Multiple stress control device for cable accessories and methods and systems including same

That which is claimed is: 1. A cover unit device for termination of an electrical cable, the device comprising: a unitary cold shrinkable, tubular, elastomeric cover sleeve defining a cover sleeve through passage that is configured to receive the electrical cable, the cover sleeve comprising: a first type of stress control element; a second type of stress control element that is different from the first type of stress control element and that is radially disposed around the first type of stress control element; and an outer insulating layer radially disposed around the second type of stress control element; wherein the outer insulating layer, the first type of stress control element, and the second type of stress control element are integrally formed to form a unitary structure. 2. The device according to claim 1 , wherein the first type of stress control element comprises a geometrical stress relief element. 3. The device according to claim 2 , wherein the geometrical stress relief element comprises a stress cone that includes an electrically conductive and/or a semiconductive portion that is configured to conductively engage a semiconductor layer of the electrical cable. 4. The device according to claim 2 , wherein the second type of stress control element comprises a high dielectric constant stress relief element. 5. The device according to claim 1 , wherein the outer insulating layer comprises an elastomeric material that includes at least one of ethylene propylene diene monomer (EPDM) rubber, silicone, polyurethane rubber, styrene-butadiene copolymer, polychloroprene, nitrile rubber, butyl rubber and/or polysulfide rubber. 6. The device according to claim 1 , wherein the second type of stress control element is a high-K layer that comprises carbon particles embedded therein. 7. The device according to claim 1 , wherein the device cover sleeve is operable to manage the electrical field and electrical stresses at operating voltages greater than 40 kVolts. 8. The device according to claim 1 , further comprising a holdout that maintains the cover sleeve in an expanded state in which the cover sleeve is elastically expanded and when removed, permits the cover sleeve to radially contract to a contracted state about the electrical cable, wherein the holdout is a removable holdout that is mounted within the cover sleeve through passage and configured to be removed therefrom. 9. The device according to claim 1 , wherein the second type of stress control element is a high-K layer that has a dielectric constant greater than 12. 10. The device according to claim 1 , wherein the outer insulating layer, the first stress control element, and the second stress control element are bonded to one another to form the unitary structure. 11. The device according to claim 1 , wherein: the first type of stress control element comprises a high K layer; the second type of stress control element comprises a geometrical stress relief element; the high K layer is disposed radially within the geometrical stress relief element; and the high k layer is configured to be interposed between the geometrical stress relief element and a semiconductor layer of the electrical cable and conductively engage the semiconductor layer of the electrical cable. 12. The device according to claim 11 , wherein the geometrical stress relief element is a stress cone. 13. The device according to claim 12 , wherein the stress cone includes an electrically conductive and/or a semiconductive portion that is configured to conductively engage the semiconductor layer of the electrical cable. 14. The device according to claim 13 , wherein the stress cone includes a second electrically conductive and/or a semiconductive portion that engages an outer surface of the high K layer. 15. A method for installing a cover sleeve on an electrical cable, the method comprising the operations of: providing: a unitary cold shrinkable, tubular, elastomeric cover sleeve defining a cover sleeve through passage that is configured to receive the electrical cable, the cover comprising: a first type of stress control element; a second type of stress control element that is different from the first type of stress control element; and an outer insulating layer radially disposed around the second type of stress control element; wherein the outer insulating layer, the first type of stress control element, and the second type of stress control element are integrally formed to form a unitary structure; and a holdout that maintains the cover sleeve in an expanded state in which the cover sleeve is elastically expanded and when removed, permits that cover sleeve to radially contract to a contracted state about the electrical cable; positioning the holdout and the cover sleeve around the electrical cable; and removing the holdout from the cover sleeve to cause the cover sleeve to radially contract on the electrical cable. 16. The method according to claim 15 , wherein the cover sleeve is operable to manage the electrical field and electrical stresses at operating voltages greater than 40 kVolts. 17. A cover system for termination of an electrical cable, the cover system comprising: a unitary cold shrinkable, tubular, elastomeric cover sleeve defining a cover sleeve through passage that is configured to receive the electrical cable, the cover sleeve comprising: a first type of stress control element; a second type of stress control element that is different from the first type of stress control element; and an outer insulating layer radially disposed around the second type of stress control element; wherein the outer insulating layer, the first type of stress control element, and the second type of stress control element are integrally formed to form a unitary structure; a holdout that maintains the cover sleeve in an expanded state in which the cover sleeve is elastically expanded and when removed, permits the cover sleeve to radially contract to a contracted state about the electrical cable; wherein the first type of stress control element comprises a geometric stress cone that includes an electrically conductive and/or a semiconductive portion that is configured to conductively engage a semiconductor layer of the electrical cable, and wherein the second type of stress control element comprises a high dielectric constant stress relief element. 18. The system according to claim 17 , wherein the high dielectric constant stress relief element is a high-K layer that comprises carbon particles embedded therein. 19. The system according to claim 17 , wherein an operating voltage of the electrical cable is greater than about 40 kVolts. 20. A cover unit device for termination of an electrical cable, the device comprising: a unitary cold shrinkable, tubular, elastomeric cover sleeve defining a cover sleeve through passage that is configured to receive the electrical cable, the cover sleeve comprising: a first type of stress control element; and a second type of stress control element that is different from the first type of stress control element and that is radially disposed around the first type of stress control element; wherein: the first type of stress control element comprises a high K layer; the second type of stress control element comprises a geometrical stress relief element; the high K layer is disposed radially within the geometrical stress relief element between the geometric stress relief element; and the high k layer is configured to be interposed bet