An electrical connector that includes an outer conductive shell that encloses at least one signal contact therein and includes a front end for mating with a mating connector and a back end opposite the front end for electrically connecting to a printed circuit board. A primary ground connection is located inside or outside of the outer conductive shell, the primary ground connection being configured to electrically engage the mating connector with the printed circuit board or coaxial cable. A secondary ground connection is located inside or outside of the outer conductive shell and is configured to electrically engage the mating connector with the printed circuit board or the coaxial cable.

An electrical connector that includes an outer conductive shell that encloses at least one signal contact therein and includes a front end for mating with a mating connector and a back end opposite the front end for electrically connecting to a printed circuit board. A primary ground connection is located inside or outside of the outer conductive shell, the primary ground connection being configured to electrically engage the mating connector with the printed circuit board or coaxial cable. A secondary ground connection is located inside or outside of the outer conductive shell and is configured to electrically engage the mating connector with the printed circuit board or the coaxial cable.

A connector (7) includes: a first connector part (10) having a first module side connection part connected to one end of an OSFP module in the front (F), having a first substrate side connection part connected to a substrate, and installed on the substrate; a second connector part (20) provided at a position such that the first module side connection part is interposed between the substrate and the second connector part (20), having a second module side connection part connected to one end of an OSFP module at the front (F), having a second substrate side connection part connected to the substrate, and stacked on the first connector part (10); and an intermediate part (30) provided between the first connector part (10) and the second connector part (20), and a cooling flow path in which air flows from the front (F) side toward the rear (R) side of the connector (7) is formed in the intermediate part (30).

A spring seal for a cage of a high speed I/O connector, such as those compliant with an OSFP standard. The spring seal suppresses resonances in the operating frequency range of the connector in a space between the cage and a transceiver inserted in a channel of the cage to mate with the I/O connector. The spring seal has multiple peaks, separated by valleys, with short conducting paths between the peaks and valleys. The spring seal may connect a conductive exterior of the transceiver to a wall of the cage, with the peaks contacting a conductive exterior of the transceiver and the valleys contacting walls of the cage. The spring seal may have a plurality of slits that reduce the spring force while providing conducting paths between peaks and valleys.

A spring seal for a cage of a high speed I/O connector, such as those compliant with an OSFP standard. The spring seal suppresses resonances in the operating frequency range of the connector in a space between the cage and a transceiver inserted in a channel of the cage to mate with the I/O connector. The spring seal has multiple peaks, separated by valleys, with short conducting paths between the peaks and valleys. The spring seal may connect a conductive exterior of the transceiver to a wall of the cage, with the peaks contacting a conductive exterior of the transceiver and the valleys contacting walls of the cage. The spring seal may have a plurality of slits that reduce the spring force while providing conducting paths between peaks and valleys.

An industrial connector has a cylindrical metal shield with at least one slot in the rear of the shield for engaging a cable braid. In one embodiment, the shield also has a cable relief cut out of the rear opposite the at least one slot.

An industrial connector has a cylindrical metal shield with at least one slot in the rear of the shield for engaging a cable braid. In one embodiment, the shield also has a cable relief cut out of the rear opposite the at least one slot.

Provided is a connector module that is highly durable and that also allows easy position alignment with a connection target instrument while maintaining high shielding performance. The connector module includes a connector case and a connector inserted in the connector case. The connector includes a contact, a holder, a conductive tubular shell, a housing and a conductive shield case. The shield case includes a first member having an elastic portion and a second member in the form of a bottomed tube. The first member forms an elastic piece contactable with the second member. Fixing of the connector case to a main body case via a fastener member causes, in the connector, elastic deformation of the elastic piece, resulting in decrease in a gap between the first member and the second member, consequently in establishment of electrical connection between the first member and the second member.

Provided is a connector module that is highly durable and that also allows easy position alignment with a connection target instrument while maintaining high shielding performance. The connector module includes a connector case and a connector inserted in the connector case. The connector includes a contact, a holder, a conductive tubular shell, a housing and a conductive shield case. The shield case includes a first member having an elastic portion and a second member in the form of a bottomed tube. The first member forms an elastic piece contactable with the second member. Fixing of the connector case to a main body case via a fastener member causes, in the connector, elastic deformation of the elastic piece, resulting in decrease in a gap between the first member and the second member, consequently in establishment of electrical connection between the first member and the second member.

An electric connector includes an insulative body, multiple conductive terminals, a shielding sheet, and a shielding shell. The insulative body includes a base and a tongue. The conductive terminals include an upper row of terminals and a lower row of terminals, which are disposed on an upper side and a lower side of the tongue, respectively. The shielding sheet is embedded in the insulative body and located between the upper row of terminals and the lower row of terminals. Two sides of the shielding sheet are extended with an extending section respectively. A distal end of each extending section is folded back to form an engaging portion. The shielding shell is adapted to sheathes the insulative body. Two sides of the shielding shell are respectively provided with an engaging trough engaged with one of the engaging portions to make the shielding shell contact with the shielding sheet.