Fluidic control valve with small displacement actuators

What is claimed is: 1. A fluidic control valve configured to control a flow of fluid through a conduit comprising: a piezostack actuator; a seal plate including a sealing face; an orifice plate comprising a plurality of orifices; and a suspension connected to the seal plate; wherein: the piezostack actuator is configured to displace the seal plate along a longitudinal axis of the conduit between a closed position, in which the sealing face engages the orifice plate, seals the orifices of the orifice plate and closes the valve, and an open position, in which the seal plate is displaced from the orifice plate to open the valve; and the suspension is configured to flex and adjust an orientation of the sealing face relative to the orifice plate during movement of the seal plate from the open position to the closed position. 2. The valve of claim 1 , wherein the suspension includes a plurality of flexure arms and a peripheral support, each flexure arm including a first end attached to the seal plate and a second end attached to the peripheral support. 3. The valve according to claim 2 , further comprising a support plate attached to the orifice plate and configured to stiffen the orifice plate and reduce deflection of the orifice plate in response to engagement with the seal plate, wherein the support plate has a thickness that is greater than 500 microns. 4. The valve according to claim 2 , wherein: the piezostack actuator is configured to displace the seal plate along the longitudinal axis multiple distances from the orifice plate in response to different voltages applied to the piezostack actuator; and each of the multiple distances corresponds to a different fluid flow rate through the valve. 5. The valve of claim 2 , wherein the first and second ends of each flexure arm are angularly displaced from each other about the longitudinal axis. 6. The valve of claim 5 , wherein each flexure arm includes an intermediary section connecting the first and second ends and extending between the seal plate and the peripheral support. 7. The valve of claim 6 , wherein the second ends of the flex arms are displaced from the orifice plate along the longitudinal axis. 8. The valve of claim 6 , wherein the first end of a first flexure arm of the plurality of flexure arms is angularly displaced about the longitudinal axis a greater amount from the second end of the first flexure arm than from the second end of a second flexure arm of the plurality of flexure arms. 9. The valve of claim 7 , wherein the peripheral support extends from the orifice plate along the longitudinal axis. 10. The valve according to claim 2 , wherein the first and second ends of each of the flexure arms are angularly displaced from each other about the longitudinal axis from about 25-110 degrees. 11. The valve according to claim 10 , wherein: the plurality of orifices includes greater than 20 orifices, each orifice having a diameter of about 10 microns to about 500 microns; and a circle having an area that is equivalent to a total area of the plurality of orifices has a diameter that is greater than four times a maximum distance the piezostack actuator displaces the seal plate from the orifice plate when in the open position. 12. The valve according to claim 10 , wherein each of the plurality of orifices includes a contoured cross-sectional profile taken in a plane that extends parallel to the longitudinal axis that tapers from at least one of the first and second surfaces. 13. The valve according to claim 10 , wherein: the seal plate includes a plurality of sealing bosses extending from the sealing face toward the orifice plate, each of the sealing bosses is positioned to overlay one of the orifices when the seal plate is in the closed position; or the orifice plate includes a plurality of sealing bosses extending from a surface of the orifice plate toward the sealing face of the seal plate, each of the sealing bosses surrounding one of the orifices. 14. The valve according to claim 13 , wherein the sealing bosses of the seal plate or the orifice plate include contoured cross-sectional profiles taken in a plane that extends parallel to the longitudinal axis, each defined by a curved exterior surface. 15. A fluidic control valve configured to control a flow of fluid through a conduit comprising: a piezostack actuator; a seal plate including a sealing face; a seal plate carrier between the piezostack actuator and the seal plate and configured to drive the seal plate along the longitudinal axis in response to expansion and contraction of the piezostack actuator; an orifice plate comprising first and second opposing surfaces, through which at least 20 orifices extend, each orifice having a diameter of about 10 microns to about 500 microns; and a suspension including a peripheral support and a plurality of flexure arms connecting the seal plate to the peripheral support; wherein: the piezostack actuator is configured to displace the seal plate carrier and the seal plate along a longitudinal axis of the conduit between a closed position, in which the sealing face engages the first surface of the orifice plate, seals the orifices of the orifice plate and closes the valve, and an open position, in which the seal plate is displaced from the first surface of the orifice plate to open the valve; and the suspension is configured to flex and adjust an orientation of the sealing face relative to the first surface of the orifice plate during movement of the seal plate from the open position to the closed position. 16. The valve according to claim 15 , wherein: the first and second ends of each flexure arm are angularly displaced from each other about the longitudinal axis; and the second ends of the flex arms are displaced from the orifice plate along the longitudinal axis. 17. The valve according to claim 16 , wherein each flexure arm includes an intermediary section connecting the first and second ends and extending between the seal plate and the peripheral support. 18. The valve according to claim 17 , wherein the first end of a first flexure arm of the plurality of flexure arms is angularly displaced about the longitudinal axis a greater amount from the second end of the first flexure arm than from the second end of a second flexure arm of the plurality of flexure arms. 19. A fluidic control valve configured to control a flow of fluid through a conduit comprising: a piezostack actuator; a seal plate including a sealing face; an orifice plate comprising a plurality of orifices; and a seal plate carrier between the piezostack actuator and the seal plate and configured to slidably engage the conduit and center the seal plate with a longitudinal axis of the conduit; wherein the piezostack actuator is configured to displace the seal plate along the longitudinal axis of the conduit between a closed position, in which the sealing face engages the orifice plate, seals the orifices of the orifice plate and closes the valve, and an open position, in which the seal plate is displaced from the orifice plate to open the valve. 20. The valve according to claim 19 , wherein the seal plate carrier includes a body member and plurality of tab members extending radially from the body member relative to the longitudinal axis that slidably engage an interior wall of the conduit.