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.

A steering device includes: a steering gear housing, which provides a sensor accommodation region; a steering sensor unit, which is situated in the sensor accommodation region when installed; a housing cover, which is provided to cover the sensor accommodation region in the axial direction when installed; and a connector unit, which can be situated in a contact recess in the steering gear housing or in the housing cover, for making, in particular direct, electrical contact with the steering sensor unit during the process of installing the connector unit. The connector unit includes a plug unit with at least one plug element for connection to the steering sensor unit, and a support unit. The connector unit also includes an elastic compensation unit, which is connected fixedly to the plug element and to the support unit and is provided to resiliently support the plug element.

Systems and methods for a coupler including: a cable comprising a bend relief disposed at an end of the cable and one or more wires; a socket comprising one or more pins and one or more socket terminals, where the one or more pins are electrically connected to the one or more socket terminals; and a housing body disposed between the cable and the socket, where the housing body comprises a portion of the bend relief and the one or more wires connected to the one or more socket terminals, and where at least a portion of the housing body is made of hot melt such that the housing body encapsulates the portion of the bend relief, the one or more socket terminals, and the one or more wires connected to the one or more socket terminals.

The present invention includes a battery harvesting adapter configured to connect to a plurality of batteries operable to power a plurality of radios. The plurality of radios includes a PRC-148, a PRC-152, and a PRC-163 radio. The battery harvesting adapter is further configured to capture power from a battery and transfer the power to a radio, a battery, a portable power case, a DC-DC converter, and other equipment.

A rubber plug A includes a tubular seal functioning portion 10 through which a wire 20 is passed, and a tubular portion 15 through which the wire 20 is passed. The seal functioning portion 10 exhibits a sealing function by being held resiliently in close contact with an inner peripheral surface of a terminal accommodation chamber 29 and an outer peripheral surface of the wire 20. The tubular portion 15 is disposed behind the seal functioning portion 10. Weight portions 16 relatively displaceable with respect to the tubular portion 15 are formed on the outer periphery of the tubular portion 15.

An electrical plug connector terminates a twisted pair electrical cable. The electrical plug connector includes a base and a plug housing holding electrical contacts therebetween. The base includes a divider structure including separation walls. At least one of the separation walls defines an abutment surface against which a forward end of the electrical cable abuts when terminated by the electrical plug connector. The plug housing defines slots so that the electrical contacts are accessible. The electrical plug connector axially secures an outer jacket of the electrical cable against rearward movement relative to base. The at least one separation wall inhibits forward axial movement of the outer jacket of the electrical cable relative to the base.

A plug connector for connecting an attachment cable to a mating plug connector of an electrical appliance in the form of a vacuum cleaner, wherein the plug connector has a contact carrier having plug contacts which are connected or connectable to the attachment cable and which can be brought into an electrical contact position with mating plug contacts of the mating plug connector by a plugging movement along a plug axis, wherein the contact carrier is received, in an axially movable manner with respect to the plug axis, in a plug housing which is mounted rotatably about the plug axis with respect to the contact carrier, wherein rotary form-fit contours are arranged on the plug housing and can be brought into form-fit engagement with mating rotary form-fit contours of the mating plug connector by a rotation movement of the plug housing about the plug axis with respect to the contact carrier, such that the plug connector is secured on the mating plug connector in a tension-resistant manner with respect to the plug axis, and wherein the plug connector has a cable sleeve for the attachment cable.

A fixing structure of a connector is disclosed. The connector includes an insert portion and multiple wires connected to the insert portion. The fixing structure includes a wire binding block, a lower shell and an upper shell disposed with multiple first engaging structures. The lower shell is disposed with multiple second engaging structures separately corresponding to the first engaging structures and connected with the upper shell to form a chamber for receiving the connector and form a wiring hole for being passed by the wires. The wires are extended from the insert portion toward the wiring hole to form a bend section and a curve section in the chamber. The wire binding block is fixed on the curve section of the wires and clamped by the upper shell and the lower shell through engagement of the first engaging structures and the second engaging structures.

A connection device for interconnecting electrical components that uses a plurality of contact layers. Each of the contact layers includes a substrate of dielectric material with a top edge, a bottom edge and side surfaces. A plurality of conductive elements extends in parallel through the dielectric material. The various contact layers are stacked. The side surfaces of the contact layers interconnect through a matrix of connective pillars. The connective pillars provide a network of open spaces between each of the contact layers. When the overall connection device is compressed, the dielectric material compresses and widens. The open areas receive the deformation and prevent the deformations from propagating lateral forces that can act to displace the conducive elements.

The present invention includes a battery harvesting adapter configured to connect to a plurality of batteries operable to power a plurality of radios. The plurality of radios includes a PRC-148, a PRC-152, and a PRC-163 radio. The battery harvesting adapter is further configured to capture power from a battery and transfer the power to a radio, a battery, a portable power case, a DC-DC converter, and other equipment.