A portable or wearable electronic device can include a device housing defining an internal volume, and an electronic component disposed in the internal volume. The electronic component can be an input component and can have a component housing. The electronic device can also include an antenna feed assembly disposed in the internal volume. The antenna feed assembly can include a conductive grounding component electrically connected to the component housing and the device housing, and an antenna feed component electrically connected to the grounding component and disposed adjacent to the component housing. The conductive grounding component can surround a first major surface and a second major surface of the component housing.

It is aimed to provide a connector capable of ensuring connection reliability with a circuit board. A connector includes a housing and a terminal fitting to be disposed in the housing. The terminal fitting includes a terminal connecting portion to be connected to a mating terminal fitting, a board connecting portion to be connected to a circuit board and a shaft portion located between the terminal connecting portion and the board connecting portion. The housing includes a supporting portion for rotatably supporting the terminal fitting by being engaged with the shaft portion. The terminal fitting has a center of gravity on a side closer to the board connecting portion than the shaft portion.

A socket contact includes a main body extending along a longitudinal axis between a mating end and a terminating end of the socket contact. The main body has a first side and a second side. The main body has a front and a rear extending between the first side and the second side. The socket contact includes a contact tail at the terminating end configured to be terminated to a circuit board. The socket contact includes a mating socket at the mating end. The mating socket includes a first beam and a second beam opposite the first beam. The mating socket includes a third beam longitudinally offset from the first beam and longitudinally offset from the second beam.

The invention provides a shield shell that allows easy insertion of a circuit board or other insulator into the shield shell. A shield shell 300 includes a shell body 310 and first and second position restrictors 320a and 320b. The first position restrictor 320a is provided at an edge portion 315 of an insertion port 310 of the shell body 310 and is located inside the insertion port 315. The second position restrictor 320b is provided in the shell body 310 so as to oppose the first position restrictor 320b with a spacing in a Z-Z′ direction. A distance in the Z-Z′ direction from the first position restrictor 320a to the second position restrictor 320b is substantially equal to, or slightly larger than, a distance in the Z-Z′ direction from a first face 101 to a second face 102 of a circuit board 100. When the circuit board 100 is inserted into the shell body 310 through the insertion port 315, the first position restrictor 320a and the second position restrictor 320b are abuttable on the first face 101 and the second face 102, respectively, of the circuit board 100.

A test socket (14) for a testing an integrated circuit (12) with controlled impedance while maintaining the structural integrity of the test pins (20). The pin (20) can have a sidewall with a thick portion 32 and a thinner portion (30) along the length of the pin. The pin can have projections (42) which provide a standoff from the slot (40). The sidewalls themselves can have projections or lands (60, 61) which extend into the slot and provide stability for the pin (20).

A test socket (14) for a testing an integrated circuit (12) with controlled impedance while maintaining the structural integrity of the test pins (20). The pin (20) can have a sidewall with a thick portion 32 and a thinner portion (30) along the length of the pin. The pin can have projections (42) which provide a standoff from the slot (40). The sidewalls themselves can have projections or lands (60, 61) which extend into the slot and provide stability for the pin (20).

Disclosed aspects relate to connector structures and a card. A first connector structure is to join a first subset of a set of electrical connections. A second connector structure is to join a second subset of the set of electrical connections. The card manages the set of electrical connections and is located between the first and second connector structures to connect with the first and second connector structures.

Disclosed aspects relate to connector structures and a card. A first connector structure is to join a first subset of a set of electrical connections. A second connector structure is to join a second subset of the set of electrical connections. The card manages the set of electrical connections and is located between the first and second connector structures to connect with the first and second connector structures.

An electronic assembly is provided and includes a host circuit board having an upper surface and board contacts on the upper surface. The upper surface has a mounting area. The electronic assembly includes a socket connector mounted to the host circuit board at the mounting area. The socket connector includes a socket housing holding a plurality of socket contacts. Each socket contact has an upper contact portion and a lower contact portion. The lower contact portion is electrically connected to the corresponding board contact of the host circuit board. The socket contact is compressible between the upper contact portion and the lower contact portion. The socket housing includes coolant channels configured to receive coolant. The electronic assembly includes an electronic package coupled to the socket connector. The electronic package has a lower surface and package contacts on the lower surface. The package contacts are electrically connected to the upper contact portions of the socket contacts.

An electronic assembly is provided and includes a host circuit board having an upper surface and board contacts on the upper surface. The upper surface has a mounting area. The electronic assembly includes a socket connector mounted to the host circuit board at the mounting area. The socket connector includes a socket housing holding a plurality of socket contacts. Each socket contact has an upper contact portion and a lower contact portion. The lower contact portion is electrically connected to the corresponding board contact of the host circuit board. The socket contact is compressible between the upper contact portion and the lower contact portion. The socket housing includes coolant channels configured to receive coolant. The electronic assembly includes an electronic package coupled to the socket connector. The electronic package has a lower surface and package contacts on the lower surface. The package contacts are electrically connected to the upper contact portions of the socket contacts.