A drive loading jig, drive carrier assembly and method of using the same to insert and remove a drive from a host reduce the likelihood of a drive being damaged during insertion or removal. Such a drive loading jig has side walls with respective slots and a rear wall joining the side walls. Each of the slots includes multiple restraining walls to restrain a drive, when positioned in the jig, from bending with respect to a plane parallel to a major surface of the drive and from moving in a direction substantially perpendicular to the major surface. Stoppers formed in the side walls or rear wall define a maximum insertion depth of the drive. An alignment key-way on the loading jig is used to align the drive in the proper orientation prior to inserting the drive into the loading jig.

An interconnect system includes various anti-backout latches that are movable between an engaged position and a disengaged position. When in the engaged position, the anti-backout latches can be configured to prevent an interconnect module, such as an optical transceiver, from becoming unmated from a host module. When in the disengaged position, the anti-backout latches permit the interconnect module to become unmated from a host module. Securement members are also disclosed that secure a heat sink to a module housing of the interconnect module.

An interconnect system includes various anti-backout latches that are movable between an engaged position and a disengaged position. When in the engaged position, the anti-backout latches can be configured to prevent an interconnect module, such as an optical transceiver, from becoming unmated from a host module. When in the disengaged position, the anti-backout latches permit the interconnect module to become unmated from a host module. Securement members are also disclosed that secure a heat sink to a module housing of the interconnect module.

A connector assembly arrangement comprising, disposed on the faces of a circuit board in an electronic device, connector assemblies which, along with having a plug connector that incorporates a photoelectric conversion element capable of converting optical signals and electrical signals from one to the other and a receptacle connector with which said plug connector is mated, have the plug connector and the receptacle connector electrically connected through mutual contact between terminals; wherein the plug connector, from which a fiber optic cable for optical signal transmission that is connected to the photoelectric conversion element extends in one direction from said plug connector, also has terminals connected to the above-mentioned photoelectric conversion element; the fiber optic cable is a single fiber optic cable; and a plurality of connector assemblies are disposed on at least one of the two faces of the circuit board.

A base of a connector defines an accommodation portion for accommodating a card-type device. The base has holding portions with surfaces directed to the accommodation portion. The holding portions hold held portions of terminals 40. Heat conductive members are provided on the surfaces of the holding portions. The heat conductive members are sandwiched between the card-type device and the holding portions when the card-type device is connected to the connector 10. In this way, heat conductive paths, which include the conductive members, are formed between the card-type device and held portions of the terminals 40.

A base of a connector defines an accommodation portion for accommodating a card-type device. The base has holding portions with surfaces directed to the accommodation portion. The holding portions hold held portions of terminals 40. Heat conductive members are provided on the surfaces of the holding portions. The heat conductive members are sandwiched between the card-type device and the holding portions when the card-type device is connected to the connector 10. In this way, heat conductive paths, which include the conductive members, are formed between the card-type device and held portions of the terminals 40.

An electrical connector assembly includes an electrically conductive structure having a flat flexible conductor that supports a plurality of electrically conductive traces. A wire contact wedge includes a base having an opening extending therethrough and first and second wedge arms that extend from the base. The electrically conductive structure extends through the opening of the base and between the first and second wedge arms. A connector housing supports the wire contact wedge and the electrically conductive structure. The connector housing includes a body having an abutment surface that engages a corresponding abutment surface of the base of the wire contact wedge. A front cover is supported on the connector housing and includes a retaining arm that cooperates with a corresponding protrusion provided on the wire contact wedge.

An electrical connector assembly includes an electrically conductive structure having a flat flexible conductor that supports a plurality of electrically conductive traces. A wire contact wedge includes a base having an opening extending therethrough and first and second wedge arms that extend from the base. The electrically conductive structure extends through the opening of the base and between the first and second wedge arms. A connector housing supports the wire contact wedge and the electrically conductive structure. The connector housing includes a body having an abutment surface that engages a corresponding abutment surface of the base of the wire contact wedge. A front cover is supported on the connector housing and includes a retaining arm that cooperates with a corresponding protrusion provided on the wire contact wedge.

An electrical connector assembly includes an electrically conductive structure having a flat flexible conductor that supports a plurality of electrically conductive traces. A wire contact wedge includes a base having an opening extending therethrough and first and second wedge arms that extend from the base. The electrically conductive structure extends through the opening of the base and between the first and second wedge arms. A connector housing supports the wire contact wedge and the electrically conductive structure. The connector housing includes a body having an abutment surface that engages a corresponding abutment surface of the base of the wire contact wedge. A front cover is supported on the connector housing and includes a retaining arm that cooperates with a corresponding protrusion provided on the wire contact wedge.

An electrical connector assembly includes an electrically conductive structure having a flat flexible conductor that supports a plurality of electrically conductive traces. A wire contact wedge includes a base having an opening extending therethrough and first and second wedge arms that extend from the base. The electrically conductive structure extends through the opening of the base and between the first and second wedge arms. A connector housing supports the wire contact wedge and the electrically conductive structure. The connector housing includes a body having an abutment surface that engages a corresponding abutment surface of the base of the wire contact wedge. A front cover is supported on the connector housing and includes a retaining arm that cooperates with a corresponding protrusion provided on the wire contact wedge.