Power cable

The invention claimed is: 1. A power cable comprising: a conductor; an inner semi-conductive layer covering the conductor; an insulating layer covering the inner semi-conductive layer, the insulating layer being impregnated with an insulating oil; an outer semi-conductive layer covering the insulating layer; a metal sheath layer covering the outer semi-conductive layer; and a cable protection layer covering the metal sheath layer, wherein the insulating layer is formed by cross-winding insulating paper and impregnating the insulating paper with the insulating oil, wherein the inner semi-conductive layer and the outer semi-conductive layer are formed by cross-winding semi-conductive paper and impregnating the semi-conductive paper with the insulating oil, and wherein a thickness of the outer semi-conductive layer is 7.5 to 15% of a total thickness of the inner semi-conductive layer, the insulating layer, and the outer semi-conductive layer. 2. The power cable of claim 1 , wherein the thickness of the outer semi-conductive layer is 2 to 4 mm. 3. The power cable of claim 1 , wherein the insulating oil comprises a medium-viscosity insulating oil having a kinematic viscosity of 5 to 500 centistokes (Cst) at 60° C. 4. The power cable of claim 1 , wherein the insulating oil comprises a high-viscosity insulating oil having a kinematic viscosity of 500 centistokes (Cst) or more at 60° C. 5. The power cable of claim 1 , wherein the outer semi-conductive layer comprises: a lower layer formed by cross-winding the semi-conductive paper; and an upper layer formed by overlap-winding the semi-conductive paper and metallized paper. 6. The power cable of claim 1 , wherein the outer semi-conductive layer further comprises an uppermost layer formed of woven copper-wire fabric. 7. The power cable of claim 1 , wherein the insulating layer is formed by sequentially stacking an inner insulating layer, an intermediate insulating layer, and an outer insulating layer, the insulating layer being formed by cross-winding either kraft paper or semi-synthetic paper including a plastic film and kraft paper stacked on at least one side of the plastic film, a thickness of the inner insulating layer is 1 to 10%, a thickness of the intermediate insulating layer is 75% or more, and a thickness of the outer insulating layer is 5 to 15%, based on a total thickness of the insulating layer, and resistivities of both of the inner insulating layer and the outer insulating layer are less than resistivity of the intermediate insulating layer. 8. The power cable of claim 7 , wherein the thickness of the outer insulating layer is greater than the thickness of the inner insulating layer. 9. The power cable of claim 7 , wherein the thickness of the outer insulating layer is 1 to 15 times the thickness of the inner insulating layer. 10. The power cable of claim 1 , wherein the plastic film is formed of a polypropylene homopolymer resin. 11. The power cable of claim 7 , wherein a thickness of the kraft paper of the inner insulating layer and a thickness of the kraft paper of the outer insulating layer are less than a thickness of the kraft paper of the semi-synthetic paper. 12. The power cable of claim 7 , wherein a maximum impulse electric field value of the inner insulating layer is less than that of the intermediate insulating layer. 13. The power cable of claim 7 , wherein a maximum impulse electric field value of the intermediate insulating layer is 100 kV/mm or less. 14. The power cable of claim 7 , wherein a thickness of the plastic film is 40 to 70% of a total thickness of the semi-synthetic paper. 15. The power cable of claim 14 , wherein the thickness of the semi-synthetic paper is 70 to 200 μm, and a thickness of kraft paper of the inner insulating layer and the outer insulating layer is 50 to 150 μm. 16. The power cable of claim 1 , wherein the conductor is formed of annealed copper wire or aluminum, and comprises either a flat conductor formed by stacking flat element wires in multiple layers on a round center wire or a circularly compressed conductor formed by stacking and compressing round element wires in multiple layers on a round center wire.