Patent application number | Description | Published |
20100144165 | Electrical Connector System - High-speed backplane connectors systems for mounting a substrate that are capable of operating at speeds of up to at least 25 Gbps, while in some implementations also providing pin densities of at least 50 pairs of electrical connectors per inch are disclosed. Implementations of the high-speed connector systems may provide ground shields and/or other ground structures that substantially encapsulate electrical connector pairs, which may be differential electrical connector pairs, in a three-dimensional manner throughout a backplane footprint, a backplane connector, and a daughtercard footprint. These encapsulating ground shields and/or ground structures prevent undesirable propagation of non-traverse, longitudinal, and higher-order modes when the high-speed backplane connector systems operates at frequencies up to at least 30 GHz. | 06-10-2010 |
20100144168 | Electrical Connector System - High-speed backplane connectors systems for mounting a substrate that are capable of operating at speeds of up to at least 25 Gbps, while in some implementations also providing pin densities of at least 50 pairs of electrical connectors per inch are disclosed. Implementations of the high-speed connector systems may provide ground shields and/or ground structures that substantially encapsulate electrical connector pairs, which may be differential electrical connector pairs, in a three-dimensional manner throughout a backplane footprint, a backplane connector, and a daughtercard footprint. These encapsulating ground shields and/or ground structures prevent undesirable propagation of non-traverse, longitudinal, and higher-order modes when the high-speed backplane connector systems operates at frequencies up to at least 30 GHz. | 06-10-2010 |
20100144169 | ELECTRICAL CONNECTOR SYSTEM - High-speed backplane connectors systems for mounting a substrate that are capable of operating at speeds of up to at least 25 Gbps, while in some implementations also providing pin densities of at least 50 pairs of electrical connectors per inch are disclosed. Implementations of the high-speed connector systems may provide ground shields and/or other ground structures that substantially encapsulate electrical connector pairs, which may be differential electrical connector pairs, in a three-dimensional manner throughout a backplane footprint, a backplane connector, and a daughtercard footprint. These encapsulating ground shields and/or ground structures prevent undesirable propagation of non-traverse, longitudinal, and higher-order modes when the high-speed backplane connector systems operates at frequencies up to at least 30 GHz. | 06-10-2010 |
20100144201 | ELECTRICAL CONNECTOR SYSTEM - High-speed backplane connectors systems for mounting a substrate that are capable of operating at speeds of up to at least 25 Gbps, while in some implementations also providing pin densities of at least 50 pairs of electrical connectors per inch are disclosed. Implementations of the high-speed connector systems may provide ground shields and/or other ground structures that substantially encapsulate electrical connector pairs, which may be differential electrical connector pairs, in a three-dimensional manner throughout a backplane footprint, a backplane connector, and a daughtercard footprint. These encapsulating ground shields and/or ground structures prevent undesirable propagation of non-traverse, longitudinal, and higher-order modes when the high-speed backplane connector systems operates at frequencies up to at least 30 GHz. | 06-10-2010 |
20100144203 | ELECTRICAL CONNECTOR SYSTEM - High-speed backplane connectors systems for mounting a substrate that are capable of operating at speeds of up to at least 25 Gbps, while in some implementations also providing pin densities of at least 50 pairs of electrical connectors per inch are disclosed. Implementations of the high-speed connector systems may provide ground shields and/or other ground structures that substantially encapsulate electrical connector pairs, which may be differential electrical connector pairs, in a three-dimensional manner throughout a backplane footprint, a backplane connector, and a daughtercard footprint. These encapsulating ground shields and/or ground structures prevent undesirable propagation of non-traverse, longitudinal, and higher-order modes when the high-speed backplane connector systems operates at frequencies up to at least 30 GHz. | 06-10-2010 |
20110278057 | ELECTRICAL CONNECTOR SYSTEM - A substrate is disclosed that is configured to receive an electrical component. The substrate comprises a plurality of first vias and a plurality of second vias. The plurality of first vias is arranges in the substrate in a matrix of rows and columns and is configured to provide mounting of the electric component, each first via associated with one of its closest neighbor first via to form a pair. The plurality of second vias is capable of being electrically commoned to one another and is positioned amongst the plurality of first vias such that there is at least one second via positioned directly between each first via and any of the closest non-pair first via neighbors. | 11-17-2011 |
Patent application number | Description | Published |
20100144167 | Electrical Connector System - High-speed backplane connectors systems for mounting a substrate that are capable of operating at speeds of up to at least 25 Gbps, while in some implementations also providing pin densities of at least 50 pairs of electrical connectors per inch are disclosed. Implementations of the high-speed connector systems may provide ground shields and/or ground structures that substantially encapsulate electrical connector pairs, which may be differential electrical connector pairs, in a three-dimensional manner throughout a backplane footprint, a backplane connector, and a daughtercard footprint. These encapsulating ground shields and/or ground structures prevent undesirable propagation of non-traverse, longitudinal, and higher-order modes when the high-speed backplane connector systems operates at frequencies up to at least 30 GHz. | 06-10-2010 |
20130005190 | CARD EDGE CONNECTOR - A card edge connector is provided for mounting to a printed circuit board (PCB). The card edge connector includes a housing having a mating side, a mounting side, and a card slot that extends into the mating side. The card edge connector also includes first and second contacts held by the housing. The first and second contacts include mounting segments that extend outwardly from the mounting side of the housing. The mounting segments include mounting interfaces. The mounting segments of the first and second contacts are configured to be electrically connected to corresponding contact pads on the PCB at the mounting interfaces. The mounting interface of the first contact is offset from the mounting interface of the second contact in a direction generally away from mounting side of the housing. | 01-03-2013 |
20130121645 | OPTICAL COMMUNICATION CONNECTORS WITH MODULES MOVABLE IN A MATING DIRECTION - An optical communication connector having a connector housing that includes opposite mating and loading sides and a housing cavity that extends therebetween. The optical communication connector also includes an optical module that is positioned within the housing cavity and a biasing element that is positioned between the optical module and the loading side in the housing cavity. The biasing element has a module end, a back end, and a resilient spring portion that extends between the module and back ends. The spring portion includes an elongated body having a plurality of flexible bend segments that wrap back-and-forth within a spring plane. The spring portion is compressible between first and second states during a mating operation between the optical module and an optical connector. | 05-16-2013 |
20130186681 | ELECTRICAL CONNECTOR ASSEMBLY WITH EMI COVER - An electrical connector assembly includes a cage having an upper wall, a lower wall, and side walls that extend from the upper wall to the lower wall. The side walls have exterior sides. The cage includes an interior cavity and a divider that extends between the side walls and divides the interior cavity into at least two internal compartments. The cage includes a front end that is open to the internal compartments. The side walls have front edges at the front end. The internal compartments are configured to receive pluggable modules therein through the front end. An electromagnetic interference (EMI) cover is mounted to the divider such that the EMI cover is engaged with and electrically connected to the divider. The EMI cover includes a flap that wraps around the front edge of a corresponding side wall. The flap overlaps and engages the exterior side of the corresponding side wall. | 07-25-2013 |
20140349529 | POWER CONNECTOR HAVING OPPOSING CONTACT SPRINGS - Power connector including a pair of discrete contact springs configured to electrically engage a conductive component. Each of the contact springs includes a contact body having opposite inner and outer side surfaces and a contact edge that extends between the inner and outer side surfaces. The contact body is shaped to form a spring base and a mating portion. The spring bases of the contact springs are joined by a locking feature. The locking feature includes a localized portion of at least one of the spring bases. The localized portion frictionally engages the other spring base to interlock the spring bases. Each of the mating portions extends from the corresponding spring base. The mating portions are separated by a receiving space and are configured to engage the conductive component when the conductive component is inserted into the receiving space. | 11-27-2014 |