A cable connection (16) for a dosing module (6) for exhaust gas reduction, with a dosing module end (16b), which is designed for connection to the dosing module (6), and an end (16a) distant from the dosing module, comprising at least one electrical cable (19a, 19b) having at least one electrical conductor (28a, 28b) and a cable insulation (15a, 15b) surrounding the at least one electrical conductor (28a, 28b). The cable connection (16) is crimped in one region (26a) at the dosing module end (16b) of the cable connection (16). In the crimped region, a space (36) between the at least one electrical conductor (28a, 28b) and the cable insulation (15a, 15b) surrounding the at least one electrical conductor (28a, 28b) is filled with a silicone material (17a, 17b).

A cooling lance is provided to cool an electrically conductive contact body. The cooling lance includes a lance body, a fluid line extending through the lance body, and a flexible cooling bladder positioned on an end of the lance body and in fluidic communication with the fluid line.

An electrical connector-assembly includes a first-housing and a second-housing. The first-housing has first-walls that include opposed gear-racks extending beyond an outer-surface. The opposed gear-racks are configured to engage a mate-assist device. The first-walls include opposed locking-fins extending beyond the outer-surface. The opposed locking-fins have first-fins and second-fins. The second-housing includes the mate-assist device which is moveable from an unlocked-position to a locked-position and is pivotable about the lateral-axis. The mate-assist device has gear-teeth configured to engage the opposed gear-racks of the first-housing. The second-housing has a skirt configured to slideably engage the outer-surface of the first-housing. The skirt includes flex-locks configured to engage the first-fins and retain the second-housing in a prestage-position. When the mate-assist device is moved from the unlocked-position to the locked-position, the second-housing is moved from the prestage-position to a seated-position, whereby the flex-locks engage the second-fins, thereby inhibiting a movement between the second-housing and the first-housing.

An electrical connector-assembly includes a first-housing and a second-housing. The first-housing has first-walls that include opposed gear-racks extending beyond an outer-surface. The opposed gear-racks are configured to engage a mate-assist device. The first-walls include opposed locking-fins extending beyond the outer-surface. The opposed locking-fins have first-fins and second-fins. The second-housing includes the mate-assist device which is moveable from an unlocked-position to a locked-position and is pivotable about the lateral-axis. The mate-assist device has gear-teeth configured to engage the opposed gear-racks of the first-housing. The second-housing has a skirt configured to slideably engage the outer-surface of the first-housing. The skirt includes flex-locks configured to engage the first-fins and retain the second-housing in a prestage-position. When the mate-assist device is moved from the unlocked-position to the locked-position, the second-housing is moved from the prestage-position to a seated-position, whereby the flex-locks engage the second-fins, thereby inhibiting a movement between the second-housing and the first-housing.

A system and method for stabilizing a DIMM in a DIMM connector so as to reduce wear related electrical disconnections therebetween. A base is disposed between adjacent DIMM connectors and is coupled to the motherboard. A cap engages a top edge of a plurality of DIMMs and an adjustable force is applied to the top of the DIMMS by turning a screw which extends from the cap into the base.

A system and method for stabilizing a DIMM in a DIMM connector so as to reduce wear related electrical disconnections therebetween. A base is disposed between adjacent DIMM connectors and is coupled to the motherboard. A cap engages a top edge of a plurality of DIMMs and an adjustable force is applied to the top of the DIMMS by turning a screw which extends from the cap into the base.

A ruggedized electrical receptacle that has a shell configured to receive an interface of a mating connector and a contact subassembly received in the shell. The contact subassembly includes a contact printed circuit board, interface contacts coupled to one face of the contact printed circuit board, termination contacts coupled to the other face thereof, and an overmold overmolded on the board. The overmold surrounds the contact printed circuit board such that free ends of the interface contacts are exposed and tail ends of the termination contacts are exposed. An internal sealing member is disposed between an outer surface of the overmold and the inner surface of the shell, thereby creating a seal therebetween.

A ruggedized electrical receptacle that has a shell configured to receive an interface of a mating connector and a contact subassembly received in the shell. The contact subassembly includes a contact printed circuit board, interface contacts coupled to one face of the contact printed circuit board, termination contacts coupled to the other face thereof, and an overmold overmolded on the board. The overmold surrounds the contact printed circuit board such that free ends of the interface contacts are exposed and tail ends of the termination contacts are exposed. An internal sealing member is disposed between an outer surface of the overmold and the inner surface of the shell, thereby creating a seal therebetween.

A reliable contact is produced in a simple and inexpensive manner for an internal electric device surrounded by a housing. An electric connection device for a housing element of the housing has at least one external electric connection element on the housing element for connecting a supply line of the internal electric device to an external electric device outside the housing. At least one line section, electrically connected to the external electric connection element on one side, and at least one terminal element, connected to the line section on the other side, connect to the supply line of the internal electric device. The external electric connection element, the at line section, and the terminal element are fixed on the housing element, and the terminal element is an inner face of the housing element and accessible from an outer face in a vicinity of an assembly opening in the housing element.

A reliable contact is produced in a simple and inexpensive manner for an internal electric device surrounded by a housing. An electric connection device for a housing element of the housing has at least one external electric connection element on the housing element for connecting a supply line of the internal electric device to an external electric device outside the housing. At least one line section, electrically connected to the external electric connection element on one side, and at least one terminal element, connected to the line section on the other side, connect to the supply line of the internal electric device. The external electric connection element, the at line section, and the terminal element are fixed on the housing element, and the terminal element is an inner face of the housing element and accessible from an outer face in a vicinity of an assembly opening in the housing element.