Valve with gradual flow area changes

What is claimed is: 1. A valve comprising: a valve body defining a first longitudinal cavity therein, wherein the valve body comprises: (i) a supply annular groove configured to be fluidly coupled to a source of pressurized, fluid, and (ii) an operating annular groove configured to be fluidly coupled to another valve, wherein the supply annular groove and the operating annular groove are disposed longitudinally on an exterior peripheral surface of the valve body; a cage disposed in the first longitudinal cavity coaxial with the valve body, wherein the cage includes (i) a first opening fluidly coupled to the supply annular groove, and (ii) a second opening fluidly coupled to the operating annular groove, and wherein the cage defines a second longitudinal cavity therein; and a spool mounted within the second longitudinal cavity and configured to move axially therein, wherein when the valve is actuated, the spool moves within the second longitudinal cavity to form a gap between an exterior peripheral surface of the spool and an interior peripheral surface of the cage, thereby allowing the pressurized fluid to flow from the supply annular groove through the first opening, the gap, and the second opening to the operating annular groove, and wherein a profile of the exterior peripheral surface of the spool changes along a length of the spool such that a flow area defined around the exterior peripheral surface of the spool increases upstream from the gap toward the first opening at a first rate of change, and the flow area increases downstream from the gap toward the second opening at a second rate of change that is different from the first rate of change. 2. The valve of claim 1 , wherein the second rate of change is greater than the first rate of change. 3. The valve of claim 1 , wherein further upstream toward the first opening, the exterior peripheral surface of the spool tapers such that the flow area changes at a third rate of change different from the first rate of change. 4. The valve of claim 1 , wherein the cage has a first annular groove and a second annular groove disposed on the exterior peripheral surface of the cage, wherein the first annular groove comprises the first opening, and wherein the second annular groove comprises the second opening. 5. The valve of claim 1 , wherein the cage includes a channel configured to communicate the pressurized fluid received at the first opening to the flow area defined between the exterior peripheral surface of the spool and the interior peripheral surface of the cage, wherein the interior peripheral surface of the cage tapers downstream from the channel to gradually decrease the flow area. 6. The valve of claim 1 , wherein the valve body further comprises: a vent annular groove disposed longitudinally on the exterior peripheral surface thereof and configured to be fluidly coupled to a reservoir. 7. The valve of claim 6 , wherein the operating annular groove is disposed longitudinally between the supply annular groove and the vent annular groove. 8. The valve of claim 6 , wherein when the valve is actuated, the spool seats on an interior peripheral surface of the cage so as to block flow from the operating annular groove around the spool to the vent annular groove. 9. The valve of claim 8 , wherein the spool includes an annular chamfered seating surface on the exterior peripheral surface thereof configured to mate with a corresponding annular chamfered seating surface on the interior peripheral surface of the cage so as to seat the spool on the interior peripheral surface of the cage. 10. The valve of claim 9 , wherein the annular chamfered seating surface of the spool and the corresponding annular chamfered seating surface of the cage are chamfered at substantially the same angle. 11. The valve of claim 1 , wherein when the valve is unactuated, the spool seats on an interior peripheral surface of the cage so as to block flow from the supply annular groove around the spool to the operating annular groove. 12. The valve of claim 11 , wherein the spool includes an annular chamfered seating surface on the exterior peripheral surface thereof configured to mate with a corresponding annular chamfered seating surface on the interior peripheral surface of the cage to seat the spool on the interior peripheral surface of the cage, and wherein the annular chamfered seating surface of the spool and the corresponding annular chamfered seating surface of the cage are chamfered at substantially the same angle. 13. A valve comprising: a valve body defining a first longitudinal cavity therein, wherein the valve body comprises: (i) a supply annular groove configured to be fluidly coupled to a source of pressurized, fluid, and (ii) an operating annular groove configured to be fluidly coupled to a hydraulic consumer, wherein the supply annular groove and the operating annular groove are disposed longitudinally on an exterior peripheral surface of the valve body; a first cage disposed in the first longitudinal cavity, wherein the first cage includes a first opening fluidly coupled to the supply annular groove; a second cage disposed longitudinally adjacent to the first cage in the first longitudinal cavity, wherein the second cage includes a second opening fluidly coupled to the operating annular groove, and wherein the first cage and the second cage define a second longitudinal cavity therein and extending therebetween; and a spool mounted within the second longitudinal cavity and configured to move axially therein, wherein when the valve is actuated, the spool moves within the second longitudinal cavity to form a gap between an exterior peripheral surface of the spool and an interior peripheral surface of the first cage, thereby allowing the pressurized fluid to flow from the supply annular groove through the first opening, the gap, and the second opening to the operating annular groove, and wherein a profile of the exterior peripheral surface of the spool changes along a length of the spool such that a flow area defined around the exterior peripheral surface of the spool changes upstream from the gap toward the first opening at a first rate of change, and the flow area changes downstream from the gap toward the second opening at a second rate of change that is different from the first rate of change. 14. The valve of claim 13 , wherein the flow area increases upstream at the first rate of change and the flow area increases downstream at the second rate of change, and wherein the second rate of change is greater than the first rate of change. 15. The valve of claim 13 , wherein the valve body further comprises: a vent annular groove disposed longitudinally on the exterior peripheral surface thereof and configured to be fluidly coupled to a reservoir, wherein the operating annular groove is disposed longitudinally between the supply annular groove and the vent annular groove, and wherein when the valve is actuated, the spool seats on an interior peripheral surface of the second cage so as to block flow from the operating annular groove around the spool to the vent annular groove. 16. The valve of claim 13 , wherein when the valve is unactuated, the spool seats on the interior peripheral surface of the first cage so as to block flow from the supply annular groove around the spool to the operating annular groove, wherein the spool includes an annular chamfered seating surface on the exterior peripheral surface thereof configured to mate with a corresponding annular chamfered seating surface on the interior peripheral surface of the first cage to seat the spool thereon, and wherein the an