Valve assemblies to supply fluid pressure to components in multiple transmission operating modes

The invention claimed is: 1. A transmission for a vehicle, the transmission comprising: an input shaft configured to receive rotational power supplied by a drive unit; an output shaft coupled to the input shaft and configured to provide rotational power supplied to the input shaft to a load; and a hydraulic system configured to supply fluid to one or more fluid demand devices coupled between the input shaft and the output shaft in one or more operating modes of the transmission, wherein the hydraulic system includes a filter assembly having a filter element and a valve assembly fluidly coupled to the filter element, wherein the valve assembly includes a housing having an interior chamber; and a spool movable in the interior chamber between a de-stroked position, in which the spool permits fluid flow through the valve assembly to the one or more fluid demand devices substantially without application of fluid pressure to the spool by fluid passed through the filter element, and a stroked position, in which the spool permits fluid flow through the valve assembly to the one or more fluid demand devices in response to fluid pressure applied to the spool by fluid passed through the filter element, wherein the spool is formed to include a plurality of spiraled slots shaped to conduct fluid therethrough when the spool is in the stroked position to improve fluid flow to the one or more fluid demand devices through the valve assembly. 2. The transmission of claim 1 , wherein when the spool is in the de-stroked position, the spool blocks fluid backflow through the valve assembly to the filter element. 3. The transmission of claim 1 , wherein the one or more operating modes include a first operating mode in which fluid is supplied to the one or more fluid demand devices by a first pump of the hydraulic system that is mechanically driven by the drive unit, and wherein when the transmission is in the first operating mode, the spool is in the stroked position such that the spool permits flow of fluid supplied by the first pump through the valve assembly to the one or more fluid demand devices. 4. The transmission of claim 3 , wherein the one or more operating modes include a second operating mode in which fluid is supplied to the one or more fluid demand devices by a second electrically-driven pump of the hydraulic system, and wherein when the transmission is in the second operating mode, the spool is in the de-stroked position such that the spool permits flow of fluid supplied by the second pump through the valve assembly to the one or more fluid demand devices. 5. The transmission of claim 1 , wherein the valve assembly includes a biasing element arranged in contact with the housing and the spool to bias the spool toward the de-stroked position and a snap ring positioned in the interior chamber to restrict movement of the spool in the interior chamber. 6. The transmission of claim 5 , wherein the housing includes a cover that retains the snap ring and has a pair of support ribs, and wherein the pair of support ribs are configured for interaction with the spool to guide movement of the spool in the interior chamber. 7. The transmission of claim 1 , wherein the spool includes a base devoid of any apertures and an annular body that extends outwardly away from the base and that has a closed end arranged adjacent the base and an open end arranged opposite the closed end, wherein the plurality of spiraled slots are formed in the annular body, and wherein the base is configured to receive fluid pressure applied by fluid passed through the filter element to cause movement of the spool in the interior chamber from the de-stroked position to the stroked position. 8. The transmission of claim 7 , wherein an exterior of the annular body is shaped for interaction with one or more interior walls of the housing that at least partially define the interior chamber to facilitate a tight-tolerance fit between the spool and the housing that resists leakage of fluid through the interior chamber around the spool. 9. The transmission of claim 8 , wherein the spool and the one or more interior walls of the housing are shaped complementary to one another and sized for interaction with one another to facilitate sealing of the interior chamber without a separate seal. 10. The transmission of claim 7 , wherein the valve assembly includes a biasing element arranged in contact with the housing and the base of the spool to bias the spool toward the de-stroked position and a snap ring positioned in the interior chamber to restrict movement of the spool in the interior chamber. 11. A filter assembly for use in a hydraulic system of a transmission, the filter assembly comprising: a filter element; and a valve assembly in fluid communication with the filter element, the valve assembly including a housing having an interior chamber; and a spool formed to include a plurality of spiraled slots that is movable in the interior chamber between a de-stroked position, in which the spool permits fluid flow through the valve assembly to one or more fluid demand devices substantially without application of fluid pressure to the spool by fluid passed through the filter element, and a stroked position, in which the spool permits fluid flow through the spiraled slots to the one or more fluid demand devices in response to fluid pressure applied to the spool by fluid passed through the filter element, wherein when the spool is in the de-stroked position, the spool blocks fluid backflow through the valve assembly to the filter element. 12. The filter assembly of claim 11 , wherein the spool includes a base devoid of any apertures and an annular body that extends outwardly away from the base and that has a closed end arranged adjacent the base and an open end arranged opposite the closed end, wherein the plurality of spiraled slots are formed in the annular body, and wherein a first side of the base is configured to receive fluid pressure applied by fluid passed through the filter element to cause movement of the spool in the interior chamber from the de-stroked position to the stroked position. 13. The filter assembly of claim 12 , wherein the valve assembly includes a biasing element arranged in contact with the housing and a second side of the base arranged opposite the first side to bias the spool toward the de-stroked position and a snap ring positioned in the interior chamber to restrict movement of the spool in the interior chamber. 14. The filter assembly of claim 12 , wherein an exterior of the annular body is shaped for interaction with one or more interior walls of the housing that at least partially define the interior chamber to facilitate a tight-tolerance fit between the spool and the housing that resists leakage of fluid through the interior chamber around the spool, and wherein the spool and the one or more interior walls of the housing are shaped complementary to one another and sized for interaction with one another to facilitate sealing of the interior chamber without a separate seal. 15. The filter assembly of claim 14 , wherein when the spool is in the de-stroked position, the one or more interior walls of the housing substantially close off the spiraled slots of the spool to resist fluid flow therethrough. 16. A valve assembly for use in a hydraulic system of a transmission, the valve assembly comprising: a housing having an interior chamber; a spool positioned in the interior chamber that is formed to include a plurality of spiraled slots; and a biasing element arranged in contact with the spool to apply a biasing force to the spool, wh