Arrangements for inhibiting intrusion into battery pack electrical components

What is claimed is: 1. A method of assembling a battery pack, the battery pack including an outer housing, a cell module including a module housing, a battery cell including a cell header, the battery cell having a nominal voltage of between about 3.4 V and about 4.2 V, the battery cell having a capacity of more than 2 Ah, and a terminal block including a terminal electrically connected to the battery cell and operable to connect the battery cell to an electrical device for power transfer, the method comprising: assembling components of the cell module; connecting the terminal block to the cell module, wherein the terminal block includes a female terminal having opposing contact surfaces operable to engage opposite faces of a mating male terminal of the electrical device; applying a vapor-deposited coating to one or more components of the cell module and the terminal block, wherein, during applying, inhibiting application of vapor-deposited coating to the opposing contact surfaces via engagement of the opposing contact surfaces, wherein the opposing contact surfaces are in contact with each other during vapor-deposited coating; and mounting the cell module relative to the outer housing. 2. The method of claim 1 , wherein applying includes applying the vapor-deposited coating to substantially all of the assembled cell module. 3. The method of claim 1 , wherein applying includes applying a poly(p-xylylene) polymer. 4. The method of claim 3 , wherein applying includes applying parylene. 5. The method of claim 1 , wherein applying includes applying a vapor-deposited coating having a thickness of less than about 20 μm. 6. The method of claim 1 , wherein the battery cell includes a first battery cell and a second battery cell, wherein assembling includes: electrically connecting a first conductive strap to the first battery cell and a second conductive strap to the second battery cell; electrically connecting a first weld strap to the first conductive strap and a second weld strap to the second conductive strap, there being a voltage differential between the first weld strap and the second weld strap; and wherein assembling includes spacing the first weld strap from the second weld strap by a distance equivalent to between 0.6 millimeters (mm) per volt of the voltage differential and about 1.2 mm per volt of the voltage differential. 7. The method of claim 6 , wherein spacing includes spacing the first weld strap from the second weld strap by a distance of between about 5 mm and about 9 mm. 8. The method of claim 6 , wherein assembling components of the cell module includes electrically connecting in parallel a first string of series-connected battery cells, a second string of series-connected battery cells, and a third string of series-connected battery cells, and wherein spacing includes spacing the first weld strap from the second weld strap by a distance of between about 6.5 mm and about 8.5 mm. 9. The method of claim 6 , wherein a voltage potential between the first conductive strap and the second conductive strap is at least about 8.0 volts (V), wherein the voltage potential is no more than about 17.0 V. 10. A method of assembling a battery pack, the battery pack including an outer housing, a cell module including a module housing, at least one battery cell, a controller, a conductive strap electrically connected to the at least one battery cell, a weld strap connected between the controller and the conductive strap, and a terminal block including a terminal electrically connected to the at least one battery cell and operable to connect the at least one battery cell to an electrical device for power transfer, the method comprising: assembling components of the cell module; connecting the terminal block to the cell module, wherein the terminal block includes a female terminal having opposing contact surfaces operable to engage opposite faces of a mating male terminal of the electrical device; applying a vapor-deposited coating to one or more components of the cell module and the terminal block, wherein, during applying, inhibiting application of vapor-deposited coating to the opposing contact surfaces via engagement of the opposing contact surfaces, wherein the opposing contact surfaces are in contact with each other during vapor-deposited coating; and mounting the cell module relative to the outer housing. 11. The method of claim 10 , wherein applying includes applying the vapor-deposited coating to at least one of the conductive strap and the weld strap. 12. The method of claim 11 , wherein the vapor-deposited coating is applied to at least one of the conductive strap and the weld strap before mounting the cell module relative to the outer housing. 13. The method of claim 10 , further comprising charging the at least one battery cell, wherein charging is performed before applying the vapor-deposited coating, wherein the at least one battery cell has a capacity, and wherein charging includes charging the at least one battery cell to at least about 20% of the capacity. 14. The method of claim 10 , wherein the controller includes a substrate, an electronic component supported on the substrate, and a base coating applied to at least the electronic component, wherein applying includes applying the vapor-deposited coating over the base coating, and wherein the base coating is applied to the substrate and the electronic component. 15. The method of claim 10 , wherein the module housing includes a wall with a surface facing the outer housing, the wall including a standoff projecting from the surface toward the outer housing, and wherein assembling components of the cell module includes limiting an area of engagement between the outer housing and the surface via engagement of the standoff with the outer housing. 16. The method of claim 10 , wherein mounting includes mounting the cell module relative to the outer housing providing ultra-violet (UV) protection to the vapor-deposited coating. 17. A method of assembling a battery pack, the battery pack including an outer housing, a cell module including a module housing, at least one battery cell, a controller, a conductive strap electrically connected to the at least one battery cell, a weld strap connected between the controller and the conductive strap, and a terminal block including a terminal electrically connected to the at least one battery cell and operable to connect the at least one battery cell to an electrical device for power transfer, the method comprising: assembling components of the cell module; connecting the terminal block to the cell module, wherein the terminal block includes a female terminal having opposing contact surfaces operable to engage opposite faces of a mating male terminal of the electrical device; applying a vapor-deposited coating to the terminal block, wherein, during applying, inhibiting application of vapor-deposited coating to the opposing contact surfaces via engagement of the opposing contact surfaces, wherein the opposing contact surfaces are in contact with each other during vapor-deposited coating; applying the vapor-deposited coating to at least one of the conductive strap and the weld strap; and mounting the cell module relative to the outer housing after applying the vapor-deposited coating to at least one of the conductive strap and the weld strap. 18. The method of claim 17 , wherein the module housing includes a portion exposed after assembly of the battery pack, the method further comprising applying the vapor-deposited coating to at least a portion of the module