Uniform current density tapered busbar

What is claimed is: 1. A tapered busbar, comprising: an electrically conductive member having a planar portion including a length and a thickness running from a first end of the electronically conductive member to an opposite second end of the electronically conductive member, wherein the electronically conductive member has a first height at the first end and a greater second height the second end; a terminal connection tab disposed at the second end of the electronically conductive member, wherein the terminal connection tab is integrally formed from the electronically conductive member, wherein the terminal connection tab extends in a direction orthogonal to the planar portion of the electronically conductive member, and wherein the terminal connection tab includes a voltage interconnection surface that receives at least one terminal connector forming an uninterrupted conductive path running from the first end of the electronically conductive electronically conductive member to the voltage interconnection surface; and an array of spaced apart electrical interconnection points disposed along the length of the electronically conductive member, wherein each electrical interconnection point is a connection point for a row of series-connected energy storage cells in an energy storage module, and wherein adjacent electrical interconnection points in the array of spaced apart electrical interconnection points correspond to electrically-parallel rows of series-connected energy storage cells in the energy storage module. 2. The tapered busbar of claim 1 , wherein a cross-sectional area of the electrically conductive member gradually increases in size from a first area at the first end to a larger second area at the second end. 3. The tapered busbar of claim 2 , wherein the first area is sized to provide a current density for a single row of series-connected energy storage cells in the energy storage module, wherein the second area is sized to provide a uniform current density for a plurality of rows of series-connected energy storage cells in the energy storage module, and wherein the uniform current density matches the current density. 4. The tapered busbar of claim 3 , wherein the second height of the member matches a height of the terminal connection tab. 5. The tapered busbar of claim 4 , wherein the voltage interconnection surface is a planar protrusion extending orthogonally from the terminal connection tab and in a direction following an axis running parallel to the length of the member. 6. The tapered busbar of claim 5 , wherein the planar protrusion includes one or more holes sized to receive the at least one terminal connector. 7. The tapered busbar of claim 6 , wherein the electrically conductive member includes a plurality of holes running along a portion of the length of the member and through the thickness of the member, and wherein each of the plurality of holes is sized to engage with a fastening feature of a housing associated with the energy storage module. 8. A battery module, comprising: an array of battery cells arranged in adjacent spaced apart series-connected rows, the rows spaced apart along a length of the battery module running from a first end to an opposite second end of the battery module; a first battery cell row interconnection busbar in electrical contact with a positive terminal for each row of battery cells in the array of battery cells, wherein the first battery cell row interconnection busbar is disposed along a portion of the length of the battery module on a first terminal side of the battery module; a second battery cell row interconnection busbar in electrical contact with a negative terminal for each row of battery cells in the array of battery cells, wherein the second battery cell row interconnection busbar is disposed along a portion of the length of the battery module on a second terminal side of the battery module opposite the first terminal side; and a tapered busbar electrically interconnected to an electrical terminal for the array of battery cells, the tapered busbar comprising: an electrically conductive member having a planar portion including a length and a thickness running from the first end of the battery module to the second end of the battery module, wherein the electronically conductive member has a first height at the first end and a greater second height the second end; and a terminal connection tab disposed at the second end of the battery module, wherein the terminal connection tab is integrally formed from the electronically conductive member, wherein the terminal connection tab extends in a direction orthogonal to the planar portion of the electronically conductive member, and wherein the terminal connection tab includes a voltage interconnection surface that receives at least one terminal connector forming an uninterrupted conductive path running from the electrical interconnection between the tapered busbar and the electrical terminal to the voltage interconnection surface. 9. The battery module of claim 8 , wherein the electrical terminal for the array of battery cells is the first battery cell row interconnection busbar, the first battery cell row interconnection busbar including an array of spaced apart electrical interconnection points disposed along the length of the battery module, wherein each electrical interconnection point is a connection point for a row of battery cells in the spaced apart series-connected rows in the battery module. 10. The battery module of claim 9 , wherein adjacent electrical interconnection points in the array of spaced apart electrical interconnection points correspond to electrically-parallel rows of series-connected battery cells in the battery module. 11. The battery module of claim 10 , wherein a cross-sectional area of the electrically conductive member gradually increases in size from a first area at the first end to a larger second area at the second end. 12. The battery module of claim 11 , wherein the first area is sized to provide a current density for a single row of series-connected energy storage cells in the energy storage module, wherein the second area is sized to provide a uniform current density for a plurality of rows of series-connected energy storage cells in the energy storage module, and wherein the uniform current density matches the current density. 13. The battery module of claim 12 , wherein the second height of the member matches a height of the terminal connection tab, wherein the voltage interconnection surface is a planar protrusion extending orthogonally from the terminal connection tab and in a direction following an axis running parallel to the length of the battery module. 14. The battery module of claim 13 , wherein the planar protrusion includes one or more holes sized to receive the at least one terminal connector. 15. The battery module of claim 14 , further comprising: a battery cell housing including an upper portion disposed adjacent to a first end of each battery cell in the array of battery cells and a lower portion disposed adjacent to an opposite second end of each battery cell in the array of battery cells. 16. The battery module of claim 15 , wherein the electrically conductive member includes a plurality of holes running along a portion of the length of the member and through the thickness of the member, and wherein each of the plurality of holes is sized to engage with a fastening feature disposed in a side of the upper portion of the battery cell housing. 17. The battery module of claim 16 , wherein the lower portion of the battery cell h