One or more external connectors of a conformal wearable battery (CWB) may be controlled to reduce a voltage potential supplied to the connectors when exposed to a conductive liquid. The connectors may be uniform serial bus (USB) connectors or other connectors. One or more unused terminals of the one or more connectors may be pulled to a voltage potential and then monitored for a change in voltage. When the change in voltage satisfies a voltage threshold, the voltage potential supplied to the one or more connectors may be reduced and/or interrupted. The change in voltage may be evaluated against the voltage threshold alone or may be evaluated against the voltage threshold and a time threshold relating to a time after the voltage satisfied the voltage threshold. Based on the voltage threshold having been met, the voltage supplied to the connector may be reduced or stopped.

A diagnostic imaging catheter is disclosed, which is capable of preventing a solution from an internal space of a hub from flowing into a portion communicating with the internal space of the hub and to which the signal lines such as the optical fiber and the electric signal cable are electrically or optically connected. The optical diagnostic catheter includes a rotatable drive shaft, an elongated sheath configured to be inserted into a biological lumen, a hub that includes a port connected to the sheath for supplying the solution, a connector portion that includes an optical connector accommodated in an internal space of the hub and optically connected to an external optical connector, a first seal portion that prevents the solution from the port from flowing into a first connection portion, and a second seal portion that prevents the solution from the port from flowing into a second connection portion.

A robotic wire termination system for efficiently and accurately connecting a plurality of wires to an electrical connector having a plurality of connector pins with corresponding wire receptacles. The system generally includes a housing, a removable alignment plate, a robotic positioner, a heating device, a touch responsive display, and a control unit. The alignment plate removably holds a selected electrical connector in a specific position and orientation with the connector pins exposed in the housing and the wire receptacles exposed outside. The display provides a visual representation of the connector pins and selections of the connector pins. The control unit receives inputs indicating the pin selections and controls the robotic positioner to sequentially move the heating device along three orthogonal longitudinal axes to a series of heating positions relative to the selected connector pins to provide heat for melting solder to connect wires to the wire receptacles.

It is aimed to realize a size reduction. A connector includes a first housing (10) and a second housing (20) connectable to each other. The second housing (20) is configured by assembling a first terminal holding member (21) and a second terminal holding member (32) to be relatively displaceable. The first housing (10) is provided with a restricting portion (16) for allowing a connecting operation of the first terminal holding member (21) and restricting a connecting operation of the second terminal holding member (32). The first terminal holding member (21) is provided with a restriction releasing portion (27) for releasing restriction by the restricting portion (16) in a state where the connecting operation of the first terminal holding member (21) is started.

A surface mount electrical connector and methods of making and using a surface mount electrical connector. The connector includes a housing and a contact subassembly received in the housing. The contact subassembly includes interface contacts, board termination contacts, and an internal circuit board. The interface contacts and the board termination contacts are mounted to the internal circuit board to electrically connect the interface contacts and the board termination contacts through the internal circuit board. Each of surface mount tail ends of the board termination contacts has a bent portion that defines a mounting surface configured to be surface mounted to a mounting face of a main circuit board, to establish an electrical connection between the board termination contacts and the main circuit board.

An insulating housing and a wire-end connector including the insulating housing are provided. The insulating housing includes a body portion, a power mating portion, a signal mating portion, and a snap-fit member. The body portion has a first surface and a second surface that are oppositely disposed, and a third surface and a fourth surface that are oppositely disposed. A plurality of first channels are formed along a first direction inside the body portion in a horizontal and parallel arrangement. The power mating portion is disposed on the second surface and includes a plurality of pillars, and the first channels penetrate the plurality of pillars, respectively. The signal mating portion is disposed on the third surface and has a fifth surface and a sixth surface that are oppositely disposed, and a plurality of second channels are formed therein along the first direction.

A connector port module and a method of manufacturing the same. The connector port module includes a circuit board, with a connector having a plurality of connector pads formed on the circuit board configured to electrically connect to a mating connector. At least one via hole is formed in the circuit board for reinforcing the physical integrity and the heat diffusivity of the circuit board. The connector port module is capable of supporting Universal Serial Bus (USB) (e.g. USB-C) and Thunderbolt 3 connectors. The method includes: providing a circuit board; forming a plurality of connector pads on the circuit board configured to electrically connect to a mating connector; and forming at least one via hole for reinforcing physical integrity of the circuit board.

A Type C female side connector includes a terminal part, a body part, a steel plate, and a casing part; the terminal part is inserted in the body part; the body part is inserted in the casing part; the steel plate is inserted in the body part; the casing part has a suction portion formed in a flat plate structure on another side corresponding to an opening; the suction portion is integrated with the casing part; two sides of the suction portion expand to be sucked by a suck disc during manufacturing process. The present invention applies the suck disc portion to fulfill a sufficient area for automatic suction effect during manufacturing process, and includes a triple fix effect to strengthen the stability of the body part and the casing part.

A connector for a networking cable assembly includes a substrate, a first set of contacts on a first surface of the substrate that electrically connect to leads of a first cable, and a second set of contacts on the first surface of the substrate that electrically connect to leads of a second cable. The first set of contacts are spaced apart from the second set of contacts in a first direction by an amount that enables the second cable to be stacked on the first cable and passed over the first set of contacts to electrically connect to the leads of the second cable.

A cable retainer insert for a multi-strand cable includes a cable contact portion and a plurality of cable receptacles in the cable contact portion circumferentially spaced from each other. Each of the cable receptacles receives a strand of the multi-strand cable. Each of the cable receptacles has a cable strand insertion opening at a radially outward end and a bottom at an opposite radially inward end. A circle inscribed in each of the cable receptacles and touching the bottom of the cable receptacle extends radially outward beyond the cable strand insertion opening.