Valve having opposing right-angle actuators

What is claimed is: 1. A valve, comprising: a valve block; a central bore formed in the valve block; an actuator passage formed in the valve block and intersecting with the central bore; at least one of a supply passage and a drain passage formed in the valve block and intersecting with the central bore; a control spool slidingly disposed in the central bore and movable to selectively connect the actuator passage and the at least one of the supply passage and the drain passage, the control spool having a base end, and a tip end with a tapered outer surface; a first actuator configured to selectively direct pilot fluid to the tip end of the control spool; a second actuator configured to selectively direct pilot fluid to the base end of the control spool, wherein each of the first and second actuators have a primary axis oriented generally orthogonal to an axis of the control spool and are located at opposing sides of the control spool; and a housing connected to the valve block and configured to receive the first and second actuators and to close off an end of the central bore in the valve block, wherein: a first pressure chamber is formed in the housing at the tip end of the control spool; a second pressure chamber is formed in the valve block at the base end of the control spool; the first actuator is in fluid communication with the first pressure chamber; and the second actuator is in fluid communication with the second pressure chamber. 2. The valve of claim 1 , wherein each of the first and second actuators have a follower configured to ride along the tapered outer surface of the control spool at the tip end. 3. The valve of claim 2 , wherein the tapered outer surface has a center portion and opposing outwardly tapering end portions configured to provide mechanical feedback to the followers of the first and second actuators as the control spool moves away from a neutral position in opposing directions. 4. The valve of claim 3 , further including a drain passage fluidly connected to the center portion of the tapered outer surface. 5. The valve of claim 4 , wherein each of the first and second actuators are further configured to selectively communicate the tip and base ends of the control spool, respectively, with the drain passage via the center portion of the tapered outer surface. 6. The valve of claim 1 , further including a spring configured to bias the control spool to a neutral position. 7. The valve of claim 6 , wherein the spring is located at the base end of the control spool. 8. The valve of claim 1 , wherein the first actuator is substantially identical to the second actuator. 9. The valve of claim 8 , wherein each of the first and second actuators is a proportional 3-way electrohydraulic actuator. 10. A valve, comprising: a valve block; a central bore formed in the valve block; an actuator passage formed in the valve block and intersecting with the central bore; at least one of a supply passage and a drain passage formed in the valve block and intersecting with the central bore; a control spool slidingly disposed in the central bore and movable to selectively connect the actuator passage and the at least one of the supply passage and the drain passage, the control spool having a base end, and a tip end with a tapered outer surface; a spring located at the base end of the control spool and configured to bias the control spool to a neutral position; a first actuator configured to selectively direct pilot fluid or tank pressure to the tip end of the control spool; and a second actuator configured to selectively direct pilot fluid or tank pressure to the base end of the control spool, wherein: each of the first and second actuators have a primary axis oriented generally orthogonal to an axis of the control spool; each of the first and second actuators are located at opposing sides of the control spool; and each of the first and second actuators have a follower configured to ride along the tapered outer surface of the control spool at the tip end; and a housing connected to the valve block and configured to receive the first and second actuators and to close off an end of the central bore in the valve block, wherein: a first pressure chamber is formed in the housing at the tip end of the control spool; a second pressure chamber is formed in the valve block at the base end of the control spool; the first actuator is in fluid communication with the first pressure chamber; and the second actuator is in fluid communication with the second pressure chamber. 11. The valve of claim 10 , wherein the tapered outer surface has a center portion and opposing outwardly tapering end portions configured to provide mechanical feedback to the followers of the first and second actuators as the control spool moves away from a neutral position in opposing directions. 12. The valve of claim 11 , further including a drain passage fluidly connected to the center portion of the tapered outer surface, wherein each of the first and second actuators are further configured to selectively communicate the tip and base ends of the control spool, respectively, with the drain passage via the center portion of the tapered outer surface. 13. The valve of claim 10 , wherein the first actuator is substantially identical to the second actuator. 14. A hydraulic circuit, comprising: an actuator; a primary pump; a pilot pump; a sump; and a valve disposed between the actuator, the primary pump, and the sump, the valve including: a valve block; a central bore formed in the valve block; an actuator passage formed in the valve block and extending between the central bore and the actuator; at least one of a supply passage and a drain passage formed in the valve block, at least one of the at least one of the supply passage and the drain passage configured to connect at least one of primary pump and the sump to the central bore; a control spool slidingly disposed in the central bore and movable to selectively connect the actuator passage and the at least one of the supply passage and the drain passage, the control spool having a base end, and a tip end with a tapered outer surface; a spring located at the base end of the control spool and configured to bias the control spool to a neutral position; a first actuator configured to selectively direct pilot fluid from the pilot pump or tank pressure associated with the sump to the tip end of the control spool; and a second actuator configured to selectively direct pilot fluid from the pilot pump or tank pressure associated with the sump to the base end of the control spool, wherein: each of the first and second actuators have a primary axis oriented generally orthogonal to an axis of the control spool; each of the first and second actuators are located at opposing sides of the control spool; and each of the first and second actuators have a follower configured to ride along the tapered outer surface of the control spool at the tip end; and a housing connected to the valve block and configured to receive the first and second actuators and to close off an end of the bore in the valve block, wherein: a first pressure chamber is formed in the housing at the tip end of the control spool; a second pressure chamber is formed in the valve block at the base end of the control spool; the first actuator is in fluid communication with the first pressure chamber; and the second actuator is in fluid communication with the second pressure chamber. 15. The hydraulic circuit of claim 14 , wherein the tapered outer surface has a center portion and