Layered battery module system and method of assembly

The invention claimed is: 1. 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 lid assembly disposed over the battery cells and coupled to the lower housing, wherein the lid assembly comprises a lid and a plurality of bus bar interconnects mounted on the lid; a printed circuit board (PCB) assembly disposed on and coupled to the lid assembly, wherein the PCB assembly comprises a PCB, and wherein the PCB assembly comprises a high current interconnect configured to receive an upward facing bladed component disposed beneath the PCB and a downward facing bladed component disposed above the PCB to mechanically and electrically couple the upward facing bladed component and the downward facing bladed component to one another; and a cover disposed over and coupled to the lower housing to hermetically seal the battery module. 2. The battery module of claim 1 , wherein the plurality of bus bar interconnects are each electrically coupled between terminals of adjacent battery cells of the plurality of battery cells to produce the voltage across the plurality of battery cells. 3. The battery module of claim 2 , 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 each of the plurality of bus bar interconnects is configured to electrically couple adjacent battery cells of the plurality of battery cells and to facilitate a transition from the first material to the second material. 4. The battery module of claim 1 , 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 the battery module comprises a plurality of adapters coupled to the corresponding 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. 5. The battery module of claim 1 , wherein the lid assembly further comprises a vent guide configured to route gases vented from the plurality of battery cells out of the battery module. 6. The battery module of claim 1 , wherein the PCB assembly comprises a voltage sense connection tab mounted to the PCB and configured to electrically couple one of the plurality of bus bar interconnects with a voltage lead on the PCB. 7. The battery module of claim 1 , 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. 8. A printed circuit board (PCB) assembly for use in a vehicle battery module, comprising: a PCB configured to be layered over a plurality of battery cells in the vehicle battery module, wherein the PCB comprises: a distributed power layer; a distributed ground layer; one or more signal layers disposed directly between the distributed power layer and the distributed ground layer, wherein all circuit signals are routed on the one or more signal layers; circuitry including a power component disposed on an outer surface of the one or more signal layers facing the distributed power layer, and a ground component disposed on an outer surface of the one or more signal layers facing the distributed ground layer; a first external ground cage layer disposed on a side of the distributed power layer opposite the one or more signal layers; and a second external ground cage layer disposed on a side of the distributed ground layer opposite the one or more signal layers; wherein the first and second external ground cage layers are configured to shield the circuit signals routed throughout the PCB from electrical noise from the plurality of battery cells. 9. The battery module of claim 1 , comprising a first connector having the first upward facing bladed component and a second connector having the downward facing bladed component, wherein the first connector is electrically coupled to a battery module terminal of the battery module, and wherein the second connector is electrically coupled to a fuse of the battery module. 10. A printed circuit board (PCB) assembly for use in a vehicle battery module, comprising: a PCB configured to be layered over a plurality of battery cells in the vehicle battery module, wherein the PCB comprises: a distributed power layer; a distributed ground layer; one or more signal layers disposed directly adjacent to the distributed power layer and disposed directly adjacent to the distributed ground layer, wherein all circuit signals are routed on the one or more signal layers; a first external ground cage layer disposed on a side of the distributed power layer opposite the one or more signal layers; and a second external ground cage layer disposed on a side of the distributed ground layer opposite the one or more signal layers; wherein the first and second external ground cage layers are configured to shield the circuit signals routed throughout the PCB from electrical noise from the plurality of battery cells.