A connector assembly that includes a receptacle with inner and outer shells which have a front end for mating with a mating connector and a back end configured to connect to a printed circuit board. Receptacle primary and secondary ground connections are located on one of the shells. A plug with an outer shell that supports a pin contact to mate with the socket contact. The outer shell of the plug has a front end for mating with the front end of the receptacle and a back end that is configured to connect to a coaxial cable. Plug primary and secondary ground connections are located on the outer shell. When the receptacle and plug are mated, the primary ground connections form a primary grounding path through the assembly and the secondary ground connections form a secondary grounding path through the assembly, thereby electrically connecting the plug with the board.

A cable connection apparatus, a connection assembly, and a method for manufacturing the connection assembly are provided. The cable connection apparatus includes: a back plate and a connection member. The back plate includes a plate body and a ground layer. The plate body defines a through hole and a plurality of shielding holes. The plurality of shielding holes are defined at a periphery of the through hole. The ground layer is arranged on each of two opposite sides of the plate body and is connected to each of the plurality of shielding holes. The connection member abuts against or connects to a surface of a side of the back plate arranged with the ground layer. The connection member is arranged with a signal pin, and the signal pin is received in the through hole.

A connector is provided and includes an alignment plate defining major and minor apertures, a capture plate and a pin plate. The capture plate includes an outer body defining an opening, an inner body traversing the opening and first elastic elements extending from the inner body to generate first biases. The capture plate is securable to the alignment plate to position the inner body between the major apertures. The pin plate defines intermediate apertures and includes pins and second elastic elements to generate second biases opposing the first biases. The pin plate is interposable between the alignment and capture plates whereby the intermediate and major apertures align and the pins extend through the minor apertures.

A connector-equipped multicore cable includes a connector including a first end portion and a second end portion and a multicore cable including a plurality of coaxial electrical wires and connected to the first end portion. The connector includes, at the second end portion, a cover that is made of a metal and that covers a connector terminal. The plurality of coaxial electrical wires each include a first shield layer. The first shield layer and the cover are electrically connected to each other.

An integrated circuit die (1) is disclosed that comprises a substrate (30) defining a plurality of circuit elements; a sensor region (10) on the substrate, the sensor region comprising a layer stack defining a plurality of CMUT (capacitive micromachined ultrasound transducer) cells (11); and an interposer region (60) on the substrate adjacent to the sensor region. The interposer region comprises a further layer stack including conductive connections to the circuit elements and the CMUT cells, the conductive connections connected to a plurality of conductive contact regions on an upper surface of the interposer region, the conductive contact regions including external contacts (61) for contacting the integrated circuit die to a connection cable (410) and mounting pads (65) for mounting a passive component (320) on the upper surface. A probe including such an integrated circuit die an ultrasound system including such a probe are also disclosed.

A shielded electrical cable includes conductor sets extending along a length of the cable and spaced apart from each other along a width of the cable. First and second shielding films are disposed on opposite sides of the cable and include cover portions and pinched portions arranged such that, in transverse cross section, the cover portions of the films in combination substantially surround each conductor set. An adhesive layer bonds the shielding films together in the pinched portions of the cable. A transverse bending of the cable at a cable location of no more than 180 degrees over an inner radius of at most 2 mm causes a cable impedance of the selected insulated conductor proximate the cable location to vary by no more than 2 percent from an initial cable impedance measured at the cable location in an unbent configuration.

A method for assembling a camera suitable for use for a vision system of a vehicle includes providing a circuit board having first and second sides separated by a thickness dimension of the circuit board. An imager is disposed at the first side of the circuit board and solder pads are disposed at the second side of the circuit board. The solder pads are in electrical connection with circuitry of the circuit board. A coaxial connector is aligned at the solder pads at the second side of the circuit board. The coaxial connector is soldered at the second side of the circuit board via melting the solder paste at the solder pads.

A connector assembly that includes a receptacle with inner and outer shells which have a front end for mating with a mating connector and a back end configured to connect to a printed circuit board. Receptacle primary and secondary ground connections are located on one of the shells. A plug with an outer shell that supports a pin contact to mate with the socket contact. The outer shell of the plug has a front end for mating with the front end of the receptacle and a back end that is configured to connect to a coaxial cable. Plug primary and secondary ground connections are located on the outer shell. When the receptacle and plug are mated, the primary ground connections form a primary grounding path through the assembly and the secondary ground connections form a secondary grounding path through the assembly, thereby electrically connecting the plug with the board.

A cable card assembly includes a circuit card having mating conductors at a mating end for mating with a mating electrical connector and circuit conductors at s cable end. The cable card assembly includes cables having signal conductors and cable shields. The cable card assembly includes a contact assembly coupled to the circuit card and coupled to the cables and a contact holder holding signal contacts. Each signal contact includes a base tab terminated to the corresponding circuit conductor and a mating tab terminated to the corresponding signal conductor. The cable card assembly includes a ground bus separate and discrete from the contact assembly and coupled to the contact assembly. The ground bus is electrically connected to the cable shields to electrically connect the cable shields of the cables.

A solder connection between a coaxial cable and a printed circuit board arrangement. The coaxial cable comprises an inner conductor, an outer conductor and a dielectric arranged in between. The printed circuit board arrangement comprises an outer conductor contact area and an inner conductor contact area. The outer conductor contact area comprises an outer conductor receiving opening. The coaxial cable runs at an angle to the printed circuit board arrangement, wherein a part of the outer conductor is arranged in the outer conductor receiving opening and wherein the inner conductor is arranged at the inner conductor contact area. A first solder joint connects the outer conductor to the outer conductor contact area. A second solder joint connects the inner conductor to the inner conductor contact area.