A cable assembly, comprising a component, a cable, a rigid adhesive and a flexible adhesive. The cable may be coupled to the component. The rigid adhesive may be applied to cover the connection of the cable to the component. The flexible adhesive may be applied to cover the rigid adhesive. The component may comprise a ball grid array (BGA) and the cable may be coupled to the BGA. A hypodermic tubing may be applied over a portion of the rigid adhesive.

Disclosed is a heat sensor cable having: a conductor defining a conductor first end and a conductor body extending by a first longitudinal span from the conductor first end to a conductor second end; a coil that is non-conductive and includes a coil first end and a coil body extending by a second longitudinal span from the coil first end to a coil second end, wherein the coil surrounds the conductor from the conductor first end to the conductor second end; an outer sheath that is conductive and includes an outer sheath first end and an outer sheath body extending by a third longitudinal span from the outer sheath first end to an outer sheath second end, wherein the outer sheath surrounds the coil from the conductor first end to the conductor second end; and an eutectic salt that is disbursed between the conductor and the outer sheath.

Embodiments of a connecting element for connecting a first electrical assembly to a second electrical assembly may comprise a rigid, tubular outer housing made of an electrically conductive material and an electrical cable running inside the outer housing along a longitudinal axis of the outer housing. The electrical cable may include at least one inner conductor and a dielectric layer surrounding the at least one inner conductor. At least one segment of the outer housing may be reshaped along the longitudinal axis in such a way as to fix the electrical cable inside the outer housing.

Embodiments of a connecting element for connecting a first electrical assembly to a second electrical assembly may comprise a rigid, tubular outer housing made of an electrically conductive material and an electrical cable running inside the outer housing along a longitudinal axis of the outer housing. The electrical cable may include at least one inner conductor and a dielectric layer surrounding the at least one inner conductor. At least one segment of the outer housing may be reshaped along the longitudinal axis in such a way as to fix the electrical cable inside the outer housing.

A system is disclosed that includes a cable with a core material, an intermediate layer surrounding the core material, a retention assembly located around the core material and configured to compress the core material and restrict the core material from moving in the cable, and an outer metallic tubular surrounding the intermediate layer. Further an electrical device is coupleable to the cable.

A mineral-insulated cable has a non-circular cross-sectional shape that does not allow the internal wires to twist or change alignment during manufacturing of the cable.

A mineral-insulated cable has a non-circular cross-sectional shape that does not allow the internal wires to twist or change alignment during manufacturing of the cable.

Embodiments of a method for the manufacture of a connecting element for connecting one electrical assembly to another may comprise the steps of forming a rigid, tubular outer housing of an electrically conductive material, the outer housing having an axis which extends in a longitudinal direction; inserting longitudinally into the outer housing an electrical cable which has at least one inner conductor and a dielectric jacket surrounding the at least one inner conductor; and, reshaping at least one longitudinal segment of the outer housing to fix the electrical cable inside the outer housing. In some embodiments the reshaping may be carried out by rolling and in certain embodiments may be rolled radially at perimeter segments distributed along the perimeter of the longitudinal segment. Such perimeter segments may have a uniform radius and uniform arc length and may be spaced apart from one another such that a compensation segment is formed between the perimeter segments. The compensation segment may be a segment that accepts material displaced from the perimeter segments. In some embodiments the reshaping may comprise stamping the outer housing with stamping jaws. The forming step may comprise a step in which the outer housing is deep-drawn, extruded or turned from a metal blank.

Embodiments of a method for the manufacture of a connecting element for connecting one electrical assembly to another may comprise the steps of forming a rigid, tubular outer housing of an electrically conductive material, the outer housing having an axis which extends in a longitudinal direction; inserting longitudinally into the outer housing an electrical cable which has at least one inner conductor and a dielectric jacket surrounding the at least one inner conductor; and, reshaping at least one longitudinal segment of the outer housing to fix the electrical cable inside the outer housing. In some embodiments the reshaping may be carried out by rolling and in certain embodiments may be rolled radially at perimeter segments distributed along the perimeter of the longitudinal segment. Such perimeter segments may have a uniform radius and uniform arc length and may be spaced apart from one another such that a compensation segment is formed between the perimeter segments. The compensation segment may be a segment that accepts material displaced from the perimeter segments. In some embodiments the reshaping may comprise stamping the outer housing with stamping jaws. The forming step may comprise a step in which the outer housing is deep-drawn, extruded or turned from a metal blank.

Embodiments of a connecting element for connecting a first electrical assembly to a second electrical assembly may comprise a rigid, tubular outer housing made of an electrically conductive material and an electrical cable running inside the outer housing along a longitudinal axis of the outer housing. The electrical cable may include at least one inner conductor and a dielectric layer surrounding the at least one inner conductor. At least one segment of the outer housing may be reshaped along the longitudinal axis in such a way as to fix the electrical cable inside the outer housing.