An electrical outlet (10) for power and/or data is disclosed. The outlet 10 has a housing (11) which houses a plurality of moulded sub-components (18, 19) each of which is mounted within the housing (11) to have one or more sockets (8, 9) accessible by corresponding pin(s) of a plug used by a user. Not all of the sub-components (18, 19) are fabricated from the same mould. The sockets of the housed sub-components are covered by a cosmetic plate (17) having an array of openings corresponding to the sockets and sized to permit the pin(s) to pass through the openings and electrically engage the sockets. A method of fabricating such an electrical outlet is also disclosed. Preferably the outlet is authorised for sale and use without the cosmetic plate.

A PCIe/SAS connector structure includes a female part and a male part; the female part is engaged with the male part; wherein the female part has a female plastic member, a female cover, a female signal terminal part, a fix pin and a female signal and power terminal; wherein the male part has a male plastic member, a male cover, a male signal and power terminal, a male terminal, and a fix plate; wherein the female cover is in a full-wrap structure; wherein the female cover has a protruding elastic plate, respectively; wherein the male terminal is formed in an L shape; two male terminals are fixed as a set by a plastic; the male terminal is inserted to be positioned in the male cover; wherein the male cover is formed in an L shape in a full-wrap structure. Interference performance of signal terminal is improved.

A cable assembly may include a cable having a plurality of electrically-conductive wires including a first set of wires and a second set of wires and a plug terminating an end of the cable, the plug comprising a housing including a locking tab formed on the outside of the housing on a first side of the housing and configured to mechanically couple the plug to a corresponding receptacle connector, a first contact formed on the first side of the housing and configured to expose the first set of wires to a first set of pins of the corresponding receptacle connector, and a second contact formed on a second side of the housing opposite the first side and configured to expose the second set of wires to a second set of pins of the corresponding receptacle connector.

A computing card for an information handling system, the computing card system including a computing card, including: a first side including: a first body surface, the first body surface including a first plurality of conductive pads configured to connect respectively with a first set of pins of a computing card receptacle; a first indented surface configured to connect with a second set of pins of the computing card receptacle; a first connecting surface defined between the first body surface and the first indented surface; a bottom surface; and a plurality of internal layers, wherein one or more of the internal layers are exposed at the first indented surface, and are connected to the bottom surface.

An electronic device with an extraction device and an extraction device thereof are provided. The extraction device includes a housing and a handle. A front side of the housing has two ends. The two ends have a pivot and a limiting member, respectively. The limiting member has at least one limiting recessed portion that has a draw bar and a hook. Two ends of the draw bar have a long groove and a pulling and gripping portion, respectively. The pulling and gripping portion is connected to the hook, the pivot is disposed in the long groove, and the hook can engage in the at least one limiting recessed portion along a sliding direction to be in an engaged state. The handle in the engaged state can slide along an unlocking direction so to depart from the at least one limiting recessed portion to be in an unengaged state.

A barcode scanner magnetically attachable to a smart phone includes a circuitry adaptor and a barcode-scanning device. The circuitry adaptor is plugged into a USB connector of the smart phone. The barcode-scanning device is magnetically and detachably connected to the circuitry adaptor, so that electricity and signals from the smart phone are transmitted to the barcode-scanning device, and barcode signals picked up by the barcode-scanning device are transmitted to the smart phone. When the barcode-scanning device undergoes external impact, the circuitry adaptor and the barcode-scanning device are detached from each other without damaging the USB connectors.

A waterproof socket connector includes an inner insulator, a plurality of terminals fastened in the inner insulator, at least one resistor, a conductive element, a grounding element, a shell, a sealing element and an outer insulator. The plurality of the terminals are a plurality of charging terminals and detection terminals. The at least one resistor is mounted to the detection terminals. The charging terminals are connected to the conductive element. The detection terminals are connected to the grounding element. The charging terminals are connected to the grounding element. The shell surrounds the inner insulator. A rear end of the shell is hollow to form an inner space. The sealing element is filled in the inner space. The outer insulator surrounds the inner insulator, the plurality of the terminals, the shell, the sealing element, the at least one resistor, the conductive element and grounding element.

Connectors that support high-speed data transfers and have a high signal quality, good reliability, and are readily manufactured. One example can provide a connector receptacle that supports high-speed data transfers and has a high signal quality by employing contacts that are directly attached to a flexible circuit board.

An electrical connector has an upper terminal module, a lower terminal module, and a septum between the upper and the lower terminal modules. The upper terminal module includes an upper block and multiple upper conductive terminals partially covered by the upper block and partially exposed. The lower terminal module includes a lower block and multiple lower conductive terminals partially covered by the lower block and partially exposed. The septum is located between the upper and the lower terminal modules; among them, more than one upper conductive terminal and more than one lower conductive terminal are used for grounding, and are in electrical contact with the septum. The grounding structure design can eliminate resonance to optimize high-frequency characteristics.

A memory module testing system operating in a vibratory environment can retain a memory module in place in a memory socket using both socket latches and a retainer clip. The retainer clip can attach to a module support tower of the memory socket. The retainer clip can have a flexible multi-spring structure forming a three-axis vibration dampening system that can prevent the socket latches from opening while testing in the test environment. The retainer clip can secure the socket latches using an upper flange and a lower flange to prevent unintended motion of the socket latches. The retainer clip can be secured to the module support towers at the ends of the memory socket using clip arms and clip arm tips to attach to the module support towers.