▎ 摘　　要

NOVELTY - The cable has a central conductor whose outer side is covered with a dielectric layer. An outer side of the dielectric layer is coated with a shielding layer. An outer side of the shielding layer is covered with a sheath. A graphene coated copper foil is coated on an outer side of the dielectric layer to form a first graphene coated copper foil layer. A copper wire woven mesh layer is formed on a copper wire woven mesh coated outside the first graphene coated copper foil layer. The graphene coated copper foil is coated outside the copper wire woven mesh layer to form a second graphene coated copper foil layer, where the graphene coated copper foil is formed by printing graphene ink coating on a copper layer surface of a copper foil. The second graphene coated copper foil layer is formed on the copper layer tightly adhered to the copper wire woven mesh layer. USE - Coaxial cable. ADVANTAGE - The cable has better shielding performance, and can increase shielding attenuation in range of 30MHz to 1000 MHz and shielding attenuation in range of 1000 MHz to 3000MHz. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a coaxial cable manufacturing method. DESCRIPTION OF DRAWING(S) - The drawing shows an exploded side view of a coaxial cable.