The present invention relates to a connector which is disposed outside a case, the connector comprising: a terminal protruding at one end thereof into the case and protruding at the other end thereof out of the case; an inner housing coupled to the terminal so as to allow the terminal to protrude at the one end and the other end thereof; a pad disposed on one surface of the inner housing; and a housing completely surrounding the inner housing and the pad, wherein the housing comprises: a protrusion portion protruding from one surface of the case; and a mounting portion having a terminal groove in which the other protruding end of the terminal is placed.

A high voltage connector, connected to a device, that experiences a reduced electromagnetic interference (EMI), avoids galvanic corrosion of dissimilar metals within or without a fluid environment, and provides an effective electrical ground system. The connector includes an outer housing assembly, an inner housing mounted inside the outer housing, a set of cable reinforcement retainer assemblies secured inside the inner housing, a back cover through which the cables respectively slide along and covers a central opening of the outer housing, a braided shield covering the cables, and a clamp that connects the shield onto the outer housing. When assembling the high voltage connector, the outer housing is mounted onto the device; the inner housing is secured inside the outer housing; the set of cable reinforcement retainer assemblies with associated cables is secured in and extends in a substantially horizontal direction from the inner housing; a back cover is slid along the cables, and enters and covers a central opening of the outer housing; and a braided shield is mounted and connected to the outer housing by a clamp.

A high voltage connector, connected to a device, that experiences a reduced electromagnetic interference (EMI), avoids galvanic corrosion of dissimilar metals within or without a fluid environment, and provides an effective electrical ground system. The connector includes an outer housing assembly, an inner housing mounted inside the outer housing, a set of cable reinforcement retainer assemblies secured inside the inner housing, a back cover through which the cables respectively slide along and covers a central opening of the outer housing, a braided shield covering the cables, and a clamp that connects the shield onto the outer housing. When assembling the high voltage connector, the outer housing is mounted onto the device; the inner housing is secured inside the outer housing; the set of cable reinforcement retainer assemblies with associated cables is secured in and extends in a substantially horizontal direction from the inner housing; a back cover is slid along the cables, and enters and covers a central opening of the outer housing; and a braided shield is mounted and connected to the outer housing by a clamp.

A high pressure and temperature, hermetically sealed bulkhead connector with pin and socket contacts for use in logging tools is described. The bulkhead connector comprises (a) one or more contact(s) placed within one or more channels wherein the channels provide a clearance path between contact(s) and bulkhead body and travel at least a partial longitudinal distance between proximal and distal ends. The contact(s) reside in the channel(s) and include at least; an optional movement limiter section, one central elongated section, and one fixed section where the contact(s) is attached to the bulkhead body at the distal end. The body correctly positions respective ends of the contact so that the body secures contact(s) to be parallel to each other and the contact(s) have terminal ends for connection. This arrangement provides at least one pivotable, pliable, free floating contact extending away from the fixed distal end of the bulkhead body.

A high pressure and temperature, hermetically sealed bulkhead connector with pin and socket contacts for use in logging tools is described. The bulkhead connector comprises (a) one or more contact(s) placed within one or more channels wherein the channels provide a clearance path between contact(s) and bulkhead body and travel at least a partial longitudinal distance between proximal and distal ends. The contact(s) reside in the channel(s) and include at least; an optional movement limiter section, one central elongated section, and one fixed section where the contact(s) is attached to the bulkhead body at the distal end. The body correctly positions respective ends of the contact so that the body secures contact(s) to be parallel to each other and the contact(s) have terminal ends for connection. This arrangement provides at least one pivotable, pliable, free floating contact extending away from the fixed distal end of the bulkhead body.

A power supply integrated vacuum pump comprises: a pump housing in which a pump rotor is arranged; a power supply housing fixed to an outer surface of the pump housing; a connector configured to connect a pump-housing-side line and a power-supply-housing-side line; and a spacer fixed to the outer surface of the pump housing and having a connector fixing surface to which the connector is fixed.

A power supply integrated vacuum pump comprises: a pump housing in which a pump rotor is arranged; a power supply housing fixed to an outer surface of the pump housing; a connector configured to connect a pump-housing-side line and a power-supply-housing-side line; and a spacer fixed to the outer surface of the pump housing and having a connector fixing surface to which the connector is fixed.

A card edge connector includes a housing having a mounting end mounted to a host circuit board and a mating end having a card slot receiving a circuit card. Upper and lower contacts are received in upper and lower contact channels of the housing. The upper and lower contacts include corresponding mounting ends and mating ends with the mounting ends mounted to the host circuit board and the mating ends having first and second mating interfaces defining first and second points of contact with the same contact pad of the circuit card.

A cable connector assembly includes a housing having a first end mounted to an integrated circuit substrate over an integrated circuit component and a second end supporting a heat sink used to dissipate heat from the integrated circuit component. The housing includes a pocket receiving a cable module having a connector housing holding conductors and cables connected to the conductors. The connector housing has a mating end facing the integrated circuit substrate with the conductors arranged at the mating end for interfacing with integrated circuit conductors. A thermal shield is received in the pocket having an opening receiving the cables. The thermal shield has a thermal shielding wall positioned between the cables and the heat sink to provide a thermal barrier between the cables and the heat sink.

A cable connector assembly includes a housing having a first end mounted to an integrated circuit substrate over an integrated circuit component and a second end supporting a heat sink used to dissipate heat from the integrated circuit component. The housing includes a pocket receiving a cable module having a connector housing holding conductors and cables connected to the conductors. The connector housing has a mating end facing the integrated circuit substrate with the conductors arranged at the mating end for interfacing with integrated circuit conductors. A thermal shield is received in the pocket having an opening receiving the cables. The thermal shield has a thermal shielding wall positioned between the cables and the heat sink to provide a thermal barrier between the cables and the heat sink.