A communication system includes a circuit board assembly including a mating circuit board having a mating edge and a plurality of mating pads at the mating edge, the circuit board assembly having an electrical component electrically coupled to the mating circuit board. The communication system includes a cable receptacle connector removably coupled to the mating edge of the mating circuit board. The cable receptacle connector includes a connector housing having a connector cavity and a card slot. A cable extends from the connector housing. The cable receptacle connector includes signal contacts each having a mating end mated with the corresponding mating pads and a terminating end electrically connected to a cable conductor of the cable.

Examples described herein relate to an apparatus that includes a flexible conductor covered in an insulative material and at least one conductor region in contact with the flexible conductor. In some examples, melting of the at least one conductor region is to cause a conductive coupling of the flexible conductor with a second conductor and wherein the flexible conductor is adapted to conductively couple a first circuit board oriented orthogonal to a second circuit board. In some examples, the at least one conductor region comprises at least one solder ball of a grid array. In some examples, the at least one conductor region is re-solderable.

The present invention relates to electric components of interventional devices. In order to provide further miniaturization of medical interventional devices, an electric component (10) of an interventional device is provided. The component comprises a flat carrier base (12), at least one electric circuit (14) provided on a substrate (16) and at least one electric wire (18) connected to the electric circuit by a wire connection (20). The substrate is attached to the carrier base. Further, for the wire connection, the carrier base is provided with at least one opening (22) that is provided at least partly with a conductive edge portion (24), which edge portion is connected to the at least one electric circuit. Still further, the substrate is provided with at least one recess (26) aligned with the location of the at least one opening in the carrier base. Furthermore, an end portion of the wire is arranged in the at least one recess; and the end portion of the wire is conductively coupled to the conductive edge portion by electrically conductive material (30).

The present application discloses a filtering cable, which solves the problem that the cable in the related art cannot ensure a simple and reasonable structural design while having good filter performance. One or several core wires and N defective conductor layers surrounding the core wires are sequentially provided from inside to outside in the cross section in the radial direction of the filtering cable; wherein the defective conductor layer has an etching pattern; the etching pattern is distributed in the axial direction of the filtering cable; the etching pattern is used to make the filtering cable equivalent to a preset filter circuit to filter the signal transmitted in the filtering cable.

An electrical element includes a pair of conducting elements spaced from one another, a recess receiving an electrical component, and a trough extending from a first conducting element of the pair of conducting elements to a second conducting element of the pair of conducting elements. The conducting elements are at least partially exposed in the recess.

A sensor cable support device is described. The sensor cable support device can be used to implemented in wearable monitoring device to support a proximal portion of a sensor cable and electrically connect the proximal portion with a sensing circuitry. A distal portion of the sensor cable is insertable into a person's skin. The sensor cable support device may include a rigid body defining a pair of openings, a set legs attached to the rigid body, and a pair of electrical traces extending between the pair of openings and distal ends of a pair of legs of the set of legs. The pair of openings may be sized and configured to receive a pair of pucks that mechanically retain a sensor cable to the body and electrically connect the sensor cable with the electrical traces.

An apparatus includes a printed circuit board (PCB). The PCB includes a plurality of through-holes extending through the PCB between a PCB first surface and a PCB second surface that opposes the PCB first surface, where each through-hole includes a via extending from the PCB first surface to a depth within the through-hole that is distanced from the PCB second surface. An integrated circuit surface mount is connected at the PCB first surface with vias of the through-holes, and a cable interconnect assembly is surface mount connected at the PCB second surface. The cable interconnect assembly includes a plurality of contact pins, each contact pin extending within a corresponding through-hole and having a sufficient dimension to engage and electrically connect with the via of the corresponding through-hole so as to facilitate exchange of an electrical signal between the integrated circuit and the cable interconnect assembly.

The present disclosure relates to a structure for electrically-connecting an external conductor. The structure comprises a wiring-substrate comprising a stack based arrangement of a plurality of layers, wherein said layers are defined as electrically conducting layers and insulating layer. A rivet is supported from the wiring substrate and comprises an embedded portion within the wiring substrate. The embedded portion comprises: an upper section extending through the stack of the plurality of layers, and, a bottom section extending laterally with reference to the upper section. A portion protruding from wiring substrate is provided for receiving an external-conductor and for thereby electrically connecting with the wiring substrate.

Disclosed is a circuit board assembly, a display device, and a method for manufacturing the same. The display device includes a main board, a logic board, a X-coordinate circuit board and a display panel. The main board and the logic board forms a circuit board assembly with a stacked structure, and the logic board is connected to the X-coordinate circuit board by a flexible flat cable line.

A cable connector assembly includes: an electrical connector; a circuit board electrically connected to the electrical connector and including a first row of pads and a second row of pads located behind the first row of pads and separated from the first row of pads; and a cable electrically connected to the circuit board and including plural coaxial wires each including a center conductor and a shielding layer and plural single core wires each comprising a conductor; wherein the center conductors of the coaxial wires are soldered to the first row of pads of the circuit board, and the conductors of the single core wires and the shielding layers of the coaxial wires are soldered to the second row of pads of the circuit board.