Provided is a method of manufacturing a cable, including the following steps of: (a) providing two lateral sides of an inner layer that enclose two sides of a first conductor along a circumferential direction and an opposite direction of the circumferential direction respectively and join to each other, such that the inner layer covers an outer surface of the first conductor; and (b) providing an outer layer that continuously wraps around an outer surface of the inner layer along the circumferential direction and a length direction of the first conductor, thereby forming the cable. Provided is also a cable manufactured by the above method.

Disclosed is an armored cable assembly including a core having a notched assembly tape about a plurality of conductors. A metal sheath surrounds the core.

Disclosed is an armored cable assembly including a core having a notched assembly tape about a plurality of conductors. A metal sheath surrounds the core.

A method of manufacturing a cable includes the following steps: providing two lateral sides of a plurality of first wrapping layers of an inner layer that enclose two sides of a first conductor along a circumferential direction and an opposite direction of the circumferential direction respectively in sequence and join to each other, such that one of the plurality of first wrapping layers covers an outer surface of the first conductor, and the rest of the plurality of first wrapping layers sequentially cover an outer surface of a former layer of the plurality of first wrapping layers; wherein two lateral sides of each of the first wrapping layers are overlapped and formed an overlapping portion, and all of the overlapping portions of the first wrapping layers are staggered; and providing an outer layer that continuously wraps around an outer surface of the inner layer.

Provided is an insulted electrical cable including a core wire and a coating layer covering the core wire. The core wire is made up of at least one insulated wire including a conductor and an insulating layer covering the conductor. A coating member is disposed between the core wire and the coating layer to cover the core wire. A coefficient of kinetic friction between the coating member and the insulating layer at −30° C. is less than or equal to 0.20.

A cable includes a pair of core wires, a shielding layer covering the pair of core wires, and an outer insulating layer covering the shielding layer, wherein each of the pair of core wires includes an inner conductor and an insulating layer spirally wound around the inner conductor, the insulating layer includes at least two layers, and winding directions of adjacent insulating layers are different.

Disclosed is an armored cable assembly including a core having a notched assembly tape about a plurality of conductors. A metal sheath surrounds the core.

A movable part composite cable includes a plurality of power supply wires being designed for electric power supply, which respectively include a plurality of insulated electric wires being laid together and being covered by each covering member, the plurality of power supply wires being arranged in contact with each other on surfaces of their respective covering members, one or more signal wires being designed for signal transmission, each signal wire having an outer diameter smaller than an outer diameter of each power supply wire, and a jacket, which is being provided over an outer periphery of an aggregate including the plurality of power supply wires and the one or more signal wires that are laid together. The power supply wires and the signal wires are not in direct contact with each other, or the power supply wires and the signal wires are in direct contact with each other with a contact area therebetween being smaller than a contact area between the power supply wires.

A movable part composite cable includes a plurality of power supply wires being designed for electric power supply, which respectively include a plurality of insulated electric wires being laid together and being covered by each covering member, the plurality of power supply wires being arranged in contact with each other on surfaces of their respective covering members, one or more signal wires being designed for signal transmission, each signal wire having an outer diameter smaller than an outer diameter of each power supply wire, and a jacket, which is being provided over an outer periphery of an aggregate including the plurality of power supply wires and the one or more signal wires that are laid together. The power supply wires and the signal wires are not in direct contact with each other, or the power supply wires and the signal wires are in direct contact with each other with a contact area therebetween being smaller than a contact area between the power supply wires.

An electrical cable for use as a substitute for mineral-insulated cables in nuclear facilities is described herein. The cable may include at least one conductor, insulation, a jacket, and an armor shell. In some embodiments, the conductor may comprise a stranded conductor of one of various grades. The insulation may comprise phlogopite or muscovite mica tape that may be helically or longitudinally applied in overlapping concentric layers around at least one conductor. The jacket may comprise a woven glass braid applied over insulation surrounding one or multiple conductors. The armor may comprise hermitically sealed metallic armor applied around the other components of the cable, thereby forming an exterior of the cable. The inorganic materials utilized may be configured to limit the creation of adverse and/or undesirable elements instigated by transmutation from neutron irradiation exposure.