Battery module printed circuit board assembly system and method

The invention claimed is: 1. A battery module, comprising: a housing; a plurality of battery cells disposed in the housing; and a printed circuit board (PCB) assembly disposed in the housing, the PCB assembly comprising: a PCB; and a shunt disposed across a first surface of the PCB, wherein a second surface of the shunt 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; and a bus bar that is in electrical communication with one battery cell of the plurality of battery cells and with a connector that is in electrical communication with the terminal of the battery module, wherein the shunt provides a low resistance path between the bus bar of the battery module and the connector of the battery module, and wherein the bus bar comprises an extension that extends over and in contact with the shunt, such that the shunt is disposed between the first surface of the PCB and a bottom surface of the extension of the bus bar. 2. The battery module of claim 1 , wherein the connector comprises an integral bladed portion that extends over and in contact with the shunt, such that the shunt is held between the first surface of the PCB and a bottom surface of the bladed portion of the connector. 3. The battery module of claim 1 , comprising a lid disposed between the PCB assembly and the plurality of battery cells, wherein the lid is configured to support the PCB assembly, wherein the lid comprises a shunt clip extending upwardly from the lid, and wherein the shunt clip comprises an extension configured to contact a top surface of the shunt, such that the shunt is disposed between the first surface of the PCB and a bottom surface of the extension of the shunt clip. 4. The battery module of claim 3 , wherein the shunt clip extends upwardly from the lid through an aperture in the PCB. 5. The battery module of claim 1 , wherein the PCB comprises an electrical connection exposed on the first surface, wherein the electrical connection is in contact with the second surface of the shunt, and wherein the electrical connection enables the PCB to monitor characteristics of an electrical flow through the shunt. 6. The battery module of claim 5 , wherein the characteristics of the electrical flow comprise voltage output from the battery module. 7. The battery module of claim 1 , wherein the second surface of the shunt directly contacts the first surface of the PCB without the shunt extending off the first surface of the PCB. 8. The battery module of claim 1 , wherein the shunt is integral with the PCB. 9. A method of manufacturing a battery module, the method comprising: disposing a printed circuit board (PCB) on top of a lid of the battery module; disposing a shunt on top of and directly against the PCB; coupling the shunt to a bus bar on a first end of the shunt and to a connector on a second end of the shunt opposite the first end, wherein the connector is coupled to an output terminal of the battery module; coupling the bus bar to a terminal of a battery cell of the battery module; coupling a bottom surface of the shunt with electrical connectors exposed on a top surface of the PCB; and restraining the shunt on top of the PCB via a shunt clip extending upwardly from the lid and over the shunt, wherein the shunt clip comprises an extension configured to exert a downward force against a top surface of the shunt. 10. The method of claim 9 , comprising coupling the shunt to the PCB via adhesive applied between the bottom surface of the shunt and the top surface of the PCB. 11. The method of claim 9 , wherein the connector extends from below the lid through an aperture in the lid, wherein a bladed portion of the connector extends over and in contact with a top surface of the shunt. 12. The method of claim 9 , wherein an extension of the bus bar extends over and in contact with a top surface of the shunt. 13. The method of claim 9 , wherein the shunt is in direct contact with the PCB without extending beyond the top surface of the PCB. 14. The method of claim 9 , wherein coupling the shunt to the bus bar and the connector comprises welding the shunt to the bus and to the connector. 15. The method of claim 9 , wherein each of the shunt, the bus bar, and the connector are made of copper. 16. The method of claim 9 , wherein coupling the shunt to the connector on the second end of the shunt comprises: disposing the connector proximate the shunt; disposing a bladed portion over and in contact with the connector and the shunt; and coupling the bladed portion to the connector and to the shunt. 17. The method of claim 16 , wherein coupling the bladed portion to the connector and to the shunt comprises welding the bladed portion to the connector and to the shunt. 18. A battery module, comprising: a housing; a plurality of battery cells disposed in the housing; and a printed circuit board (PCB) assembly disposed in the housing, the PCB assembly comprising: a PCB; and a shunt disposed across a first surface of the PCB, wherein a second surface of the shunt 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; and a lid disposed between the PCB assembly and the plurality of battery cells, wherein the lid is configured to support the PCB assembly, wherein the lid comprises a shunt clip extending upwardly from the lid, and wherein the shunt clip comprises an extension configured to contact a top surface of the shunt, such that the shunt is disposed between the first surface of the PCB and a bottom surface of the extension of the shunt clip, wherein the shunt clip extends upwardly from the lid through an aperture in the PCB. 19. The battery module of claim 18 , wherein the PCB comprises an electrical connection exposed on the first surface, wherein the electrical connection is in contact with the second surface of the shunt, and wherein the electrical connection enables the PCB to monitor a characteristic of an electrical flow through the shunt. 20. The battery module of claim 19 , wherein the characteristic of the electrical flow comprises voltage output from the battery module. 21. The battery module of 27 , wherein the characteristic of the electrical flow comprises a temperature in the shunt, a state of charge of the battery module, or both. 22. The battery module of claim 18 , wherein the second surface of the shunt directly contacts the first surface of the PCB without the shunt extending off the first surface of the PCB. 23. The battery module of claim 18 , wherein the shunt is integral with the PCB. 24. The battery module of claim 18 , comprising: a bus bar extending from a terminal of a first battery cell of the plurality of battery cells; and a module terminal configured to be coupled to a load for powering the load, wherein the shunt is disposed between the bus bar and the module terminal. 25. The battery module of claim 24 , comprising a connector extending from the module terminal, wherein the shunt is disposed between, and in direct contact with, the connector and the bus bar.