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 power connector for an aircraft solid state power controller includes a first portion including a socket configured for receiving an electric plug, which is inserted into the socket in a receiving direction (R). The controller also includes a second portion comprising a connection surface configured for mating with a complementary connection surface of a complementary connection element. At least one opening is formed within the connection surface.

A mechanical fastener for an electrical interface may include a first handle and a second handle The first handle and second handle are located on opposite sides of the mechanical fastener. The mechanical fastener may also include a first housing, a second housing coupled to the first housing, an electrical interface housed in the mechanical fastener between the first and second housings, a first lever intermediary between the first handle and the first housing and mechanically coupled to the second handle, a second lever intermediary between the second handle and the second housing and mechanically coupled to the first handle, a first post coupled to the first handle and the second lever, and a second post coupled to the second handle and the first lever.

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 wireless communication device configured to be removably received in a first compartment of a first power tool device of a first type or in a second compartment of a second power tool device of a second type different than the first type of the first power tool device. An electronic processor of the wireless communication device may be configured to determine whether the wireless communication device is coupled to the first power tool device of the first type or the second power tool device of the second type. The electronic processor may be further configured to set an operational characteristic of the wireless communication device based on the determination of whether the wireless communication device is coupled to the first power tool device or the second power tool device.

A connector for a flat flexible cable includes a cable housing and a contact having an elastic portion. The cable housing includes a first housing having a termination passage extending through the first housing and a second housing mated with the first housing. A flat conductor exposed in a window extending through an insulation material of the flat flexible cable is held between the first housing and the second housing. The elastic portion extends through the termination passage and elastically bears against the flat conductor to electrically connect the contact to the flat conductor.

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 power tool may include a compartment in its housing and a first printed circuit board (PCB) located in the housing and electrically coupled to a first connector. An insertable wireless communication device may include a second electronic processor and an antenna that are each mounted to a second PCB. The insertable wireless communication device may be configured to be received in the compartment and may include a second connector configured to electrically and physically couple to the first connector. The insertable wireless communication device may be configured to wirelessly communicate with an external device. When the insertable wireless communication device is inserted into the compartment, a first conductive layer of the first PCB may be configured to be electrically coupled to the antenna via the first connector and the second connector such that the first conductive layer of the first PCB serves as a ground plane of the antenna.

Examples of a supporting assembly for supporting an installable component are described. The supporting assembly comprises a supporting member. The supporting assembly may further include a latch bar extending longitudinally to support the installable component. The supporting assembly may further include a coupling arm and a control knob. In an example, the control knob may be rotatable, and is to control rotation of the latch bar.

A flat conductor electric connector includes: a housing with a receiving space open to a back such that the flat conductor is inserted forward into the housing; and multiple terminals arrayed and held on the housing with plate surfaces of the terminals at right angle to a terminal array direction, wherein each terminal has an arm portion with a support target arm portion on an inner surface of a wall portion extending in a front-back direction, and with an arm portion having a first portion extending from a back end of the support target arm portion and elastically displaceable in a thickness direction of the flat conductor, and a second portion, on a receiving space side from the first elastic portion, being bent forward from a back end of the first portion, being elastically displaceable in the thickness direction, and having a contact portion contactable with the flat conductor.