A removable device for retaining electrical contacts, having: a rigid element for holding electrical contacts including a plurality of housings that are configured to accept the electrical contacts, the lateral walls of the holding element that are adjacent to the housings having a plurality of openings that each lead into one housing of the plurality of housings of the holding element; and an elastic element for retaining the electrical contacts in the holding element including a plurality of sprung blades that are arranged facing the openings leading into the housings of the rigid holding element so as to retain the electrical contacts in the housings of the holding element. The invention further relates to a soldering method implementing such a device.

In an example, a device includes: a printed circuit board (PCB); at least one solid state drive (SSD) connected at a first side of the PCB via at least one SSD connector; at least one field programmable gate array (FPGA) mounted on the PCB at a second side of the PCB; and at least one connector attached to the PCB at a third side of the PCB, wherein the device is configured to operate in a first speed from a plurality of operating speeds based on a first input received via the at least one connector.

A press head for a press machine used to press-fit a connector to a printed circuit board includes a press motor operable in a pressing operation, a driver assembly operably coupled to the press motor and movable during the pressing operation, and a press anvil operably coupled to the driver assembly and movable by the driver assembly during the pressing operation. The press anvil has a load cell housing holding a load cell and a contact plate coupled to the load cell housing and engaging the load cell. The contact plate has a contact surface configured to engage the connector or a seating tool for the connector and configured to press the connector toward the printed circuit board during the pressing operation. The load cell measures a pressing load of the contact plate during the pressing operation.

An electrical connector assembly can include a plug connector and a receptacle connector that can mate together. Conductive communication between the plug and receptacle connectors is established by mating signals terminals and mating ground terminals contained in terminal subassemblies accommodated in each connector. To align and support the signal and ground terminals, the terminals may be part of a terminal wafer and the terminal subassembly can be assembled from one or more wafers. The terminal wafer may include grounding features to improve the electrical characteristics and data transmission through the electrical connector assembly.

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.

An electrical connector has a row of signal contacts, and a ground shield disposed inwardly from the signal contacts. Each of the signal and ground contacts has a first segment and a second segment. Each first segment defines a mounting end that can mount to a first electrical component, and each second segment defines a mating end that can mate with a second electrical component. The first and second segments of each signal contact and the ground contact are angularly offset from one another so as to define an angle of between 75 degrees and 105 degrees between the first and second segments. The first and second segments of each signal contact and the ground contact can be coupled to one another to define the angle. Alternatively, the signal and ground contacts can be bent along a common bend line that intersects the signal contacts and the ground contact.

An electrical connector assembly can include a plug connector and a receptacle connector that can mate together. Conductive communication between the plug and receptacle connectors is established by mating signals terminals and mating ground terminals contained in terminal subassemblies accommodated in each connector. To align and support the signal and ground terminals, the terminals may be part of a terminal wafer and the terminal subassembly can be assembled from one or more wafers. The terminal wafer may include grounding features to improve the electrical characteristics and data transmission through the electrical connector assembly.

An electrical connector assembling machine includes a connector strip feed unit including a connector strip feeding device configured to index a connector strip through a feed track in successive feed strokes and a contact loading assembly to load contacts in the connector strip. The electrical connector assembling machine includes a contact bending assembly positioned downstream of the contact loading assembly. The contact bending assembly includes a roller and a bending actuator holding the roller. The bending actuator moves the roller in an actuation direction to engage and bend ends of the contacts. The roller rolling along the contacts to bend the ends of the contacts.

Systems, methods, and apparatus that employ a connector assembly having a substrate layer with an inner aperture and an outer periphery, and one or more signal traces disposed on the substrate that extend from an inner first location to an outer second location of the apparatus, for communicating data between electronic devices positioned within an interior volume of an enclosed vessel and complementary electronic devices positioned in an ambient environment external to the enclosed vessel. An inner connector is conductively connected the signal traces at the inner first location of each signal trace, and an outer connector is conductively connected to the one or more signal traces at the outer second location of each signal trace. A substantially flat exterior surface extends radially over at least a portion of a region between the respective first locations and the respective second locations.

Systems and methods for designing and assembling form boards with attached wire routing devices for use in wire bundle assembly. The assembly method comprises: (a) establishing a coordinate system of a form board having a multiplicity of holes; (b) using a computer system to determine locations of form board devices of different types with reference to the coordinate system of the form board based on engineering data specifying a wire bundle configuration; and (c) fastening the form board devices of different types to respective holes of the form board having centers closest to respective locations determined in step (b). The form board devices may be inserted robotically or manually.