Electric submersible pump (ESP) power cable splice containment filler

What is claimed is: 1. An electric submersible pump (ESP) power cable, comprising: a first plurality of electric conductors encased in a first protective armor and positioned in a flat cable configuration such that a first void area is defined between the first plurality of electric conductors; a second plurality of electric conductors encased in a second protective armor and positioned in a flat cable configuration such that a second void area is defined between the second plurality of electric conductors, wherein each one of the second plurality of electric conductors is spliced to a corresponding one of the first plurality of electric conductors by a single crimped splice sleeve; a first filler from 3 inches to 5 inches long positioned at least partially in the first void area and extending between 0.1 inches and 1 inch under an edge of the first protective armor; and a second filler from 3 inches to 5 inches long positioned at least partially in the second void area and extending between 0.1 inches and 1 inch under an edge of the second protective armor. 2. The ESP power cable of claim 1 , wherein each of the first plurality of electric conductors is encapsulated in an insulation layer that is unconstrained against expansion by tape proximate to a termination of the first protective armor and the first filler at least partially constrains the insulation layers of the first plurality of electric conductors against expansion where the insulation layers of the first plurality of electric conductors are unconstrained by tape; and wherein each of the second plurality of electric conductors is encapsulated in an insulation layer that is unconstrained against expansion by tape proximate to a termination of the second protective armor and the second filler at least partially constrains the insulation layers of the second plurality of electric conductors against expansion where the insulation layers of the second plurality of electric conductors are unconstrained by tape. 3. The ESP power cable of claim 2 , wherein the insulation layers of the first plurality of electric conductors are constrained against expansion by tape from about 2 inches away from the termination of the first protective armor to the plurality of splice sleeves and the insulation layers of the second plurality of electric conductors are constrained against expansion by tape from about 2 inches away from the termination of the second protective armor to the plurality of splice sleeves. 4. The ESP power cable of claim 2 , wherein the insulation layers of the first plurality of electric conductors are unconstrained by tape proximate to the termination of the first protective armor and the insulation layers of the second plurality of electric conductors are unconstrained by tape proximate the termination of the second protective armor because close working quarters between adjacent electric conductors proximate the first and second protective armor prohibits application of tape with suitably even tension at these locations. 5. The ESP power cable of claim 1 , wherein the first filler and the second filler comprise a thermoplastic material. 6. The ESP power cable of claim 1 , wherein the first filler and the second filler comprise a fluorinated ethylene propylene (FEP) material. 7. The ESP power cable of claim 1 , wherein the first filler comprises four filler elements, each filler element of the first filler having an about triangular cross-sectional shape and wherein the second filler comprises four filler elements, each filler element of the second filler having an about triangular cross-sectional shape. 8. The ESP power cable of claim 7 , wherein each of the filler elements of the first filler and each of the filler elements of the second filer define a cavity that extends the length of the filler element. 9. The ESP power cable of claim 1 , wherein each of the first plurality of electric conductors and each of the second plurality of electric conductors is encapsulated in a lead sheath. 10. The ESP power cable of claim 9 , wherein each of the lead sheaths is wrapped in a high modulus polytetrafluoroethylene (PTFE) tape. 11. The ESP power cable of claim 1 , wherein the first plurality of electric conductors comprise three conductors and the second plurality of electric conductors comprise three conductors. 12. The ESP power cable of claim 1 , wherein the lengths of the projections of the first plurality of conductors beyond the first protective armor are staggered and wherein the lengths of the projections of the second plurality of conductors beyond the second protective armor are staggered. 13. A method of building an electric submersible pump (ESP) power cable, comprising: removing a first portion of a first protective armor from an end of a first portion of flat ESP power cable comprising a first plurality of electric conductors; removing insulation in part from ends of the first plurality of electric conductors; removing a second portion of a second protective armor from an end of a second portion of flat ESP power cable comprising a second plurality of electric conductors; removing insulation in part from ends of the second plurality of electric conductors; splicing each one of the first plurality of electric conductors to a corresponding one of the second plurality of electric conductors by a single crimped splice sleeve; securing a first filler from 3 inches to 5 inches long along the first plurality of electric conductors and extending between 0.1 inches and 1 inch under an edge of the first protective armor; securing a second filler from 3 inches to 5 inches long along the second plurality of electric conductors and extending between 0.1 inches and 1 inch under an edge of the second protective armor; and installing a third portion of a third protective armor over the first filler and the second filler and over the splicing of the first plurality of electric conductors to the corresponding second plurality of electric conductors. 14. The method of claim 13 , wherein the first filler comprises four filler elements and the second filler comprises four filler elements, wherein securing the first filler along the first plurality of electric conductors comprises securing a first one of the filler elements of the first filler in a first void defined between a first electric conductor and a second electric conductor of the first plurality of electric conductors on a first side of the first portion of flat ESP power cable, securing a second one of the filler elements of the first filler in a second void defined between the first electric conductor and the second electric conductor of the first plurality of electric conductors on a second side of the first portion of flat ESP power cable, securing a third one of the filler elements of the first filler in a third void defined between the second electric conductor and a third electric conductor of the first plurality of electric conductors on the first side of the first portion of flat ESP power cable, and securing a fourth one of the filler elements of the first filler in a fourth void defined between the second electric conductor and the third electric conductor of the first plurality of electric conductors on the second side of the first portion of flat ESP power cable, and wherein securing the second filler along the second plurality of electric conductors comprises securing a first one of the filler elements of the second filler in a fifth void defined between a first electric conductor and a second electric conductor of the second plurality of electric conductors on a first side of the second portion of flat ESP power