A pair of ground planes arranged in parallel, a dielectric medium disposed in between the pair of ground planes, and a set of at least four signal conductors disposed in the dielectric medium, the set of at least four signal conductors having (i) a first pair of signal conductors arranged proximate to a first ground plane of the pair of ground planes and (ii) a second pair of signal conductors arranged proximate to a second ground plane of the pair of ground planes, each signal conductor of the set of at least four signal conductors configured to carry a respective signal corresponding to a symbol of a codeword of a vector signaling code.

A connector assembly for mounting on and making solderless electrical contact with a printed circuit board includes a plurality of stacked wafer assemblies. Each wafer assembly includes a wafer, a plurality of terminals partially embedded in the wafer where each terminal includes a connecting portion embedded in the wafer, a resiliently compressible mating portion for making solderless contact with a corresponding conductive pad of a PCB and a contact portion. The wafer is molded over the terminals. The wafer assembly also includes a plurality of wires terminated in termination regions at the contact portions of the terminals, and a shield disposed in the recess of the wafer and extending across the wafer. The connector assembly further includes a housing molded over the stacked wafers and the termination regions.

A sensor device for a steering system of a vehicle includes a sensor housing accommodated within a housing pot and including a first central recess defining an axis and receiving a shaft of the steering system so as to mount the sensor housing on the shaft. A sensor element is coupled to the shaft and a sensor cover is mounted on the housing pot. The sensor cover includes a second central recess receiving the shaft so as to mount the sensor cover on the shaft. An inner contact unit firmly connected to the sensor cover and electrically contacting the sensor element, the inner contact unit arranged on an inside of the sensor cover and including a connector part axially oriented along the axis. An outer contact unit is firmly connected to the sensor cover on an outside of the sensor cover and electrically connected to the inner contact unit.

The present disclosure relates to a plug-in module connector or the electrically conductive connection of at least two battery modules, including a flexible busbar for the electrically conductive connection of respective poles of the battery modules, the busbar enabling tolerance compensation with respect to the poles in the transverse direction of the module connector; two retaining clamps for gripping the busbar and one of the respective poles of the battery modules, the retaining clamps enabling tolerance compensation with respect to the poles in the longitudinal direction and vertical direction of the module connector; an insulation housing in which the retaining clamps plugged onto the busbar can be received. Furthermore, the present disclosure also concerns a method for the electrically conductive connection of at least two battery modules by means of a plug-in module connector.

An example device can include a mounting device having a first connector bracket fixedly positioned on the mounting device, a plurality of pogo pins positioned within the first connector bracket, and an adjustment control mechanism positioned about at least one pogo pin of the plurality of pogo pins. A computing device has a second connector bracket fixedly positioned on the computing device, the second connector bracket forming a plurality of openings for receiving the plurality of pogo pins, wherein the adjustment control mechanism is to fixedly position the plurality of pogo pins within the plurality of openings to maintain electrical connection of the first connector bracket and the second connector bracket during adjustment of the computing device relative to the mounting device.

An electrical connection device includes: a wiring board in which lands are arranged on a main surface; and probes. Each of the probes has a distal end portion that contacts an object to be measured and a proximal end portion that contacts the land. A material of a surface film of the proximal end portion, which contacts the land, is a metal material different in composition from a material of the land that contacts the surface film.

A CPU socket has an insulative housing equipped with two groups of contacts of different pitches from each other wherein either each group of contacts are arranged with the corresponding contacting arms extending in opposite directions to counterbalance the imposed/reaction forces itself or the two group of contacts are arranged with the corresponding contacting arms extending in opposite direction to somewhat counterbalance the imposed/reaction force during receiving a CPU therein, and or in a mixed manner, i.e., one group of contact with the corresponding contacting arms in the same direction while the other of contacts with the corresponding contacting arms extending in both opposite directions to achieve the total reaction forces in a substantial balanced manner.

A method and system are disclosed that allow easier coupling between high-density connectors. In one example implementation, the connectors on a computer board are mounted on flexible tabs extending from the computer board, the tabs having been formed by cutting slots on both sides of each of the tabs. A milled section within each tab makes the tab thinner, allowing it additional flexibility. In another example implementation, a pass-through connector is used as an intermediary between two mating connectors. The pass-through connector has internal pins with greater tolerance than the tolerance between the two mating connectors, allowing it easier alignment of pins for coupling. In yet another example implementation, mating connectors are coupled using a bundle of cables between the mating connectors that allows the coupling of multiple connectors, one at a time, reducing or eliminating the need to simultaneously couple multiple connectors.

An electrical connector includes a body having multiple accommodating holes running vertically therethrough, and multiple conductive terminals vertically movably accommodated in the accommodating holes. Each accommodating hole has upper and lower position limiting surfaces. Each conductive terminal includes a flat plate portion having an upper position limiting portion located above the upper position limiting surface, and a lower position limiting portion located below the lower position limiting surface, so as to limit a vertical movement of the conductive terminal. Upper and lower elastic arms are formed at a rear side the flat plate portion. Each of the upper and lower elastic arms has a corresponding contact portion to correspondingly abut a first electronic component and a second electronic component. A through slot extends from the upper elastic arm through the flat plate portion to the lower elastic arm.

A Light Detection and Ranging (LiDAR) module for a vehicle can include a chassis, a galvanometer driver circuit board and a main circuit board. The main circuit board may be pre-assembled to the chassis resulting in a blind mating of an electrical connector of the main circuit board to an electrical connector of the galvanometer driver circuit board. The LiDAR module may include pins extending from the chassis arranged to extend through holes in the galvanometer driver circuit board in order to align the electrical connector of the galvanometer driver circuit board with the electrical connector of the main circuit board prior to the coupling of the electrical connectors. The pin may include a threaded portion coupled to the chassis, an unthreaded central portion engaging the galvanometer driver circuit board, and another threaded portion used to secure the galvanometer driver circuit board to the chassis.