A plug comprises a plug housing, an electrically conductive plug contact disposed in the plug housing, a contact body cooperating with the plug contact, and a slider displaceably guided in a sliding guide formed on the plug housing. The slider has a ramp surface cooperating with the contact body such that the contact body is pushed against the plug contact when the slider is slid into the plug housing.

A connection assembly includes an adapter to be mounted to a rear part of a subsea sensor, a sensor port being located in the adapter, through which at least a first and a second sensor connection are led to the subsea sensor; a first port for providing a connection to a first of the subsea cables; and a second port for providing a connection to a second of the subsea cables. A first penetrator is arranged in the first port to provide a liquid tight seal between an interior space of the adapter and a duct connected to the first port leading the first sensor connection through the first port, and a second penetrator is arranged in the second port providing a liquid tight seal between the interior space of the adapter and a duct connected to the second port and leading the second sensor connection through the second port.

A connection assembly includes an adapter to be mounted to a rear part of a subsea sensor, a sensor port being located in the adapter, through which at least a first and a second sensor connection are led to the subsea sensor; a first port for providing a connection to a first of the subsea cables; and a second port for providing a connection to a second of the subsea cables. A first penetrator is arranged in the first port to provide a liquid tight seal between an interior space of the adapter and a duct connected to the first port leading the first sensor connection through the first port, and a second penetrator is arranged in the second port providing a liquid tight seal between the interior space of the adapter and a duct connected to the second port and leading the second sensor connection through the second port.

A downhole electrical feedthrough package and method for making the same. The feedthrough package may include a metal shell forming a shell conduit. A metal web may be coupled to the metal shell, and the metal web may form a web conduit. A conducting pin may extend through the shell conduit and web conduit. A dielectric seal may electrically isolate the conducting pin from the metal web. The dielectric seal may be formed by a bismuth glass based dielectric sealing material system having at least two of the four components selected from Bi.sub.2O.sub.3, B.sub.2O.sub.3, MO, and optionally REO forming a bismuth glass system. MO may be selected from ZnO, BaO, TiO.sub.2, and Fe.sub.2O.sub.3, and their glass making pre-cursors. REO may be selected from CeO.sub.2, Y.sub.2O.sub.3, Sc.sub.2O.sub.3, Nd.sub.2O.sub.3, Pr.sub.2O.sub.3, and lanthanum series oxides. One or more isolators may be disposed within the shell conduit proximate to the dielectric seal and surrounding a portion of the conducting pin.

A cable includes a lead having at least one wire, and a connector having at least one contact and a liquid-tight dielectric housing. The at least one contact is electrically connected to the at least one wire such that an electric current is conductible from the at least one wire into the at least one contact. A temperature-sensitive measuring resistor is contained in the housing and is electrically connected to the at least one wire such that at least a portion of the electrical current that is conductible into the at least one contact flows through the measuring resistor. A metallic element is disposed on the housing and thermally connected to the measuring resistor.

A connector (1) includes a terminal (10) and a housing (H) for accommodating the terminal. The terminal (10) includes a case (20) having a ceiling wall (21) and accommodated in the housing, a coil spring (30) accommodated inside the case while being compressed in a compression direction toward the ceiling wall of the case, and a first conductive member (40) having a contact portion (43) with a mating terminal and sandwiched between one end (31) of the coil spring and an inner wall of the case, the contact portion being movable in the compression direction to further compress the coil spring. The case (20) is made of a metal material.

An electrical connector includes a first connector housing having a cavity aligned along a mating axis and configured to receive an electrical terminal. The first connector housing has a first holding means protruding outwardly from an outer surface of the first connector housing. The electrical connector also includes a second connector housing surrounding the first connector housing along the mating axis. The second connector housing has a second holding means protruding inwardly from an inner surface of the second connector housing. The first holding means includes a first blocking surface and the second holding means includes a second blocking surface. The first blocking surface is arranged opposite the second blocking surface. The first and second holding means cooperate with each other to press the first blocking surface to the second blocking surface while holding the first and second connector housings tightly together.

An electrical connector includes a first connector housing having a cavity aligned along a mating axis and configured to receive an electrical terminal. The first connector housing has a first holding means protruding outwardly from an outer surface of the first connector housing. The electrical connector also includes a second connector housing surrounding the first connector housing along the mating axis. The second connector housing has a second holding means protruding inwardly from an inner surface of the second connector housing. The first holding means includes a first blocking surface and the second holding means includes a second blocking surface. The first blocking surface is arranged opposite the second blocking surface. The first and second holding means cooperate with each other to press the first blocking surface to the second blocking surface while holding the first and second connector housings tightly together.

A connector assembly includes a connector body defining a cylindrical terminal cavity, an elongate conductor, such as an electrical cable, having one end terminated within the first terminal cavity, and a cylindrical first seal axially surrounding a portion of the first conductor. The seal defines a compliant primary sealing ring that is in compressive contact with an inner wall of the terminal cavity. The first seal further defines an elongate frustoconical sleeve. The connector assembly also includes a seal retainer that is attached to the connector body. The seal retainer defines an elongate frustoconical retainer cavity configured to receive first sleeve. At least a portion of the sleeve is in compressive contact an inner surface of the retainer cavity.

A connector assembly includes a connector body defining a cylindrical terminal cavity, an elongate conductor, such as an electrical cable, having one end terminated within the first terminal cavity, and a cylindrical first seal axially surrounding a portion of the first conductor. The seal defines a compliant primary sealing ring that is in compressive contact with an inner wall of the terminal cavity. The first seal further defines an elongate frustoconical sleeve. The connector assembly also includes a seal retainer that is attached to the connector body. The seal retainer defines an elongate frustoconical retainer cavity configured to receive first sleeve. At least a portion of the sleeve is in compressive contact an inner surface of the retainer cavity.