A connector includes a cage having a plurality of receiving chambers, a separation mechanism including a lower separation plate and an upper separation plate, a radiator disposed between the lower separation plate and the upper separation plate, and an elastic clip mounted on the radiator and elastically holding the radiator in the separation mechanism. The separation mechanism is located between and separates a pair of adjacent receiving chambers of the plurality of receiving chambers in a height direction of the connector. A pair of sides of the elastic clip opposite to each other in a lateral direction of the radiator are fixed between the lower separation plate and the upper separation plate.

An electrical connector assembly includes a contact module having an upper part and a lower part stacked with each other. The upper part includes a front/outer upper unit and a rear/inner upper unit and the lower part includes a front/outer lower unit and a rear/inner lower unit. Each unit includes an insulative body and a plurality of contacts integrally formed with the insulative body via an insert-molding process. The insulative body includes a middle sector and a pair of side sectors. The contacts include side-band contacts retained in the middle sector and differential-pair contacts retained in the side sectors.

A ganged connector assembly includes: a plurality of coaxial connectors, each of the coaxial connectors connected with a respective coaxial cable extending rearwardly therefrom, each of the coaxial connectors including an inner contact and an outer body that is electrically separated from the inner contact; a shell having a plurality of cavities; and a plurality of rear bodies, each of the rear bodies encircling a respective outer body, each of the rear bodies mounted in a respective cavity of the shell. Each of the rear bodies includes a first locking feature. A second locking feature is located in each of the cavities and is fixed relative to the shell. The first and second locking features are configured such that rotation of a first of the plurality of rear bodies relative to the shell moves the first rear body between locked and unlocked positions, wherein in the locked position a respective first connector and respective first cable are secured with the shell within a respective cavity, and in the unlocked position the first connector and first cable can be removed from the shell without removing the remaining connectors and cables.

A connector (10) according to the present disclosure is fitted with a connection object (60). The connector includes a pair of first insulators (20), a second insulator (30) arranged between the pair of first insulators (20) and is movable relative to the pair of first insulators (20), and contacts (50) mounted to the pair of first insulators (20) and the second insulator (30) and arranged in rows, wherein the pair of first insulators (20) are arranged apart from each other in a direction substantially orthogonal to an arrangement direction of the contacts (50).

A connector assembly method which includes connecting an external connector fixed to a case of equipment and an internal connector on an internal substrate in the case. A lead extending inward of the case is provided at the external connector, a contact terminal is provided in a socket opening formed at the internal connector, and the connecting the external connector and the internal connector includes inserting a tip end side of the lead into the socket opening in such a manner that the socket opening of the internal connector and a tip end of the lead of the external connector relatively approach each other.

A connector assembly method which includes connecting an external connector fixed to a case of equipment and an internal connector on an internal substrate in the case. A lead extending inward of the case is provided at the external connector, a contact terminal is provided in a socket opening formed at the internal connector, and the connecting the external connector and the internal connector includes inserting a tip end side of the lead into the socket opening in such a manner that the socket opening of the internal connector and a tip end of the lead of the external connector relatively approach each other.

In a connector (1), one end parts (31A, 31B and 31C) of first terminals (3A), a plurality of second terminals (3B) and a plurality of third terminals (3C) are arranged in parallel to each other along a first direction (D1). An outer resin portion (4) is formed with a first clamping portion (42A) for clamping one end part (20A) of a first core resin portion (2A) and one end part (20B) of a second core resin portion (2B) together, a second clamping portion (42B) for clamping the one end part (20A) of a first core resin portion (2A) and one end part (20C) of a third core resin portion (2C) together and a third clamping portion (42C) for clamping the one end part (20B) of a second core resin portion (2B) and the one end part (20C) of the third core resin portion (2C) together.

In a connector (1), one end parts (31A, 31B and 31C) of first terminals (3A), a plurality of second terminals (3B) and a plurality of third terminals (3C) are arranged in parallel to each other along a first direction (D1). An outer resin portion (4) is formed with a first clamping portion (42A) for clamping one end part (20A) of a first core resin portion (2A) and one end part (20B) of a second core resin portion (2B) together, a second clamping portion (42B) for clamping the one end part (20A) of a first core resin portion (2A) and one end part (20C) of a third core resin portion (2C) together and a third clamping portion (42C) for clamping the one end part (20B) of a second core resin portion (2B) and the one end part (20C) of the third core resin portion (2C) together.

Systems and methods are disclosed for a mechanical clip lock that may include a rigid substrate; a clip lock pin extending vertically from a surface of the rigid substrate; a semi-rigid arm having a first end coupled to the rigid substrate, the semi-rigid arm extending orthogonally from the rigid substrate; a clip lock socket disposed at a second end of the semi-rigid arm opposite the first end, the clip lock socket configured to releasably engage the clip lock pin; and a plurality of clipping pegs extending vertically from the surface of the rigid substrate, each of the plurality of clipping pegs disposed on an exterior portion of the clip lock pin, the plurality of clipping pegs configured to apply a compression force on a device when the clip lock socket and clip lock pin are releasably engaged, the compression force removably coupling the device to a printed circuit board.

Systems and methods are disclosed for a mechanical clip lock that may include a rigid substrate; a clip lock pin extending vertically from a surface of the rigid substrate; a semi-rigid arm having a first end coupled to the rigid substrate, the semi-rigid arm extending orthogonally from the rigid substrate; a clip lock socket disposed at a second end of the semi-rigid arm opposite the first end, the clip lock socket configured to releasably engage the clip lock pin; and a plurality of clipping pegs extending vertically from the surface of the rigid substrate, each of the plurality of clipping pegs disposed on an exterior portion of the clip lock pin, the plurality of clipping pegs configured to apply a compression force on a device when the clip lock socket and clip lock pin are releasably engaged, the compression force removably coupling the device to a printed circuit board.