Signal transmission cable, multicore cable, and method of manufacturing signal transmission cable

What is claimed is: 1. A signal transmission cable comprising: a signal line; an insulation layer configured to cover the signal line; and a plating layer configured to cover the insulation layer, wherein an arithmetic average roughness Ra of an outer peripheral surface of the insulation layer is between 0.6 μm and 10 μm inclusive; wherein the insulation layer is made of polyethylene or perfluoroethylene-propene copolymer, wherein when the insulation layer is made of the polyethylene, a crystallinity Xc expressed in following Formula 1 is 0.744 or greater, wherein when the insulation layer is made of the perfluoroethylene-propene copolymer, a crystallinity Xc expressed in the following Formula 1 is 0.47 or less, and X c = I c I c + I a [ Formula ⁢ ⁢ 1 ] wherein Ic in the Formula 1 is X-ray diffraction intensity of a crystalline component, and Ia is X-ray diffraction intensity of a noncrystalline component. 2. The signal transmission cable according to claim 1 , wherein a thickness of the plating layer is between 1 μm and 5 μm inclusive, wherein a standard deviation of the thickness of the plating layer is 0.8 μm or less, and wherein the standard deviation of the thickness of the plating layer is measured by taking four cross sections of the signal line orthogonally to an axis of extension of the signal line, taking four random points on each cross section to make sixteen points in total, and measuring a thickness of the plating layer at each of the sixteen points and obtain a standard deviation, which is used as the standard deviation of the thickness of the plating layer. 3. The signal transmission cable according to claim 1 , wherein a contact angle on the outer peripheral surface of the insulation layer is 95° or less. 4. The signal transmission cable according to claim 1 , wherein an absolute value of adhesion-wetting surface free energy on the outer peripheral surface of the insulation layer is 66 mJ/m 2 or greater. 5. The signal transmission cable according to claim 1 , wherein the outer peripheral surface of the insulation layer comprises a concavity, and wherein the concavity comprises, at its bottom in a depth direction, a space that is wider than an opening of the concavity. 6. A multicore cable comprising: signal transmission cables; a conductor layer configured to cover the signal transmission cables collectively; and a jacket configured to cover the conductor layer, wherein each of the signal transmission cables comprises the signal transmission cable according to claim 1 and an outer insulation layer configured to cover the plating layer. 7. A signal transmission cable comprising, a signal line; an insulation layer configured to cover the signal line; and a plating layer configured to cover the insulation layer, wherein an arithmetic average roughness Ra of an outer peripheral surface of the insulation layer is between 0.6 μm and 10 μm inclusive; wherein the insulation layer is made of polyethylene, wherein the polyethylene has crystal structures of the triclinic crystal system or of the orthorhombic system, or has a coexisting state of at least one of these crystal structures, wherein the polyethylene has preferential crystalline orientations in specific two or less number of crystal axes, wherein a (100) crystal orientation degree O 100 of the polyethylene expressed in the following Formula 2 is 0.26 or less, and O 100 = I 200 I 110 + I 200 [ Formula ⁢ ⁢ 2 ] wherein I 200 in the Formula 2 is X-ray diffraction intensity of the index 200, and I 110 is X-ray diffraction intensity of the index 110. 8. The signal transmission cable according to claim 7 , wherein a contact angle on the outer peripheral surface of the insulation layer is 95° or less. 9. The signal transmission cable according to claim 7 , wherein an absolute value of adhesion-wetting surface free energy on the outer peripheral surface of the insulation layer is 66 mJ/m 2 or greater. 10. The signal transmission cable according to claim 7 , wherein the outer peripheral surface of the insulation layer comprises a concavity, and wherein the concavity comprises, at its bottom in a depth direction, a space that is wider than an opening of the concavity. 11. A multicore cable comprising: signal transmission cables; a conductor layer configured to cover the signal transmission cables collectively; and a jacket configured to cover the conductor layer, wherein each of the signal transmission cables comprises the signal transmission cable according to claim 7 and an outer insulation layer configured to cover the plating layer. 12. The signal transmission cable comprising, a signal line; an insulation layer configured to cover the signal line; and a plating layer configured to cover the insulation layer, wherein an arithmetic average roughness Ra of an outer peripheral surface of the insulation layer is between 0.6 μm and 10 μm inclusive wherein the insulation layer is made of polyethylene or perfluoroethylene-propene copolymer, wherein when the insulation layer is made of the polyethylene, the polyethylene has a crystalline size of 18 nm or greater in a crystalline component, and wherein when the insulation layer is made of the perfluoroethylene-propene copolymer, the perfluoroethylene-propene copolymer has a crystalline size of 13.6 nm or less in a crystalline component. 13. The signal transmission cable according to claim 12 , wherein a contact angle on the outer peripheral sur