Electrical cables with non-metallic jackets and methods of fabricating the same

What is claimed is: 1. A method of fabricating an electrical cable, the electrical cable including a plurality of insulated conductors and a bare conductor disposed approximately in parallel within an outer jacket such that the electrical cable has an elongated horizontal cross-section, comprising: parallelizing the insulated conductors and the bare conductor by feeding the plurality of insulated conductors and the bare conductor through at least one guide plate; and extruding the outer jacket over the parallelized insulated and bare conductors such that the electrical cable has the elongated horizontal cross-section; wherein parallelizing comprises: passing the insulated conductors and the bare conductor through a first guide plate; surrounding the bare conductor with a paper sheath; and passing the insulated conductors and the paper-sheathed bare conductor through a second guide plate. 2. The method of claim 1 , further comprising surrounding the parallelized insulated and bare conductors with a paper sheath prior to extruding. 3. The method of claim 1 , further comprising surrounding the parallelized insulated conductors and the bare conductor with binding twine prior to extruding. 4. A method of fabricating an NM-type electrical cable: passing a plurality of insulated conductors and a bare conductor through a first guide plate to parallelize the plurality of insulated conductors and the bare conductor; passing the bare conductor through a paper folder to wrap the bare conductor with paper; passing the insulated conductors and the paper-wrapped bare conductor through a second guide plate to parallelize the insulated conductors and the paper-wrapped bare conductor; passing the parallelized insulated and paper-wrapped bare conductors through a paper folder to wrap the parallelized insulated and paper-wrapped bare conductors with paper; and extruding a jacket around the paper-wrapped parallelized insulated and paper-wrapped bare conductors to produce an NM-type cable having a generally elongated horizontal cross-section with the insulated and the paper-wrapped bare conductors disposed generally in parallel within the jacket without cabling or bundling. 5. The method of claim 4 , further comprising: prior to passing the parallelized insulated and paper-wrapped bare conductors through the paper folder, wrapping a binding cord around the parallelized insulated and paper-wrapped bare conductors. 6. The method of claim 5 , wherein wrapping a binding cord around the parallelized insulated and paper-wrapped bare conductors comprises: passing the parallelized insulated and paper-wrapped bare conductors through a binder twine application stage for helically winding the binder twine around the parallelized insulated and paper-wrapped bare conductors; and passing the twine-wrapped parallelized insulated and paper-wrapped bare conductors through a twine-paper separator stage. 7. The method of claim 4 , wherein extruding a jacket around the paper-wrapped parallelized insulated and paper-wrapped bare conductors comprises: passing the paper-wrapped parallelized insulated and paper-wrapped bare conductors through a parallel retainer; passing an assembly exiting the parallel retainer through a parallel-type extrusion tip; and passing an assembly exiting the parallel-type extrusion tip through an extrusion die to produce the NM-type cable. 8. The method of claim 4 , wherein passing the plurality of insulated conductors and a bare conductor through a first guide plate comprises passing each of the insulated conductors and the bare conductor through a corresponding one of a plurality of generally round apertures formed in parallel through a guide plate. 9. The method of claim 4 , wherein passing the insulated conductors and the paper-wrapped bare conductor through a second guide plate comprises passing each of the insulated conductors and the paper-wrapped bare conductor through a corresponding one of a plurality of generally round apertures formed in parallel through a guide plate. 10. A method of fabricating an NM-type electrical cable: parallelizing three insulated conductors and a bare conductor; wrapping the bare conductor with paper; parallelizing the three insulated conductors and the paper-wrapped bare conductor; wrapping the parallelized three insulated and paper-wrapped bare conductors with paper to produce a paper-wrapped assembly; and forming a jacket around the paper-wrapped assembly to produce an NM-type cable with a generally elongated horizontal cross-section with the three insulated conductors and the paper-wrapped bare conductor disposed generally in parallel without bundling or cabling. 11. The method of claim 10 wherein parallelizing the three insulated conductors and the bare conductor comprises passing the three insulated conductors and the bare conductor through a first guide plate. 12. The method of claim 10 wherein wrapping the bare conductor with paper comprises wrapping the bare conductor with a paper folder. 13. The method of claim 10 , wherein parallelizing the three insulated and paper-wrapped bare conductors comprises passing the three insulated conductors and the paper-wrapped bare conductor through a guide plate. 14. The method of claim 10 , wherein wrapping the parallelized three insulated and paper-wrapped bare conductors with paper to produce a paper-wrapped assembly comprise wrapping the parallelized three insulated and paper-wrapped bare conductors with a paper folder. 15. The method of claim 10 , wherein forming a jacket around the paper-wrapped assembly comprises extruding plastic around the paper-wrapped assembly. 16. The method of claim 10 , further comprising wrapping binding cord around the parallelized three insulated conductor and paper-wrapped bare conductors prior to wrapping the parallelized three insulated and paper-wrapped bare conductors with paper to produce the paper-wrapped assembly.