Patent application number | Description | Published |
20120081827 | TERMINAL BLOCK FOR SURGE PROTECTION HAVING INTEGRAL DISCONNECT - A terminal block is disclosed that integrates a surge protection base, a disconnect and connection points to provide a Kelvin connection in which a surge protection element is in electrical communication with the ground and the connection points for incoming and outgoing wires. The terminal block includes a terminal body having a terminal body housing. a plurality of conductive elements arranged within the terminal body to create a continuous electrical path therethrough and a disconnect switch integral the terminal body, the switch arranged to open the continuous electrical path and expose a terminal. The terminal body is configured to receive a surge protection element and the surge protection element, when received in the terminal body, forms a portion of the continuous electrical path. | 04-05-2012 |
20120081828 | TERMINAL BLOCK HAVING INTEGRAL DISCONNECT - A terminal block is disclosed that includes a terminal body housing, a plurality of conductive elements arranged within the terminal body to create a continuous electrical path therethrough, and a disconnect switch integral the terminal body, the switch arranged to open the continuous electrical path and expose a terminal. | 04-05-2012 |
20120206848 | PLUGGABLE SURGE PROTECTION SYSTEM - A surge protection system including a pluggable surge protection cartridge and its corresponding base is disclosed. The cartridge includes a housing, a surge protection assembly situated within the housing containing a surge protection element and a plurality of cartridge contacts in electrical contact with the surge protection assembly. The cartridge contacts are configured to engage a base within an electrical load center to carry a surge current from the load center across an electrical path of the surge protection assembly through the surge protection element. The cartridge is configured to be situated within the base such that the cartridge is removable from the base while the base remains in electrical contact with the load center. | 08-16-2012 |
Patent application number | Description | Published |
20090122764 | PHYSICAL LAYER PROCESSING FOR A WIRELESS COMMUNICATION SYSTEM USING CODE DIVISION MULTIPLE ACCESS - The invention includes various embodiments for use in physical layer processing. One embodiment determines the address mapping of bits in the physical channel buffer from the address of bits in the first interleaver buffer. The physical channel buffer addresses are determined corresponding to addresses of the bits after rate matching, bit scrambling, second interleaving and physical channel mapping. The bits are directly read from the first interleaver buffer and written to the physical channel buffer using the determined physical channel buffer addresses. Another embodiment determines the address mapping of bits in the first interleaver buffer from the address of bits in the physical channel buffer. The first interleaver buffer addresses are determined corresponding to addresses of the bits after reverse rate matching, reverse bit scrambling, reverse second interleaving and reverse physical channel mapping. The bits are directly read from the determined first interleaver buffer addresses and written to the physical channel buffer addresses. | 05-14-2009 |
20090158008 | SOFTWARE PARAMETERIZABLE CONTROL BLOCKS FOR USE IN PHYSICAL LAYER PROCESSING - A physical layer transport composite processing system used in a wireless communication system. A plurality of interconnected processing blocks are provided. The blocks are interconnected by a read data bus, a write data bus and a control bus. The blocks include a transport channel processing block, a composite channel processing block and a chip rate processing block. At least two of the blocks are capable of processing data for a plurality of wireless formats. A first set of parameters is programmed into the blocks for a particular wireless mode. The blocks are operated to process data in the particular wireless format mode. | 06-18-2009 |
20100195625 | PHYSICAL LAYER PROCESSING FOR A WIRELESS COMMUNICATION SYSTEM USING CODE DIVISION MULTIPLE ACCESS - An address for data bits is determined by categorizing the bits into a first, second, third and fourth case. The first case is for bits transferred in only one resource unit in a time slot; the second case is for bits transferred in a plurality of downlink resource units; the third case is for bits transferred in an uplink resource unit where a spreading factor of data in a first resource unit is greater than or equal to a spreading factor of a second resource unit; and the fourth case is for bits transferred in an uplink resource unit where a spreading factor of data in a first resource unit is less than a spreading factor of a second resource unit. | 08-05-2010 |
20130208792 | REFERENCE PICTURE SET (RPS) SIGNALING FOR SCALABLE HIGH EFFICIENCY VIDEO CODING (HEVC) - Embodiments contemplate coding video data by generating a video encoded bitstream that may include reference picture set (RPS) extensions for inter-layer reference pictures, and the extensions may include inter-layer delta Picture Order Counts (POCs). Embodiments may also include signaling that lower layer reference pictures may be available in a lower layer decoder picture buffer (DPB), and/or an aggregate DPB, that may be added to the RPS set of a higher layer. The bitstream may include a signal indicating whether the higher layer RPS may be specified by a lower layer RPS, and the lower layer RPS may be temporal, inter-layer prediction (ILP), or both. | 08-15-2013 |
20140010282 | POWER AWARE VIDEO DECODING AND STREAMING - Methods and systems are disclosed for a mobile device to decode video based on available power and/or energy. For example, the mobile device may receive a media description file (MDF) from for a video stream from a video server. The MDF may include complexity information associated with a plurality of video segments. The complexity information may be related to the amount of processing power to be utilized for decoding the segment at the mobile device. The mobile device may determine at least one power metric for the mobile device. The mobile device may determine a first complexity level to be requested for a first video segment based on the complexity information from the MDF and the power metric. The mobile device may dynamically alter the decoding process to save energy based on the detected power/energy level. | 01-09-2014 |
20140010294 | CODEC ARCHITECTURE FOR MULTIPLE LAYER VIDEO CODING - Systems, methods, and instrumentalities are provided to implement video coding system (VCS). The VCS may be configured to receive a video signal, which may include one or more layers (e.g., a base layer (BL) and/or one or more enhancement layers (ELs)). The VCS may be configured to process a BL picture into an inter-layer reference (ILR) picture, e.g., using picture level inter-layer prediction process. The VCS may be configured to select one or both of the processed ILR picture or an enhancement layer (EL) reference picture. The selected reference picture(s) may comprise one of the EL reference picture, or the ILR picture. The VCS may be configured to predict a current EL picture using one or more of the selected ILR picture or the EL reference picture. The VCS may be configured to store the processed ILR picture in an EL decoded picture buffer (DPB). | 01-09-2014 |
Patent application number | Description | Published |
20080200042 | Land grid array module with contact locating features - A land grid array module is provided that includes a land grid array interface. The interface includes a substrate having a mating face. A contact pad is provided on the mating face of the substrate. The contact pad has an exposed surface with a depression that is configured to restrain transverse movement of a mating contact tip when the mating contact tip is loaded against the contact pad. The substrate layer may include a via having a diameter such that the depression is formed in the contact pad when the contact pad is plated over the via. The depression may also be stamped in the exposed surface of the contact pad. Alternatively, the depression may be surrounded by a raised conductive perimeter that is configured to retain the mating contact tip. | 08-21-2008 |
20080293301 | Electrical connector with anti-twist shield - A shielded electrical connector includes an insulative housing having a receptacle therein. A shield is mounted on the housing. The shield has a protrusion formed thereon that is received in the receptacle. The protrusion engages a surface on the housing to minimize relative motion between the shield and the housing. The shield includes a shroud and the protrusion is located on the shroud. The receptacle is located proximate a mating end of the housing. The shield includes a mounting tab for mounting the connector to a panel. | 11-27-2008 |
20090137157 | ELECTRICAL CONNECTOR HAVING SIGNAL AND POWER CONTACTS - An electrical connector includes a dielectric housing having a tongue including an upper surface, a lower surface, and opposite side surfaces. A plurality of signal contacts are held by the housing and are exposed along the upper surface. At least one power contact is held by the housing and is exposed along one of the opposite side surfaces. Optionally, the tongue and signal contacts define an eSATA mating interface configured for mating with a plug of a serial cable defining an eSATA plug interface. | 05-28-2009 |
20100093208 | CONNECTOR SYSTEM HAVING AN ELEVATED UPPER ELECTRICAL CONNECTOR - A connector system includes an upper electrical connector having a housing that defines an open bottomed cavity defining a cavity envelope and that defines a mating interface for a mating connector. The upper electrical connector further has contacts mounted to the housing and extending along the mating interface. The connector system includes a first lower electrical connector mountable to a circuit board that has a first outer envelope adapted for fitting in the cavity envelope, and a second lower electrical connector mountable to a circuit board that has a second outer envelope adapted for fitting in the cavity envelope. The upper electrical connector is separately mountable to the circuit board over each of the first lower electrical connector and the second lower electrical connector. Optionally, the upper electrical connector may be mountable over only one of the first lower electrical connector and the second lower electrical connector at a time | 04-15-2010 |
20100178808 | ELECTRICAL CONNECTOR FOR ELECTRONIC MODULES - An electrical contact includes a body extending along a longitudinal axis. The body includes a mating contact portion for electrical connection with an electronic module, an intermediate portion extending from the mating contact portion, and a mounting contact portion extending from the intermediate portion for electrical connection with a circuit board. The mounting contact portion extends from the intermediate portion at a bend. The mounting contact portion extends from the bend to an end portion. The body also includes a push surface formed when a carrier strip that initially connects the electrical contact to other electrical contacts is separated from the electrical contact. The push surface is offset from the bend along the longitudinal axis in a direction away from the mating contact portion. | 07-15-2010 |
20100311255 | ELECTRICAL CONNECTOR HAVING AT LEAST ONE HOLE WITH SURFACE MOUNT PROJECTIONS - An electrical connector for electrically coupling an electronic module and an electrical component. The connector includes a connector body that has first and second mating surfaces. The connector body includes interconnects that extend through the connector body between the first and second mating surfaces for electrically coupling the module and the component. The connector body has a hole extending therethrough along a central axis. The hole is configured to receive a guide pin from one of the module and the component. The connector also includes surface mount projections that are coupled to the connector body and extend toward the central axis of the hole. The projections engage and flex against the guide pin when the guide pin is inserted into the hole. The projections form an interference fit with the guide pin to hold the connector body in a mounted position. | 12-09-2010 |
20100323538 | CONNECTOR ASSEMBLY HAVING ALIGNMENT MEMBERS FOR HOLDING A MODULE - An electrical connector for electrically coupling an electronic module and an electrical component. The connector includes a substrate that has first and second surfaces separated by a thickness. The substrate includes interconnects that extend through the substrate and are arranged in an array. The interconnects are configured to engage the module along the first surface and engage the electrical component along the second surface. The connector also includes alignment members that extend through openings in the substrate. The alignment members include heads that project beyond and away from the first surface. The heads are located about the substrate relative to each other to collectively form a module reception area therebetween to hold the module in a predetermined position and orientation with respect to the first surface and with respect to the interconnects. | 12-23-2010 |
20130122744 | GROUNDING STRUCTURES FOR HEADER AND RECEPTACLE ASSEMBLIES - A receptacle assembly includes a front housing configured for mating with a header assembly and a contact module coupled to the front housing. The contact module includes a conductive holder having a first side wall and an opposite second side wall. The conductive holder has a chamber between the first and second side walls. The conductive holder has a front coupled to the front housing. The contact module includes a frame assembly that is received in the chamber. The frame assembly includes a plurality of contacts and a dielectric frame that supports the contacts. The contacts extend from the conductive holder for electrical termination. A plurality of ground clips are received in the chamber and extend from the front of the conductive holder. The ground clips are mechanically and electrically connected to the conductive holder. | 05-16-2013 |
20130178107 | CONNECTOR ASSEMBLY FOR INTERCONNECTING ELECTRICAL CONNECTORS HAVING DIFFERENT ORIENTATIONS - An electrical connector assembly including an electrical connector that has a connector body with mating and interior sides facing in opposite directions. The electrical connector also includes electrical contacts that are held by the connector body. The connector assembly also includes an interposer having a connector side, an opposite board side, and plated vias that extend into the interposer from at least one of the connector or board sides. The connector side engages the interior side of the electrical connector. The electrical contacts of the electrical connector are electrically coupled to corresponding vias. The connector assembly also includes board contacts that extend from the board side of the interposer and are electrically coupled to corresponding vias. The board contacts are communicatively coupled to the electrical contacts through the interposer. | 07-11-2013 |
20130288521 | CONTACT MODULES FOR RECEPTACLE ASSEMBLIES - A contact module includes a conductive holder and a frame assembly received in the conductive holder with receptacle signal contacts arranged in differential pairs. A ground shield is received in the conductive holder between the frame assembly and the conductive holder. The ground shield has a mounting end with ground pins extending from a mounting edge at the mounting end of the ground shield. Forces are imparted on the ground pins during coupling with a circuit board. The mounting end has a plurality of bearing surfaces proximate to the ground pins. The bearing surfaces engage at least one of the conductive holder and the frame assembly to transfer the forces between the ground shield and at least one of the conductive holder and the frame assembly. | 10-31-2013 |
20130288525 | RECEPTACLE ASSEMBLY FOR A MIDPLANE CONNECTOR SYSTEM - A receptacle assembly includes a contact module having a conductive holder and a frame assembly received in the conductive holder and electrically shielded by the conductive holder. The frame assembly has a plurality of receptacle signal contacts having mating portions extending from the conductive holder. The receptacle signal contacts are arranged in differential pairs carrying differential signals. Ground shields are received in the conductive holder between the frame assembly and the conductive holder. The ground shields have grounding beams extending along the mating portions of the receptacle signal contacts. The grounding beams are arranged on four sides of each differential pair of the receptacle signal contacts. | 10-31-2013 |
20130288539 | RECEPTACLE ASSEMBLY FOR A MIDPLANE CONNECTOR SYSTEM - A receptacle assembly includes a contact module having a conductive holder and a frame assembly received in the conductive holder. The frame assembly includes a first frame and a second frame, each frame having at least two frame members each supporting a differential pair of receptacle signal contacts and being separated by a gap. The first and second frames are interested such that at least one frame member of the first frame is received in a corresponding gap of the second frame between frame members of the second frame and such that at least one frame member of the second frame is received in a corresponding gap of the first frame between frame members of the first frame. | 10-31-2013 |
20140106583 | GROUND INLAYS FOR CONTACT MODULES OF RECEPTACLE ASSEMBLIES - A receptacle assembly includes a receptacle housing and a contact module received in the housing. The contact module includes a tray having a cavity defined by inner surfaces of the tray. Ground inlays are received in the cavity along corresponding inner surfaces. The ground inlays have ground slats and ground flanges extending from the ground slats. A frame assembly is received in the cavity of the tray between the ground inlays. The frame assembly is electrically shielded by the ground inlays and has a plurality of receptacle signal contacts arranged in differential pairs carrying differential signals. The ground slats extend along opposite sides of corresponding pairs of the receptacle signal contacts and the ground flanges extend between pairs of the receptacle signal contacts. | 04-17-2014 |
20150024635 | ELECTRICAL CONNECTOR FOR TRANSMITTING DATA SIGNALS - Electrical connector including a conductor pair having first and second signal conductors extending through the connector body along respective paths between the mating and mounting sides. The first signal conductor has a height and a thickness taken transverse to a direction of the respective path and includes a flag segment and a base segment. The height of the first signal conductor along the flag segment is greater than the height of the first signal conductor along the base segment. The electrical connector also includes a dielectric body extending between the mating and mounting sides and surrounding the conductor pair. The dielectric body has a signal-control trench that extends along and exposes the flag segment to an air dielectric. The signal-control trench has a height that is measured along the height of the flag segment. The height of the signal-control trench is less than the height of the flag segment. | 01-22-2015 |