A preformed solder-in-pin system for use with electrical connectors. The preformed solder-in-pin system generally includes a connector pin having an open cavity at one end, into which a preformed solder member can be first inserted and then pressed, rather than melted, in place, such that voids and air spaces within the cavity are eliminated. The preformed solder-in-pin system can be assembled in high quantities, where the preformed solder members are placed in a fixture and the fixture is placed on a shaker table, so that large numbers of connector pins, pre-installed in connector grommets, can be inserted largely simultaneously.

A first connector and a second connector of this connector assembly can mutually connect along the vertical direction. The first connector comprises a first housing provided with a sliding surface, a locking surface, and a receiving surface. The locking surface intersects, at an angle of 90° or less, with a line segment extending straight upward from the locking surface. The second connector comprises a second housing provided with a spring section and a locked section. The locked section can move forward and backward as the spring section elastically deforms. The locked section has a locked surface. When the second connector is in a separated state of being separated from the first connector, the locked surface intersects, at an angle of 90° or less, with a line segment extending straight upward from the locked surface. In a fitting step, the locked section moves downward while being pressed against the sliding surface. The locked section abuts the receiving surface upon moving downward on the sliding surface.

An embodiment connector assembly includes a housing including an inner space formed therein, wherein ends of a main-line terminal and a sub-line terminal are inserted into a first side of the inner space, a main-line port inserted into and fixed to the inner space of the housing and electrically connected to the end of the main-line terminal inserted into the inner space, a sub-line port inserted into and fixed to the inner space of the housing and electrically connected to the end of the sub-line terminal inserted into the inner space, and a noise filter disposed between the main-line port and the sub-line port and electrically connected to each of the main-line port and the sub-line port, wherein the noise filter is configured to reduce a noise in a signal transmitted between the main-line port and the sub-line port.

Auxiliary power connector PCBs are described. In one example, an auxiliary power connector is described. The auxiliary power connector includes a printed circuit board (PCB) and a PCI express graphics (PEG) connector mounted to the PCB, the PEG connector configured to connect to an auxiliary power source. The auxiliary power connector further includes a set of connectors provided on the PCB, the set of connectors configured to connect the PCB to a main PCB of a device.

A high temperature electrical connector, which may be used to connect a temperature sensor mounted in a combustion chamber of an automotive engine to a cable. The connector has a housing made of high temperature material, such as alumina ceramic. Connector terminals may be retained within the housing but may float relative to the housing, to reduce stresses associated with differential thermal expansion of the housing and terminals and reduce transmission of vibration and resultant degradation of connector performance. Compliant portions may extend from an intermediate portion of the terminals to make contact with pads on a sensor substrate inserted into the connector. The terminals may be retained with an end cap, secured to the housing. Retention of the terminals may be aided by pockets in the housing that receive tips of the terminals. Channels, receiving the intermediate portions of the terminals, may open into the pockets.

A power adapter with a Lightning female socket includes a main body and a housing, a Lightning female socket and an adapter unit on the main body, the Lightning female socket being electrically connected to the adapter unit; the housing being provided with an opening communicated to the Lightning female socket, the housing being sleeved on an exterior of the main body, and making the opening correspond to the Lightning female socket; the adapter unit being capable of providing electrical energy directly or indirectly to the Lightning female socket and outputting voltage and current outwardly through the Lightning female socket. By designing a power adapter with a Lightning female socket, a charging device and system, communication with an external terminal device and charging to the outside is achieved through the Lightning female socket.

In various examples, a connector for an implantable medical device is configured to accept a lead therein and electrically couple to a lead contact of the lead. The connector includes a connector housing, which includes a bore portion including a bore hole therethrough. The bore hole includes a bore hole axis, the bore hole being sized and shaped to accept the lead within the bore hole. An attachment portion is coupled to the bore portion. The attachment portion includes an attachment hole within the attachment portion sized and shaped to accept a feedthrough wire within the attachment hole. The attachment hole includes an attachment hole axis offset from and non-parallel to the bore hole axis.

Particular examples described herein provide for an electronic device, such as a notebook computer or laptop, which includes a circuit board coupled to a plurality of electronic components (which includes any type of hardware elements, circuitry etc.). The electronic device may also include a connector assembly that is positioned within at least a portion of a recess of the electronic device, where the connector assembly includes: a first assembly that is to receive a connector; and a second assembly that is to receive an identification module that is to provide an association between a user and the electronic device.

A contact assembly for a connector housing includes an adapter element and a contact element. The adapter element has a sleeve with a lead-through opening extending in an axial direction of the sleeve and with a threaded bore extending perpendicularly to the lead-through opening through the sleeve. The contact element is adapted to be inserted into the lead-through opening and latched to the sleeve. The contact element may exhibit varying types of a cable connection section and/or a contact section. The adapter element is receivable within the connector housing and may accept the contact element regardless of the type of cable connection section and/or contact section.

A strap connector includes an insulating body, a conductive element, a locking member, a pressing block, and a strap connected with the pressing block. The locking member includes a main body portion and a locking elastic arm. The main body portion includes a top plate. The locking elastic arm extends from the top plate and is used for locking with a mating connector. The pressing block is slidable backwardly under the pulling of the strap, so that the pressing block presses the top plate downwardly, and then the locking elastic arm moves downwardly to realize unlocking. When the unlocking method disclosed in the present disclosure is performed, it is only necessary to ensure that the pressing block slides over the top plate, which improves the reliability of unlocking.