An electrical connector includes a contact module having a first dielectric frame holding first conductors and a second dielectric frame holding second conductors stacked with the first dielectric frame to form the contact module. The first dielectric frame has insertion loss control windows defining air pockets exposing exposed portions of the corresponding first conductors to air. The size and shape of the insertion loss control windows control insertion loss along the first conductors. The second dielectric frame has insertion loss control windows defining air pockets exposing exposed portions of the corresponding second conductors to air. The size and shape of the insertion loss control windows control insertion loss along the second conductors. The insertion loss control windows of the second dielectric frame are aligned with and are open to the insertion loss control windows of the first dielectric frame.

A high voltage RF connector for coaxial-to-stripline transition is capable of withstanding high voltages and providing impedance matching at RF frequencies. The high voltage RF connector comprises a bulkhead connector adapted to couple a coaxial cable connector. As the bulkhead connector matingly engages the coaxial cable connector, a first air gap forms therebetween, having an impedance determined, at least in part, by a first air gap distance between a first bulkhead connector dielectric insert and a coaxial cable connector dielectric insert. A second air gap also forms between first and second bulkhead connector dielectric inserts, both located within the bulkhead connector. The second air gap has approximately the same air gap distance and shape as the first air gap.

A straddle mount connector includes a housing and a contact assembly received in a cavity of the housing between a mating card slot and a host board slot. The contact assembly has a contact organizer having upper and lower contact channels in a top wall and a bottom wall, respectively receiving upper and lower contacts and engaging corresponding upper and lower locating features. The upper and lower contacts are electrically connected to a host board and a mating card. The contact assembly is loaded into the cavity such that upper and lower blocking surfaces of the housing block the upper contacts in the upper and lower contact channels.

An electrical connector is used to be electrically connected to a chip module, and includes a body provided with at least one accommodating groove. The body has a supporting block protrudingly provided upward at one side of the accommodating groove, and the supporting block is configured to upward support the chip module. At least one terminal is correspondingly accommodated in the at least one accommodating groove. The terminal includes: a first base accommodated in the accommodating groove; an elastic arm formed by bending and extending forward from the first base and located at one side of the supporting block to be electrically connected to the chip module; and a through slot running vertically through the elastic arm. The supporting block has a rear end. The first base is located behind the rear end. The through slot extends forward and does not pass beyond the rear end.

An electrical connector is used for electrically connecting a chip module to a circuit board, and includes an insulating body provided with at least one accommodating slot, and at least one terminal provided in the at least one accommodating slot. The terminal has a first base and a second base formed by bending from the first base. An elastic arm is formed by bending upward and extending from the first base. The elastic arm is provided with a contact portion to be conductively connected with the chip module. The first base has a retaining portion located at a lower end thereof and extending downward. The retaining portion fits with the at least one accommodating slot to retain the terminal in the insulating body. A conducting portion extends downward from the second base to be conductively connected with the circuit board.

An electrical connector having one or more openings formed in the connector's housing between adjacent rows of conductors. The openings may be positioned between rows of contact portions, and reduces crosstalk between conductors in adjacent rows. The opening(s) may extend through the entire length of the connector's housing. The opening(s) may have any suitable shape. In some embodiments, the openings may comprise a slot, bifurcated by crossbeams. The crossbeams may have ends positioned between signal conductors in the same row of the same type, either signal or ground. Alternatively or additionally, the crossbeams may be angled with respect to the rows of contacts such that the ends are positioned proximate conductors of a first type in one row and proximate conductors of a second type in another row.

A quadrax contact assembly includes an isolator having a longitudinal axis and defining four slots extending along the longitudinal axis and circumferentially spaced apart about the longitudinal axis, the four slots being accessible via radial openings in the isolator. The quadrax contact assembly further includes four contacts each configured to be received by a respective slot of the four slots by pressing each of the four contacts into the respective slot in a radial direction.

A method, comprising: forming a dielectric structure, the structure comprising a first terminal surface, a second terminal surface and a through-hole that extends from the first terminal surface to the second terminal surface, applying an electrically conductive material to at least a portion of the dielectric structure, removing a first portion of the electrically conductive material from the first terminal surface, and removing a second portion of the electrically conductive material from the second terminal surface, a remaining portion of the electrically conductive material constituting at least an inner conductor of a first generally coaxial conductor pair and a first shielding conductor of the first generally coaxial conductor pair, and the inner conductor extending through the through-hole.

An electrical connector is used for electrically connecting an electrical component to a circuit board. The electrical connector includes: an insulating body; multiple terminals provided on the insulating body, each terminal having a contact portion for being in contact with the electrical component, a conducting portion for being conductively connected to the circuit board, and a connecting portion connecting the contact portion and the conducting portion; and an conductive member provided independently from the terminals and electrically connected to a corresponding one of the terminals, so as to reduce inductance of the corresponding one of the terminals.

An electrical connector is used for electrically connecting an electrical component to a circuit board. The electrical connector includes: an insulating body; multiple terminals provided on the insulating body, each terminal having a contact portion for being in contact with the electrical component, a conducting portion for being conductively connected to the circuit board, and a connecting portion connecting the contact portion and the conducting portion; and an conductive member provided independently from the terminals and electrically connected to a corresponding one of the terminals, so as to reduce inductance of the corresponding one of the terminals.