Valve assembly

The invention claimed is: 1. A valve, comprising: a cage comprising at least one fluid inlet proximate a first end of the cage and a fluid outlet proximate a second end of the cage, wherein the first end of the cage is positioned closer to the at least one fluid inlet than to the fluid outlet and the fluid inlet comprises a channel having an axially-extending component and a radially-extending component; a spool configured to move axially within the cage between an open position in which the spool enables fluid flow from the at least one fluid inlet to the fluid outlet and a closed position in which the spool blocks fluid flow from the at least one fluid inlet to the fluid outlet; and an annular seal supported within an annular groove formed in one of the cage or the spool, wherein the annular seal is configured to seal a radial gap between the cage and the spool while the spool is in the closed position, and is positioned between the first end of the cage and the at least one fluid inlet along an axial axis of the valve to block fluid flow from the at least one fluid inlet to the fluid outlet while the spool is in the closed position. 2. The valve of claim 1 , wherein the at least one fluid inlet comprises a flow area that increases between the first end and the second end of the cage along the axial axis of the valve. 3. The valve of claim 2 , wherein the at least one fluid inlet comprises a plurality of fluid inlets, and the plurality of fluid inlets comprise discrete openings arranged in order of increasing flow area along the axial axis of the valve. 4. The valve of claim 1 , wherein the at least one fluid inlet comprises an opening extending radially through the cage and a groove formed in a radially-inner surface of the cage that extends along the axial axis from the opening. 5. The valve of claim 1 , comprising a vent port positioned between the fluid inlet and the fluid outlet along the axial axis of the valve, wherein the vent port comprises a flow area that decreases between the first end and the second end of the cage along the axial axis of the valve. 6. The valve of claim 1 , comprising an annular seat positioned at the first end of the cage, wherein the annular seat comprises a protrusion that extends along the axial axis of the valve and into a passageway of the spool at least while the spool is in the closed position, and the protrusion is configured to throttle fluid flow from the fluid inlet toward the fluid outlet as the spool moves from the closed position toward the open position. 7. The valve of claim 1 , comprising a piston housing and a piston supported within the piston housing, wherein application of a pilot pressure to the piston is configured to drive the spool within the cage, and the piston is positioned closer to the first end of the cage than to the second end of the cage. 8. The valve of claim 7 , comprising a damping chamber configured to support a damping fluid, wherein a radially-extending plate coupled to the piston is disposed within the damping chamber such that a rate of movement of the piston along the axial axis is affected as the radially-extending plate moves within the damping chamber. 9. A valve, comprising: a piston housing; a piston supported within the piston housing; a cage comprising at least one fluid inlet proximate a first end of the cage and a fluid outlet proximate a second end of the cage; a spool configured to move in an axial direction within the cage between an open position in which the spool enables fluid flow from the at least one fluid inlet to the fluid outlet and closed position in which the spool blocks fluid flow from the at least one fluid inlet to the fluid outlet, wherein actuation of the piston is configured to drive the spool within the cage; and a chamber positioned circumferentially about at least a portion of the piston, wherein the chamber is configured to support a damping fluid, and a plate extending radially from the piston extends into the chamber to adjust a rate of movement of the piston in the axial direction. 10. The valve of claim 9 , wherein the damping fluid comprises oil. 11. The valve of claim 9 , wherein the plate comprises an axially extending opening to enable the plate to pass through the damping fluid in the damping chamber. 12. The valve of claim 9 , comprising a first annular seal and a second annular seal disposed on opposite ends of the damping chamber, wherein the first annular seal and the second annular seal against respective portions of the piston and the respective portions comprise substantially equivalent diameters. 13. The valve of claim 9 , comprising an annular seal configured to seal a radial gap between the cage and the spool and to block fluid flow from the at least one fluid inlet to the fluid outlet while the spool is in the closed position. 14. The valve of claim 9 , wherein the at least one fluid inlet comprises a flow area that increases between the first end and the second end of the cage along an axial axis of the valve. 15. A valve, comprising: a cage comprising at least one fluid inlet proximate a first end of the cage and a fluid outlet proximate a second end of the cage; a spool configured to move axially within the cage between an open position in which the spool enables fluid flow from the at least one fluid inlet to the fluid outlet and closed position in which the spool blocks fluid flow from the at least one fluid inlet to the fluid outlet; and an annular seat positioned at the first end of the cage, wherein the annular seat comprises a protrusion that extends along an axial axis of the valve and into a passageway of the spool, wherein the protrusion is configured to throttle fluid flow from the fluid inlet toward the fluid outlet as the spool moves from the closed position toward the open position. 16. The valve of claim 15 , comprising an annular seal configured to seal a radial gap between the cage and the spool and to block fluid flow from the at least one fluid inlet to the fluid outlet while the spool is in the closed position. 17. The valve of claim 15 , wherein the fluid inlet comprises a channel having an axially-extending component and a radially-extending component. 18. The valve of claim 15 , comprising a piston supported within a piston housing and coupled to the spool, wherein application of a pilot pressure to the piston is configured to drive the spool within the cage. 19. The valve of claim 18 , comprising a damping chamber configured to support a damping fluid, wherein a radially-extending plate coupled to the piston is disposed within the damping chamber such that a rate of movement of the piston along the axial axis is affected as the radially-extending plate moves within the damping chamber.