches, wherein each conductive branch is in electronic communication with the elongate conductive bus bar through a resistor, wherein each conductive branch has a distal end disposed for contacting a signal pin within a memory module socket installed on a printed circuit board. A distal end of each conductive branch is inserted into a window on the connector shoulder adjacent to the slot of an empty memory module socket and engages a plurality of signal pins within the socket in response to the absence of a memory module in the slot. The plurality of signal pins engage contact pads on the memory module and are pushed out of contact with the conductive branch in response to the presence of a memory module in the slot. | 06-05-2014 |
20140326491 | LAND GRID ARRAY INTERCONNECT FORMED WITH DISCRETE PADS - A land grid array (LGA) includes a grid array of metal pads plated directly onto a printed circuit board, and a discrete metal pad soldered to each of the plated metal pads in the grid array. Each discrete metal pad has an exposed contact surface after soldering, and a thickness of each discrete metal pad is selected as a function of location in the grid array so that the discrete pads provide a locus of exposed surfaces having greater flatness than the printed circuit board. | 11-06-2014 |
20150022990 | VERTICAL BLINDMATE SCALING OF IDENTICAL SYSTEM BOARDS - Two system boards may be connected by a blind plug connector assembly. The top system board supports a first connector and has a hole adjacent the first connector that secures a guide bracket. The blind plug connector assembly is selectively received in the guide bracket to position a proximal connector on the assembly for connecting to the first connector on the top system board and position a distal connector on the assembly for connecting to a second connector on the lower system board. A flexible wired connection extends within the assembly between the proximal connector and the distal connector, and may form a scalability cable. The interaction between the assembly and the guide bracket provide alignment of the connectors. | 01-22-2015 |
Patent application number | Description | Published |
20090042431 | REMOTE BLIND MATE CONNECTOR RELEASE SYSTEM FOR A SCALABLE DEEP PLUG CABLE - A cable trough comprising a rigid trough securing a cable that terminates with a cable connector plug. The cable connector plug has a connector latch operable with a pull tab for selectively latching the cable connector plug to a blind mate connector inside an electronic device. The trough secures the connector plug in axial alignment with the trough and includes a release lever pivotally coupled to the proximal end of the trough. An elongate wire extends within the trough and is coupled between the release lever and the pull tab. Accordingly, the rigid trough may be directed into a guide passage aligned with the blind mate connector for coupling and latching of the connector plug to the blind mate connector. The release lever is pivotally operable to pull the wire and actuate the pull tab to release the connector latch. | 02-12-2009 |
20090049685 | METHODS FOR INSERTION AND RETRACTION OF A CONNECTOR - Methods for inserting and/or removing a connector with a remote connector agent are disclosed. Embodiments may include inserting a connector into a remote connector agent to form a remote connector system and pushing the remote connector into a header of a board to insert the connector into the header. Embodiments may also include pulling the remote connector system to retract the remote connector from the header. In some embodiments, inserting the connector into the remote connector agent further comprises pushing back one or more insertion snap pushers to allow insertion of the connector. In some embodiments, pulling the remote connector system further comprises releasing a snap of the connector with a snap release actuator before retracting the remote connector system from the header. | 02-26-2009 |
20090103270 | APPARATUS FOR SECURING HEAT SINKS TO A DEVICE UNDER TEST - Apparatus and method for securing a heat sink to a heat-generating device on a circuit board. The apparatus clamps onto the heating-generating device and the circuit board in a manner that avoids bending of the circuit board. The apparatus includes a retention module having a plurality of retention features that extend through openings in the circuit board disposed about the perimeter of the heat-generating device, such as a processor. The apparatus also includes a heat sink having a heat sink base for contacting the heat-generating device in order to dissipate heat produced by the device. The heat sink is selectively securable to the retention features of the retention module using levers, such as a wire module, having a spring clip to engage the retention features and clamp the heat sink and retention module together. | 04-23-2009 |
20090176399 | Connector with a Dismount Latch Configured to Separate Unlatching From Cable Separation and Method of Release - A connector with a dismount latch configured to separate unlatching from cable separation and method of release. A connector includes a housing having an interconnect end and a rear end, the front end configured for interfacing with a reciprocal connector in a linear motion to engage and disengage the reciprocal connector. A latch is held by the housing, wherein the latch includes support arms extending at the rear end of the housing and engaging ends proximate the interconnect end for maintaining the housing relative to the reciprocal connector when in an engaged position. An actuator is rotatably mounted within support arms of the latch for translating a force transverse to the direction of the linear motion and applying the translated force to the latch to move the engaging ends of the latch. | 07-09-2009 |
20090257872 | Reduced-Impedance Cooling System With Variable Pitch Blade And Hot-Swappable Spare - A method of operating variable pitch fans in series to cool an operating computer system. The method comprises running a first variable pitch fan with blades positioned at an operational pitch to induce airflow through the computer system and through a second variable pitch fan disposed in series with the first fan, and, simultaneously, not running the second variable pitch fan with blades positioned for minimal impedance to the airflow. In response to detecting a failure condition of the first fan, the method includes running the second fan with blades positioned at an operational pitch to induce airflow through the computer system and through the first fan, and, simultaneously, not running the first fan with blades positioned for minimal impedance to the airflow. Preferably, the method includes locking the rotor of a fan that is not running, and locking the blades of the non-running fan in a minimal impedance position. | 10-15-2009 |
20100048037 | TELESCOPIC POWER CONNECTOR - A power supply module configured for removable insertion into a power supply bay of an electronic system. A telescopic power connector disposed within the power supply housing includes a plurality of internal fixed contacts in electrical communication with an electrical socket and a movable member carrying a plurality of elongate sliding contacts in sliding contact with the internal fixed contacts. The movable member is movable generally perpendicular to an insertion direction of the power supply housing. A mechanical actuator is configured for moving the movable member of the telescopic power connector into connection with an external power connector, such as on a motherboard, so that ends of the sliding contacts are moved into electrical connection with terminals on the external power connector while remaining in sliding contact with the internal fixed contacts. | 02-25-2010 |
20100172102 | SOLDERLESS HEATSINK ANCHOR - A heatsink may be releasably secured to a substructure of an electronic system, such as a circuit board, in engagement with a heat-generating component, such as a processor. One embodiment provides an anchor that includes an anchor body, a hook coupled to the anchor body, a pair of flexible retention prongs extending from the anchor body in a common direction and spaced for insertion into openings on a circuit board, an optional pair of stabilization prongs extending from the anchor body adjacent to the flexible retention prongs, each having a width greater than the adjacent flexible retention prong, a barb disposed at the end of each prong and configured for retaining the anchor body on the circuit board upon insertion of the prongs into the openings on the circuit board, a spring integrated with the anchor body and having a free end spaced from the barbs a distance of less than the thickness of the circuit board, and a stop integrated with the anchor body for limiting the amount of insertion of the prongs beyond an initial contact of the free end of the spring with the circuit board. A heatsink clip releasably secures the heatsink to the hook of the anchor. | 07-08-2010 |