Power electronics system

What is claimed is: 1. A power-electronics assembly comprising: a plurality of power modules each including a power stage having opposing major sides, a body encasing the power stage and having front and back sides, a coolant channel recessed into the front side at a location adjacent to one of the major sides and including a receiving end and an exit end, and a crossover passageway extending through the body and having an inlet port located at the exit end and an outlet port defined in the back side and axially offset to the inlet port to be located in alignment with the receiving end such that the crossover passageway extends between the inlet port and the outlet port at an oblique angle relative to the front side; wherein the power modules are arranged in a linear stack such that the front and back sides of adjacent power modules are disposed against each other, the coolant channels are interleaved with the power stages, and the crossover passageways connects adjacent coolant channels in fluid communication to form a series coolant circuit extending through the stack. 2. The power-electronics assembly of claim 1 wherein the coolant channels are U-shaped. 3. The power-electronics assembly of claim 1 wherein, for each power module, the coolant channel includes a floor and at least one sidewall extending between the floor and an outer surface of the front side, and wherein the inlet port is defined by the floor. 4. The power-electronics assembly of claim 1 wherein the inlet port is disposed on one side of a longitudinal centerline of the body and the outlet port is disposed on the other side of the longitudinal centerline. 5. The power-electronics assembly of claim 1 wherein the inlet port is disposed on one side of a latitudinal centerline of the body and the outlet port is disposed on the other side of the latitudinal centerline. 6. The power-electronics assembly of claim 1 wherein each of the coolant channels includes a floor recessed into the body such that one of the major sides of the power stage forms a portion of the floor allowing coolant to be circulated directly across the power stage. 7. The power-electronics assembly of claim 1 further comprising: a capacitor bank electrically connected to each of the power stages; and a gate drive board electrically connected to each of the power stages. 8. An apparatus comprising: power modules each including a power stage encased in a frame having a back and a front, that defines a fluid channel having a floor defining a first port connected to a second port, axially offset to the first port and defined in the back, via a passageway outside of a footprint of the power stage and extending through a thickness of the frame at an oblique angle relative to the front. 9. The apparatus of claim 8 wherein the power modules are arranged in a stack with a front of one of the power modules disposed against a back of an adjacent one of the power modules. 10. The apparatus of claim 8 wherein each of the power modules further defines a second passageway extending between the front and the back, wherein the second passageway is not in direct fluid communication with the fluid channels. 11. The apparatus of claim 8 wherein each of the power stages further includes a major side that forms at least a portion of the floor of a corresponding one of the fluid channels allowing coolant to be circulated directly across the major side. 12. The apparatus of claim 8 further comprising: a capacitor bank electrically connected to each of the power stages; and a gate drive board electrically connected to each of the power stages. 13. A power-module assembly comprising: a stack of first and second sets of power modules alternatingly arranged, each module of the sets including a power stage encased in a body having a front defining a front coolant channel, a back defining a back coolant channel, and four passageways extending between the front and the back, wherein two of the four passageways are in fluid communication with the front coolant channel and the other two of the four passageways are in fluid communication with the back coolant channel, and wherein the back coolant channels cooperate with the front coolant channels to define coolant chambers, and the front coolant channels of the first and second sets are mirror images of each other. 14. The power-module assembly of claim 13 wherein the front coolant channels are recessed into the front of a corresponding one of the power modules and includes a floor and sidewalls extending between the front and the floor, and back coolant channels are recessed into the back of a corresponding one of the power modules and includes a floor and sidewalls extending between the back and the floor. 15. The power-module assembly of claim 13 wherein, for each power module, two of the four passageways are disposed between a top of the power stage and a top of the power module, and the other two of the four passageways are disposed between a bottom of the power stage and a bottom of the power module. 16. The power-module assembly of claim 13 wherein the passageways of the bodies align with each other to form four manifolds extending along a length of the stack and through each of the power modules, and wherein two of the manifolds are supply manifolds and the other two of the manifolds are return manifolds. 17. The power-module assembly of claim 16 wherein the front coolant channels of the first set of power modules are in direct fluid communication with one of the supply manifolds and one of the return manifolds, and the second set of power modules are in direct fluid communication with the other of the supply manifolds and the other of the return manifolds. 18. The power-module assembly of claim 13 wherein each of the power modules of the first and second sets includes opposing first and second portions, and each of the front coolant channels of the first power modules is configured to circulate coolant from the first portion to the second portion, and each of the front coolant channels of the second power modules is configured to circulate coolant from the second portion to the first portion. 19. The power-module assembly of claim 18 wherein each of the back coolant channels of the first power modules is configured to circulate coolant from the second portion to the first portion, and each of the back coolant channels of the second power modules is configured to circulate coolant from the first portion to the second portion.