Battery module lid system and method

The invention claimed is: 1. A system, comprising: a housing configured to receive a plurality of battery cells; a cover configured to enclose the plurality of battery cells within the housing; and a lid configured to be disposed over the plurality of battery cells and to be enclosed within the housing by the cover in an installed configuration, the lid comprising: a plurality of apertures configured to receive battery terminals of the plurality of battery cells; and a plurality of flexible fingers, wherein each flexible finger of the plurality of flexible fingers aligns with a corresponding battery cell of the plurality of battery cells when the lid is disposed over the plurality of battery cells in the installed configuration, wherein each flexible finger of the plurality of flexible fingers is configured to exert a downward force against the corresponding battery cell of the plurality of battery cells in the installed configuration, wherein each flexible finger of the plurality of flexible fingers is integral with the lid, wherein the plurality of flexible fingers and the lid are plastic, wherein the plurality of flexible fingers is configured to accommodate varying heights of battery cells of the plurality of battery cells, and wherein the plurality of flexible fingers is integrally formed with the lid along a corresponding plurality of living hinges. 2. The system of claim 1 , wherein each flexible finger of the plurality of flexible fingers comprises a portion of the lid that is cantilevered from a fixed connection point within an opening of the lid and configured to flex relative to a top surface of the lid. 3. The system of claim 1 , wherein each flexible finger of the plurality of flexible fingers extends at a downward angle relative to a top surface the lid. 4. The system of claim 1 , comprising one or more sensors, wherein the one or more sensors are disposed on one or more flexible fingers of the plurality of flexible fingers. 5. The system of claim 4 , comprising a printed circuit board (PCB) disposed over a top surface of the lid, wherein at least one of the one or more sensors is electrically coupled to the PCB. 6. The system of claim 1 , wherein the lid comprises a cavity configured to receive a contactor of the battery module. 7. The system of claim 1 , wherein the lid comprises a built-in vent chamber. 8. The system of claim 1 , wherein the lid and the plurality of flexible fingers are injection molded as one structure. 9. A battery module, comprising: a plurality of prismatic battery cells; a housing configured to receive the plurality of prismatic battery cells; a cover configured to be disposed over the plurality of prismatic battery cells and to engage the housing; and a lid disposed between the plurality of prismatic battery cells and the cover, the lid comprising: a plurality of apertures configured to receive battery terminals of the plurality of prismatic battery cells; and a plurality of flexible fingers, wherein each flexible finger of the plurality of flexible fingers aligns with a corresponding prismatic battery cell of the plurality of prismatic battery cells, wherein each flexible finger of the plurality of flexible fingers is configured to exert a downward force against the corresponding prismatic battery cell of the plurality of prismatic battery cells, wherein the plurality of flexible fingers is integral with the lid, wherein the plurality of flexible fingers and the lid are plastic, wherein a magnitude of the downward force exerted by each flexible finger of the plurality of flexible fingers is dependent on a height of the corresponding battery cell of the plurality of prismatic battery cells, and wherein the plurality of flexible fingers is integrally formed with the lid along a corresponding plurality of living hinges. 10. The battery module of claim 9 , wherein each flexible finger of the plurality of flexible fingers comprises a portion of the lid that is cantilevered from a connection point within an opening of the lid and configured to flex relative to a top surface of the lid. 11. The battery module of claim 9 , wherein each flexible finger of the plurality of flexible fingers extends at a downward angle relative to a top surface of the lid while in contact with the corresponding prismatic battery cell of the plurality of prismatic battery cells, wherein a value of the downward angle of each flexible finger of the plurality of flexible fingers depends on the height of the corresponding prismatic battery cell of the plurality of prismatic battery cells. 12. The battery module of claim 9 , comprising a printed circuit board (PCB), wherein the lid comprises one or more sensors disposed on a corresponding one or more flexible fingers of the plurality of flexible fingers, wherein at least one of the one or more sensors is electrically coupled to the PCB. 13. The battery module of claim 12 , wherein the PCB is disposed over a top surface of the lid. 14. The battery module of claim 9 , wherein the lid comprises a cavity configured to receive a contactor of the battery module, a built-in vent chamber configured to receive gases vented from one or more of the plurality of prismatic battery cells, or any combination thereof. 15. The battery module of claim 9 , wherein the lid and the plurality of flexible fingers are injection molded as one structure. 16. A method of manufacturing a battery module, the method comprising: placing a plastic lid of the battery module over a plurality of battery cells of the battery module, wherein the plastic lid comprises a plurality of apertures configured to receive battery terminals of the plurality of battery cells; coupling a cover of the battery module with a housing of the battery module to enclose the plastic lid and the plurality of battery cells within the housing; aligning each flexible integral finger of a plurality of flexible integral fingers of the plastic lid with a corresponding battery cell of the plurality of battery cells; engaging each flexible integral finger of the plurality of flexible integral fingers of the plastic lid with the corresponding battery cell of the plurality of battery cells, wherein each flexible integral finger of the plurality of flexible integral fingers extends at a downward angle from a top surface of the plastic lid, wherein a value of the a downward angle of each flexible integral finger of the plurality of flexible integral fingers decreases by an amount dependent on a height of the corresponding battery cell of the plurality of battery cells when the plurality of flexible integral fingers are is engaged with the plurality of battery cells; and bending the plurality of flexible integral fingers with respect to the lid along a corresponding plurality of living hinges formed between the plurality of flexible integral fingers and the lid. 17. The method of claim 16 , comprising cutting out a portion of the plastic lid to form each flexible integral finger of the plurality of flexible integral fingers. 18. The method of claim 16 , comprising injection molding the plastic lid and the plurality of flexible fingers as one structure. 19. The method of claim 16 , comprising coupling the plastic lid to the housing of the battery module by compressing the plastic lid over the plurality of battery cells, such that each flexible integral finger of the plurality of flexible integral fingers exerts a downward force on the corresponding battery cell of the plurality of battery cells, until the plastic lid engages with the housing to