A wire harness according to one aspect of the present disclosure includes: a first wire harness that includes a first electric wire, a first shielding member, and a first connector; a second wire harness that includes a second electric wire, a second shielding member, and a second connector; and a connection member that electrically connects a drain wire of the first shielding member and a drain wire of the second shielding member to each other. A drain wire drawn out from an end portion of the first shielding member on the first connector side is grounded. A drain wire drawn out from an end portion of the second shielding member on the second connector side is inserted into a vacant cavity of the second connector.

A wire harness according to one aspect of the present disclosure includes: a first wire harness that includes a first electric wire, a first shielding member, and a first connector; a second wire harness that includes a second electric wire, a second shielding member, and a second connector; and a connection member that electrically connects a drain wire of the first shielding member and a drain wire of the second shielding member to each other. A drain wire drawn out from an end portion of the first shielding member on the first connector side is grounded. A drain wire drawn out from an end portion of the second shielding member on the second connector side is inserted into a vacant cavity of the second connector.

The present disclosure relates to a molded article provided with a resin part formed with a thermoplastic resin composition. The molded article is provided with a resin part formed with a thermoplastic resin composition. The thermoplastic resin composition containing a thermoplastic resin, cellulose, and an ionic compound, wherein a content of the cellulose is 1 to 100 parts by mass based on 100 parts by mass of the thermoplastic resin, and a content of the ionic compound is 0.001 times or more and less than 1.000 times the content of the cellulose.

A cable harness supplies a plurality of electric devices which are in a distributed arrangement in a device housing. A first connection point of the cable harness has a plug connector on the side of the cable harness. At least the electric devices which are supplied via the first connection point are connected to the first plug connector on the side of the cable harness by way of a device-side plug connector and an adapter that is plugged together with both plug connectors.

A cable harness supplies a plurality of electric devices which are in a distributed arrangement in a device housing. A first connection point of the cable harness has a plug connector on the side of the cable harness. At least the electric devices which are supplied via the first connection point are connected to the first plug connector on the side of the cable harness by way of a device-side plug connector and an adapter that is plugged together with both plug connectors.

A socket strengthener, a board-to-board socket, and a board-to-board connector assembly. The socket strengthener (60) comprises a main body part (61), top surface cover parts (66) and lateral outer peripheral wall cover parts (64) formed by extending from the main body part (61), elastic arm parts (65) curving backwards from the ends of the lateral outer peripheral wall cover parts (64) and extending to the inner sides of the lateral outer peripheral wall cover parts (64). The top surface cover parts (66), on the side adjacent to the elastic arm parts (65) bend downward to form guide parts (662). Viewed from top to bottom, the guide parts (662) do not overlap with the elastic arm parts (65), and the bottoms of the guide parts (662) are lower than the tops of the elastic arm parts (65). The board-to-board socket comprises a socket body, a socket terminal, and the socket strengthener. The board-to-board connector assembly comprises the board-to-board socket and a plug matched therewith. Guide parts are formed by means of a bending downward on the lateral outer side of the top surface cover parts of the socket strengthener, and elastic arm parts are formed by means of a backwards bending of the free ends of the lateral outer peripheral wall cover parts. The elastic arm parts and the guide parts are displaced in lateral directions so as to increase the length by which the guide parts extend downwards, causing the guide parts to be able to protect the elastic main arm of the elastic arm part throughout the entirety of an insertion process.

A socket strengthener, a board-to-board socket, and a board-to-board connector assembly. The socket strengthener (60) comprises a main body part (61), top surface cover parts (66) and lateral outer peripheral wall cover parts (64) formed by extending from the main body part (61), elastic arm parts (65) curving backwards from the ends of the lateral outer peripheral wall cover parts (64) and extending to the inner sides of the lateral outer peripheral wall cover parts (64). The top surface cover parts (66), on the side adjacent to the elastic arm parts (65) bend downward to form guide parts (662). Viewed from top to bottom, the guide parts (662) do not overlap with the elastic arm parts (65), and the bottoms of the guide parts (662) are lower than the tops of the elastic arm parts (65). The board-to-board socket comprises a socket body, a socket terminal, and the socket strengthener. The board-to-board connector assembly comprises the board-to-board socket and a plug matched therewith. Guide parts are formed by means of a bending downward on the lateral outer side of the top surface cover parts of the socket strengthener, and elastic arm parts are formed by means of a backwards bending of the free ends of the lateral outer peripheral wall cover parts. The elastic arm parts and the guide parts are displaced in lateral directions so as to increase the length by which the guide parts extend downwards, causing the guide parts to be able to protect the elastic main arm of the elastic arm part throughout the entirety of an insertion process.

A thermal conductive device and thermal conductive device manufacturing method, an electrical connector, and an electronic device. The thermal conductive device comprises first housing, a second housing, a capillary mesh component, and a coolant. The second housing is disposed on the first housing. An airtight and vacuumed accommodating space is provided between the first housing and the second housing. The capillary mesh component is disposed in the accommodating space. The capillary mesh component comprises a plurality of capillary pores. The plurality of capillary pores and the accommodating space form a plurality of interconnected circulation channels. The coolant is filled in the accommodating space. Inside the thermal conductive device, the conventional copper powder sintered configuration is replaced with capillary mesh component, so that the thermal conductive device could be thinned and could present a better thermal conductivity.

A plug of a connector that performs optical transmission is provided with an optical connection unit. The optical connection unit includes a lens that is provided on a side surface of the optical connection unit and performs optical connection with a lens provided on an optical connection unit of a receptacle in a direction orthogonal to an inserting/removing direction of the plug, and a locating surface that is provided on the side surface of the optical connection unit and abuts on a locating surface of the receptacle to determine a position of the optical connection unit in a mating condition of the plug into the receptacle.

A terminal module includes a number of conductive terminals. The conductive terminals include a first signal terminal and a second signal terminal. A contact portion of the first signal terminal includes a first contact arm, a second contact arm and a first clamping space. The first contact arm includes a first contact end portion and a first contact arm body portion connected with the first contact end portion. The first contact arm body portion includes a first end connected to the first contact end portion and a second end opposite to the first end. From the first end to the second end, a width of the first contact arm body portion gradually increases. As a result, it is beneficial to improve the contact impedance when it is mated with a mating backplane connector. The present disclosure also discloses a backplane connector having the terminal module.