Battery assembly with linear bus bar configuration

What is claimed is: 1. A battery assembly, comprising: a plurality of batteries, each battery of said plurality of batteries comprising a first terminal at a first end portion of said battery and a second terminal at said first end portion of said battery, wherein said plurality of batteries are divided into a plurality of battery groups, each battery group of said plurality of battery groups comprising a subset of said plurality of batteries, wherein said batteries within each subset of said plurality of batteries are electrically connected in parallel, and wherein said battery groups of said plurality of battery groups are electrically connected in series; an upper tray member, wherein said upper tray member captures said first end portion of each battery of said plurality of batteries, said upper tray member further comprising a plurality of apertures, wherein said plurality of apertures provide access to said first terminal and to said second terminal of each battery of said plurality of batteries; a plurality of bus bars attached to an upper surface of said upper tray member, wherein said plurality of bus bars are non-overlapping, wherein said plurality of bus bars are devoid of contact fingers, wherein said plurality of bus bars are configured in an alternating pattern with said plurality of battery groups, wherein said alternating pattern alternates a single bus bar of said plurality of bus bars with a single battery group of said plurality of battery groups such that only one bus bar is adjacent to either side of each battery group, wherein a first set of said bus bars are of a first polarity and wherein a second set of said bus bars are of a second polarity, wherein said plurality of bus bars attached to said upper surface of said upper tray member alternate between said first polarity and said second polarity, wherein each battery of a corresponding battery group is electrically connected via said first terminal to one bus bar of said first set of bus bars adjacent to a first side of said corresponding battery group and electrically connected via said second terminal to one bus bar of said second set of bus bars adjacent to a second side of said corresponding battery group; a lower tray member comprising a second plurality of apertures corresponding to said plurality of batteries, wherein said lower tray member captures a second end portion of each battery of said plurality of batteries; and a heat spreader coupled to a lower surface of said lower tray member, wherein at least a lowermost surface of each battery of said plurality of batteries passes through said lower tray member and is in thermal contact with an upper surface of said heat spreader. 2. The battery assembly of claim 1 , wherein said plurality of bus bars are linear and of approximately uniform thickness and of approximately uniform width. 3. The battery assembly of claim 1 , wherein an upper surface of each bus bar of said plurality of bus bars is coplanar with said upper surface of said upper tray member. 4. The battery assembly of claim 1 , wherein each bus bar of said plurality of bus bars is molded into said upper surface of said upper tray member. 5. The battery assembly of claim 1 , wherein each bus bar of said plurality of bus bars is bonded to said upper surface of said upper tray member. 6. The battery assembly of claim 1 , wherein said heat spreader is fabricated from a metal with a thermal conductivity of at least 100 Wm −1 K −1 . 7. The battery assembly of claim 1 , further comprising a thermally conductive material interposed between said upper surface of said heat spreader and said lowermost surface of each battery of said plurality of batteries. 8. The battery assembly of claim 7 , wherein said thermally conductive material has a thermal conductivity of at least 2.0 Wm −1 K −1 . 9. The battery assembly of claim 7 , wherein said thermally conductive material has an electrical resistivity of at least 10 12 ohm-cm. 10. The battery assembly of claim 1 , further comprising a heat sink thermally coupled to a lower surface of said heat spreader. 11. The battery assembly of claim 1 , further comprising a thermal management system comprising a least one cooling conduit, said at least one cooling conduit in thermal contact with a lower surface of said heat spreader. 12. The battery assembly of claim 1 , further comprising a battery separating member, said battery separating member comprising a plurality of cavities corresponding to said plurality of batteries, wherein said first end portion of each of said plurality of batteries extends out of a first side of said battery separating member and is captured by said upper tray member, and wherein said second end portion of each of said plurality of batteries extends out of a second side of said battery separating member and is captured by said lower tray member, and wherein each cavity of said plurality of cavities has six sides. 13. The battery assembly of claim 12 , wherein said upper tray member, said lower tray member, and said battery separating member are each fabricated from a plastic material. 14. The battery assembly of claim 1 , further comprising a battery separating member, said battery separating member comprising a plurality of cavities corresponding to said plurality of batteries, wherein said first end portion of each of said plurality of batteries extends out of a first side of said battery separating member and is captured by said upper tray member, and wherein each cavity of said plurality of cavities has six sides. 15. The battery assembly of claim 14 , wherein each side of said six sides is straight, and wherein said six sides are of equal length. 16. The battery assembly of claim 14 , wherein each side of said six sides curves inward towards a corresponding cavity centerline. 17. The battery assembly of claim 14 , wherein each side of said six sides curves outward away from a corresponding cavity centerline. 18. The battery assembly of claim 1 , said plurality of apertures comprising a single aperture per corresponding battery group, said single aperture providing access to said first terminal and said second terminal of each battery of said corresponding battery group. 19. The battery assembly of claim 1 , wherein each of said plurality of batteries is cylindrical, wherein said first terminal is comprised of a battery positive terminal, and wherein said second terminal is comprised of a battery casing. 20. The battery assembly of claim 1 , further comprising a plurality of wire bonds that electrically connect said plurality of batteries to said plurality of bus bars. 21. The battery assembly of claim 20 , wherein said plurality of wire bonds are coupled to said plurality of batteries and to said plurality of bus bars utilizing a bonding technique selected from the group consisting of ultrasonic bonding, resistance bonding, thermocompression bonding and thermosonic bonding.