Combined electrical and mechanical potted termination for a center strength member cable

What is claimed is: 1. An electro-mechanical termination comprising: a first potted region surrounding a structural member and at least one of a plurality of electrical conductors of an electro-mechanical cable, wherein the first potted region separates the electrical conductors from the structural member; a second potted region adjacent to the first potted region and surrounding the structural member and at least one of the plurality of electrical conductors; wherein the second potted region further separates the electrical conductors from the structural member. 2. The electro-mechanical termination of claim 1 , wherein the first potted region is potted with a first material, wherein the second potted region is potted with a second material, and wherein the first material has a lower hardness than the second material. 3. The electro-mechanical termination of claim 2 , wherein the first material is silicone or polyurethane. 4. The electro-mechanical termination of claim 2 , wherein the second material is an epoxy or polyester resin. 5. The electro-mechanical termination of claim 1 , further comprising: a first exterior section that has a first profile shape in longitudinal cross-section; and a second exterior section that has a second profile shape in longitudinal cross-section, wherein the first profile shape is different than the second profile shape. 6. The electro-mechanical termination of claim 5 , wherein the first profile shape comprises a convex portion and a concave portion. 7. The electro-mechanical termination of claim 5 , wherein the second profile shape comprises a convex portion. 8. The electro-mechanical termination of claim 5 , wherein the first profile shape corresponds to the first potted region and the second profile shape corresponds to the second profile shape. 9. The electro-mechanical termination of claim 1 , further comprising: an interface between the first potted region and the second potted region, wherein at least a portion of the interface forms a cone coaxial to a long axis of the structural member with a cone angle θ relative to the long axis. 10. The electro-mechanical termination of claim 9 , wherein the cone angle θ is between fifteen and seventy-five degrees. 11. The electro-mechanical termination of claim 1 , further comprising: a plurality of protective sheaths, wherein each individual protective sheath is coaxial to each individual electrical conductor. 12. The electro-mechanical termination of claim 1 , further comprising: a cone member that surrounds an exterior surface of the first potted region and an exterior surface of the second potted region. 13. The electro-mechanical termination of claim 1 , further comprising: a cone member that surrounds an exterior surface of the second potted region; and a third potted region that surrounds the first potted region and is adjacent to the cone member. 14. The electro-mechanical termination of claim 1 , further comprising: a cone member that surrounds an exterior surface of the second potted region, wherein the first potted region extends radially beyond the second potted region and at least a portion of the first potted region that extends radially beyond the second potted region is adjacent to the cone member. 15. A method for terminating an electro-mechanical cable comprising: providing a mold comprising a mold cavity, the mold cavity comprising: a cable overlap section comprising a cylindrical cavity at a first end of the mold cavity; a second section comprising a second profile shape in longitudinal cross-section at a second end of the mold cavity; and a first section comprising a first profile shape in longitudinal cross-section between the cable overlap section and the second section, wherein the first profile shape is different than the second profile shape; placing a portion of an electro-mechanical cable in the cable overlap section of the mold, wherein the electro-mechanical cable comprises a structural member and a plurality of electrical conductors; splaying at least one of the plurality of electrical conductors away from the structural member; potting a first region, wherein the first region surrounds at least a portion of the structural member and at least a portion of the at least one of the plurality of electrical conductors; and potting a second region adjacent to the first region, wherein the second region surrounds at least a portion of the structural member and at least a portion of the at least one of the plurality of electrical conductors. 16. The method of claim 15 , further comprising: using a first potting material in the first region; and using a second potting material in the second region; wherein the first potting material has a lower hardness than the second potting material. 17. The method of claim 16 , wherein the first potting material is silicone or polyurethane. 18. The method of claim 16 , wherein the second potting material is an epoxy or polyester resin. 19. The method of claim 15 , wherein potting a first region comprises: placing a potting insert into the mold cavity coaxial to a long axis of the structural member; and injecting a first potting material between an interior surface of the mold cavity and an exterior surface of the potting insert. 20. The method of claim 19 , wherein potting a second region comprises: injecting a second potting material between an interior surface of the mold cavity and an exterior surface of the potting insert, wherein a portion of the second potting material is adjacent to the first potting material.