Servo valve

The invention claimed is: 1. A servo valve comprising: a valve housing; a cavity formed in the valve housing and defining a longitudinal axis (X); a member disposed in the cavity and axially-moveable therein, wherein the member comprises: first and second sections having first and second cross-sectional areas; a central section located between the first and second sections and having a third cross-sectional area smaller than both the first and second cross-sectional areas; and first and second transition sections respectively between the first and second sections and the central section and forming respective first and second surfaces angled relative to the axis (X), wherein a channel is defined radially between the member and the valve housing, and bounded by the first and second sections, wherein the valve housing comprises: a plurality of ports, each forming a fluid passage through the valve housing in fluid communication with the channel, the plurality of ports comprising: first and second ports each defining a diameter and having first and second nozzles with first and second nozzle openings for providing fluid communication, the first and second nozzle openings each having diameters smaller than the diameter of their respective port, wherein, in a first axial position of the member the second nozzle opening is in engagement with and at least substantially obstructed by the second surface, the engagement fluidly sealing the second nozzle opening, and the first nozzle opening is at least substantially unobstructed by the first surface, and in a second axial position of the member the first nozzle opening is in engagement with and at least substantially obstructed by the first surface, the engagement fluidly sealing the first nozzle opening, and the second nozzle opening is at least substantially unobstructed by the second surface; and a piezoelectric actuator configured to move the member relative to the valve housing, between said first and second axial positions. 2. The servo valve of claim 1 , wherein the piezoelectric actuator comprises a piezoelectric stack and a frame, the piezoelectric stack is attached to the frame at a first pair of opposed attachment points arranged perpendicular to the axis (X), and the member and the valve housing are attached to the frame at a second pair of opposed attachment points, and a separation between the first pair of attachment points is greater than a separation between the second pair of attachment points. 3. The servo valve of claim 1 , wherein the actuator is arranged outside the valve housing and secured to the valve housing at an axial end thereof by a bracket. 4. The servo valve of claim 3 , further comprising: a cover secured to the valve housing and comprising an axially-extending portion extending axially beyond the piezoelectric actuator and a radially-extending portion. 5. The servo valve of claim 4 , further comprising: an electrical connection extending from the piezoelectric actuator and through an opening in the cover, the electrical connection configured for connection to an external power source; and a seal disposed proximate the opening to sealingly engage the electrical connection and the cover. 6. The servo valve of claim 1 , wherein the cavity defines a cross-section with a constant radial size and the first and second sections of the member are slideably engaged to the valve housing within the cavity. 7. The servo valve of claim 6 , wherein the cavity cross-section and the first and second cross-sectional areas of the first and second sections are circular. 8. The servo valve of claim 1 , further comprising: an O-ring seal disposed around the second section of the member to sealingly engage the member and the valve housing. 9. The servo valve of claim 1 , wherein one or more of the ports includes a screen filter. 10. The servo valve of claim 1 , wherein the valve is a fuel supply valve. 11. The servo valve of claim 1 , wherein the valve is a pneumatic control valve. 12. The servo valve of claim 1 , wherein the plurality of ports extend substantially perpendicularly to the longitudinal axis (X) and/or extend parallel to each other. 13. The servo valve of claim 1 , wherein the plurality of ports comprises a third port located axially between the first and second ports. 14. The servo valve of claim 1 , further comprising: a spool in fluid communication with at least one of the plurality of ports for controlling fluid flow to a component. 15. An assembly comprising: the servo valve of claim 1 , wherein the plurality of ports comprises a third port located axially between the first and second ports; a spool in fluid communication with at least one of the plurality of ports; and a component in fluid communication with the spool. 16. A method of repairing a valve system comprising: removing an existing servo valve; fitting the servo valve of claim 1 .