Sealed battery charger housing

What is claimed is: 1. A housing for use in cooling first and second circuit assemblies with a fluid, the housing comprising: a first coldplate having a top side operable to receive the first circuit assembly; and a second coldplate having a bottom side operable to receive the second circuit assembly; wherein the first and second coldplates are configured to cooperate to form a fluid cooling chamber through which the fluid flows to cool the first and second circuit assemblies, the fluid cooling chamber formed by a bottom side of the first coldplate and a top side of the second coldplate when the first and second coldplates are adjoined; wherein the second coldplate has a fluid cooling chamber groove formed therein around an outer perimeter of the fluid cooling chamber, the fluid cooling chamber groove configured to cooperate with a fluid cooling chamber seal operable to prevent fluid leakage when positioned within the fluid cooling chamber groove; wherein each of the first and second coldplates has an aperture formed therein, the apertures of the first and second coldplates configured to cooperate to permit at least one wire to pass through the first and second coldplates to establish an electrical connection between the first and second circuit assemblies when the first and second coldplates are adjoined; wherein the second coldplate has an aperture groove formed therein around an outer perimeter of the aperture of the second coldplate, the aperture groove configured to cooperate with an aperture seal operable to prevent fluid leakage when positioned within the aperture groove. 2. The housing of claim 1 wherein the first coldplate compacts the fluid cooling chamber seal into the fluid cooling chamber groove when adjoined to the second coldplate. 3. The housing of claim 2 wherein a first portion of the first coldplate proximate the fluid cooling chamber groove is planar across a width of the fluid cooling chamber groove around the outer perimeter of the fluid cooling chamber, the first portion contacting the top side of the second coldplate proximate both lateral sides of the fluid cooling chamber groove when the first coldplate is adjoined to the second coldplate. 4. The housing of claim 3 further comprising at least one fastening element operable to secure the first coldplate to the second coldplate with a compressive force, thereby causing the bottom side of the first coldplate to adjoin the top side of the second coldplate. 5. The housing of claim 1 wherein a depth of the fluid cooling chamber groove is between 0.5-5 mm throughout. 6. The housing of claim 1 wherein: the bottom side of the first coldplate compacts the aperture seal into the aperture groove when adjoined to the second coldplate; a portion of the first coldplate proximate the aperture groove is planar across a width of the aperture groove, the portion contacting the top side of the second coldplate proximate both lateral sides of the aperture groove when the first coldplate is adjoined to the second coldplate; and at least one fastening element operable to secure the first coldplate to the second coldplate with a compressive force, thereby causing the bottom side of the first coldplate to adjoin the top side of the second coldplate and compact the aperture seal within the aperture groove. 7. The housing of claim 1 wherein substantially all of a cavity defining the fluid cooling chamber is recessed below the top side of the second coldplate and includes a plurality of partitions to direct fluid flow from an inlet to an outlet. 8. The housing of claim 7 further comprising a plurality of cooling fins extending from the bottom side of the first coldplate into the cavity. 9. A battery charger housing having first and second circuit assemblies operable to convert AC energy from a utility power grid to DC energy sufficient for charging a high voltage vehicle battery, the first and second circuit assemblies adapted for an electrical interconnection to coordinate control to convert the AC energy to the DC energy, the housing comprising: a first coldplate operable to receive the first circuit assembly; and a second coldplate operable to receive the second circuit assembly; wherein the first and second coldplates are configured to cooperate to form a fluid cooling chamber defined substantially within the second coldplate through which a fluid flows to cool the first and second circuit assemblies when the first and second coldplates are adjoined; wherein each of the first and second coldplates has an aperture formed therein, the apertures of the first and second coldplates configured to cooperate to permit a conductor to extend through the first and second coldplates to create the electrical interconnection between the first circuit assembly and the second circuit assembly when the first and second coldplates are adjoined; wherein the second coldplate has a fluid cooling chamber groove formed therein around an outer perimeter of the fluid cooling chamber, the fluid cooling chamber groove configured to cooperate with a fluid cooling chamber seal operable to prevent fluid leakage when positioned within the fluid cooling chamber groove; wherein the second coldplate has an aperture groove formed therein around an outer perimeter of the aperture of the second coldplate, the aperture groove configured to cooperate with an aperture seal operable to prevent fluid leakage when positioned within the aperture groove. 10. The housing of claim 9 wherein the fluid cooling chamber seal compresses within the fluid cooling chamber groove and the aperture seal compresses within the aperture groove when the first coldplate adjoins the second coldplate. 11. The housing of claim 9 wherein each of the aperture groove and the fluid cooling chamber groove have a same, uninterrupted cross-sectional profile throughout. 12. A housing cooled with a fluid comprising: a first coldplate operable to receive a first circuit assembly; and a second coldplate operable to receive a second circuit assembly; wherein the first and second coldplates are configured to cooperate to form a fluid cooling chamber through which the fluid flows to cool the first and second coldplates, the fluid cooling chamber formed by the first coldplate and the second coldplate when the first and second coldplates are adjoined; wherein the second coldplate has a fluid cooling chamber groove formed therein around an outer perimeter of the fluid cooling chamber, the fluid cooling chamber groove configured to cooperate with a fluid cooling chamber seal operable to prevent fluid leakage when positioned within the fluid cooling chamber groove; wherein each of the first and second coldplates has an aperture formed therein, the apertures of the first and second coldplates configured to cooperate to permit a conductor to extend through the first and second coldplates to create a connection between the first circuit assembly and the second circuit assembly when the first and second coldplates are adjoined, and an aperture groove is arranged around an outer perimeter of the apertures of the first and second coldplates when the first and second coldplates are adjoined, the aperture groove configured to cooperate with an aperture seal operable to prevent fluid leakage when positioned within the aperture groove. 13. The housing of claim 12 wherein the fluid cooling chamber seal and the fluid cooling chamber groove are the only seal and groove combination surrounding the fluid cooling chamber. 14. The housing of claim 12 wherein the fluid cooling chamber seal compacts into the fluid cooling chamber groove to prevent the fluid leakage