Battery module printed circuit board assembly system and method

The invention claimed is: 1. A method of manufacturing a battery module for use in a vehicle, comprising: disposing a plurality of battery cells into a lower housing; disposing a first assembly over the plurality of battery cells in the lower housing, wherein the first assembly comprises a lid including a plurality of asymmetrical indentations disposed therein and a plurality of asymmetrical bus bar interconnects disposed on the asymmetrical indentations of the lid, each bus bar interconnect of the plurality of asymmetrical bus bar interconnects being a single piece component having a first portion made of a first material and a second portion made of a second material different from the first material and having an asymmetry readily indicating orientation placement of the asymmetrical bus bar interconnects with respect to the lid, the first portion having a first peripheral shape and the second portion having a second peripheral shape, and the asymmetry provided by the second peripheral shape; disposing a printed circuit board (PCB) assembly onto the first assembly; and electrically coupling portions of the first assembly, portions of the PCB assembly, and the plurality of battery cells to each other. 2. The method of claim 1 , further comprising: disposing an adapter onto a first terminal on each of the plurality of battery cells, wherein the adapter is configured to transition an electrical connection from a first material to a second material; and disposing the first assembly over the adapter on the first terminal to electrically couple the first terminal made of the first material to one of the plurality of asymmetrical bus bar interconnects made of the second material. 3. The method of claim 1 , comprising electrically coupling the plurality of battery cells together by coupling at least one of the bus bar interconnects to battery terminals of two adjacent battery cells of the plurality of battery cells. 4. The method of claim 1 , comprising assembling the first assembly, wherein assembling the first assembly comprises mounting the plurality of asymmetrical bus bar interconnects onto the lid. 5. The method of claim 4 , wherein the assembling of the first assembly comprises coupling a vent guide to the lid, wherein the vent guide is configured to direct gases vented from the plurality of battery cells out of the battery module. 6. The method of claim 1 , comprising coupling the lid to the lower housing via an attachment feature on the lid configured to interface with a feature on the lower housing. 7. The method of claim 1 , comprising coupling a plurality of voltage sense connection tabs to a PCB of the PCB assembly, and disposing the PCB assembly to the first assembly such that each of the plurality of voltage sense connection tabs contacts a corresponding one of the plurality of asymmetrical bus bar interconnects of the first assembly. 8. The method of claim 7 , wherein the PCB assembly comprises the PCB and a current interconnect mounted onto the PCB. 9. The method of claim 7 , wherein the electrically coupling of portions of the first assembly, portions of the PCB assembly, and the plurality of battery cells to each other comprises laser welding each of the plurality of asymmetrical bus bar interconnects to a terminal of a corresponding one of the plurality of battery cells and laser welding the plurality of voltage sense connection tabs of the PCB assembly onto the bus bar interconnects. 10. The method of claim 1 , comprising coupling a cover to the lower housing to hermetically seal the battery module. 11. A battery module comprising: a lower housing; a plurality of battery cells, wherein the plurality of battery cells are electrically coupled together to produce a voltage; a first assembly disposed over the battery cells and coupled to the lower housing, wherein the first assembly comprises a lid including a plurality of asymmetrical indentations disposed therein and a plurality of asymmetrical bus bar interconnects received within the asymmetrical indentations of the lid, each bus bar interconnect of the plurality of bus bar asymmetrical interconnects being a single piece component having a first portion made of a first material and a second portion made of a second material different from the first material and having an asymmetry readily indicating orientation placement of the asymmetrical bus bar interconnects within the asymmetrical indentations of the lid, the first portion having a first peripheral shape and the second portion having a second peripheral shape, and the asymmetry provided by the second peripheral shape; a printed circuit board (PCB) assembly disposed on and coupled to the first assembly, wherein the PCB assembly comprises a PCB; and a cover disposed over and coupled to the lower housing to hermetically seal the battery module. 12. The battery module of claim 11 , wherein at least one of the plurality of asymmetrical bus bar interconnects are electrically coupled between terminals of adjacent battery cells of the plurality of battery cells. 13. The battery module of claim 11 , wherein each of the plurality of battery cells comprises a first terminal made of a first material and a second terminal made of a second material, and wherein at least one of the plurality of asymmetrical bus bar interconnects is configured to facilitate a transition from the first material to the second material. 14. The battery module of claim 13 , wherein each of the plurality of battery cells comprises the first terminal made of the first material and the second terminal made of the second material, and wherein the battery module comprises a plurality of adapters coupled to the first terminals on the plurality of battery cells, wherein the adapters are configured to facilitate a transition from the first material to the second material. 15. The battery module of claim 11 , wherein the first assembly further comprises a vent guide configured to route gases vented from the plurality of battery cells out of the battery module. 16. The battery module of claim 11 , wherein the PCB assembly comprises a voltage sense connection tab mounted to the PCB and configured to electrically couple one of the plurality of asymmetrical bus bar interconnects with a voltage lead on the PCB. 17. The battery module of claim 11 , wherein the PCB comprises a multi-layered PCB comprising: circuitry disposed on at least one internal layer of the multi-layered PCB; a first external ground cage layer as a first external layer of the multi-layered PCB; and a second external ground cage layer as a second external layer of the multi-layered PCB. 18. The battery module of claim 11 , and further comprising: a shunt disposed across a first surface of the PCB, wherein a shunt first surface directly contacts the first surface of the PCB, and wherein the shunt is electrically coupled between the plurality of battery cells and a terminal of the battery module. 19. The battery module of claim 11 , wherein the single piece component of each bus bar interconnect includes a generally rectangular body portion. 20. The battery module of claim 11 , wherein the single piece component further includes an asymmetrical portion. 21. The battery module of claim 20 , wherein the lid includes the plurality of asymmetrical indentations to receive the plurality of asymmetrical bus bar interconnects, wherein each indentation of the plurality of the plurality of asymmetrical indentations receives a corresponding bus bar interconnect of