An electrical connector includes a housing and a plurality of electrical conductors held within the housing. The housing includes a mating shroud protruding forward from a front wall of the housing and defining a port that receives a mating circuit card therein. Each of the electrical conductors includes a mating contact disposed within the mating shroud and a mounting contact that projects beyond a bottom end of the housing to electrically connect to a circuit board. The mounting contacts are located within a termination area of the electrical connector. The housing defines a nesting cavity extending rearward from the front wall along the bottom end. The nesting cavity is disposed between the mating shroud and the termination area along a longitudinal axis of the electrical connector. The nesting cavity is configured to accommodate a discrete, second connector that is mounted to the circuit board.

An electrical connector module includes an insulating body, a number of conductive terminals and a retaining piece. The insulating body includes an end wall. The end wall has an end surface and a protrusion. The retaining piece includes a main body and a mounting portion for being mounted to a circuit board. The main body includes a frame portion. The frame portion includes a mounting opening and a barb protruding into the mounting opening. The mounting opening is sleeved on the protrusion. The barb at least partially pierces into the protrusion for fixation. The present disclosure also discloses an electrical connector formed by combining a number of electrical connector modules.

A FPCB connector including a first main body to which a first FPCB is coupled, and a second main body to which a second FPCB is coupled, the second main body being coupled to and electrically connected to the first main body. At least one of the first main body and the second main body is coupled to the first FPCB or the second FPCB without soldering.

Described herein are circuit assemblies comprising flexible interconnect circuits and/or other components connected to these circuits. In some examples, conductive elements of different circuits are connected with support structures, such as rivets. Furthermore, conductive elements of the same circuit can be interconnected. In some examples, a conductive element of a circuit is connected to a printed circuit board (or other devices) using a conductor-joining structure. Interconnecting different circuits involves stacking these circuits such that the conductive element in one circuit overlaps with the conductive element in another circuit. A support structure protrudes through both conductive elements and any other components positioned in between, such as dielectric and/or adhesive layers. This structure electrically connects the conductive elements and also compresses the conductive elements toward each other. For example, a rivet is used with the rivet heads contacting one or two conductive elements, e.g., directly interfacing their outer-facing sides.

An assembly includes a printed circuit board (“PCB”). An aperture extends through the PCB. The assembly also includes an array of pins and a processor package. The array of pins extends around a perimeter of the aperture, and the processor package extends over the aperture. The processor package is pressed against the array of pins by a compressive force couple.

An electrical connector module includes an insulating body, a number of conductive terminals and a retaining piece. The insulating body includes an end wall. The end wall has an end surface and a protrusion. The retaining piece includes a main body and a mounting portion for being mounted to a circuit board. The main body includes a frame portion. The frame portion includes a mounting opening and a barb protruding into the mounting opening. The mounting opening is sleeved on the protrusion. The barb at least partially pierces into the protrusion for fixation. The present disclosure also discloses an electrical connector formed by combining a number of electrical connector modules.

A vehicle USB Type-C connector, comprising a cable end member and a board end member engaged together; the CPA is inserted into the engagement groove; the PCB attached male head has an end protruding from a cavity opening on one end of the cable end plastic shell cavity; the encapsulated outer mold is inserted into a cavity opening on another end of the cable end plastic shell cavity; the encapsulated outer mold has an engagement side on two sides thereof and inserted into the lateral engagement groove; the upper lock plate is engaged above the engagement groove, the lower lock plate is inserted into the engagement groove, and the CPA is fastened with the cable end member. The present invention reduces the on-board height and strengthens the liability after engagement.

An apparatus and method to reliably attach an electronic module to a textile. The overall mechanical assembly of the invention includes: (a) light pipe, (b) top enclosure, (b) magnet, (c) main electronics which contains (d) the main PCB, (e) battery and (f) other electronic components, (g) bottom enclosure, which holds (h) the connector PCB, (i) module dock, (j) top textile PCB which are located above the (j) textile band and under the (k) textile pocket and the (l) bottom textile PCB and (m) fabric and laminate padding, which are located below the textile band. The invention is physically embodied by an electronic module, comprising at least one printed circuit board (PCB), comprising at least one conductive circuit and at least one electronic component; a metallic rivet, grommet or eyelet to mechanically and electrically connect the; and a textile substrate with at least one electrically conductive circuit.

This disclosure provides a method and apparatus for connecting wires and interlocking wires to an electrical component. More specifically, an electrical connector that includes an insulative housing, two electrical contacts, and two interlocking contacts is disclosed. In an embodiment, each electrical contact includes a female end, a press-fit end, and a transition portion. The transition portion is designed such that the first female end and the first press-fit end may be properly aligned depending on the application. The transition portion also provides support and stability to the electrical contacts when they are disposed within the insulative housing. The insulative housing includes four contact recesses. In an embodiment, the electrical connector allows for the safe, efficient, re-usable, and reliable connection for connecting high-voltage wires to a corresponding sensitive electrical component (e.g., a printed circuit board).

A contact element for establishing electrical contact between a first and a second printed circuit board is provided. The contact element has a fastening region for fastening to the first printed circuit board and a plug section for a plug connection to the second printed circuit board. The plug section has at least two contact arms which are electrically conductively connected to one another. A method for assembling a printed circuit board arrangement is also provided.