Connector carriers (e.g., connector carousels) for use with electronic device processing kiosks, such as mobile phone recycling kiosks, are disclosed herein. In some embodiments, a connector carrier includes a chassis and a plurality of electrical connectors fixedly positioned around a periphery of the chassis. In operation, the connector carrier is configured to rotate about a central axis to position a selected one of the electrical connectors in a first position adjacent to an inspection area of the kiosk, and then move toward the inspection area to move the selected electrical connector from the first position to a second position in which a user can connect a mobile phone to the electrical connector.

Connector carriers (e.g., connector carousels) for use with electronic device processing kiosks, such as mobile phone recycling kiosks, are disclosed herein. In some embodiments, a connector carrier includes a chassis and a plurality of electrical connectors fixedly positioned around a periphery of the chassis. In operation, the connector carrier is configured to rotate about a central axis to position a selected one of the electrical connectors in a first position adjacent to an inspection area of the kiosk, and then move toward the inspection area to move the selected electrical connector from the first position to a second position in which a user can connect a mobile phone to the electrical connector.

A 4.3/10 coaxial connector configured to receive a mating 4.3/10 connector includes: an inner contact; a dielectric spacer; and an outer contact, the dielectric spacer separating the inner contact and the outer contact. The outer contact includes an outer wall and a plurality of spring fingers, the spring fingers configured to deflect radially inwardly when the mating 4.3/10 connector is mated. The connector further comprises blocking structure that prevents mating of a Mini-Din connector.

A 4.3/10 coaxial connector configured to receive a mating 4.3/10 connector includes: an inner contact; a dielectric spacer; and an outer contact, the dielectric spacer separating the inner contact and the outer contact. The outer contact includes an outer wall and a plurality of spring fingers, the spring fingers configured to deflect radially inwardly when the mating 4.3/10 connector is mated. The connector further comprises blocking structure that prevents mating of a Mini-Din connector.

An electrical connector assembly includes: a housing having a base, a body extending rearward from the base, and a hole through the base and the body, the hole including a first part of a first diameter, a second part of a second diameter greater than the first diameter, and a step portion between the first part and the second part; a connector received by the housing, the connector having an insulating member, an inner conductor, and an outer conductor received by the first part of the hole, the outer conductor having plural tabs received by the second part of the hole; and a metal plate confining the tabs to the second part of the hole.

An electrical connector assembly includes: a housing having a base, a body extending rearward from the base, and a hole through the base and the body, the hole including a first part of a first diameter, a second part of a second diameter greater than the first diameter, and a step portion between the first part and the second part; a connector received by the housing, the connector having an insulating member, an inner conductor, and an outer conductor received by the first part of the hole, the outer conductor having plural tabs received by the second part of the hole; and a metal plate confining the tabs to the second part of the hole.

An electrical plug connector having a housing and a contact carrier held inside the housing. It comprises an electrically insulating base part and at least one pair of first electrical contacts for transmitting energy and multiple pairs of second electrical contacts for transmitting data. The contacts are held in the base part and arranged so as to be distributed in a plane extending essentially perpendicular relative to the longitudinal axis of the contact elements and the contact carrier. First distance lines between the contacts of the pairs of first contacts are free of overlaps with second distance lines between the contacts of the pairs of second contacts.

An electrical plug connector having a housing and a contact carrier held inside the housing. It comprises an electrically insulating base part and at least one pair of first electrical contacts for transmitting energy and multiple pairs of second electrical contacts for transmitting data. The contacts are held in the base part and arranged so as to be distributed in a plane extending essentially perpendicular relative to the longitudinal axis of the contact elements and the contact carrier. First distance lines between the contacts of the pairs of first contacts are free of overlaps with second distance lines between the contacts of the pairs of second contacts.

A high-performance single barrel power connector for receiving electric power may be capable of receiving more than 330 W up to approximately 600 W of power. The V+ pin and V− pin may each be configured with a large plurality of contact points for connecting to a power plug. A connector body retaining the V+ pin and V− pin may configured with openings to expose more of the V+ pin and V− pin to air and allow the V+ pin and V− pin to extend out of the power connector for convective and conductive heat transfer. A shell having a high thermal conductivity may be connected to the V− pin and V− pin and further connected to a bracket for increased heat transfer away from the V+ and V− pins.

A high-performance single barrel power connector for receiving electric power may be capable of receiving more than 330 W up to approximately 600 W of power. The V+ pin and V− pin may each be configured with a large plurality of contact points for connecting to a power plug. A connector body retaining the V+ pin and V− pin may configured with openings to expose more of the V+ pin and V− pin to air and allow the V+ pin and V− pin to extend out of the power connector for convective and conductive heat transfer. A shell having a high thermal conductivity may be connected to the V− pin and V− pin and further connected to a bracket for increased heat transfer away from the V+ and V− pins.