Servo valve

The invention claimed is: 1. A servo valve comprising: a fluid transfer valve assembly comprising a supply port and a control port; a valve spool arranged to regulate flow of fluid from the supply port to the control port in response to a control signal; and a drive means configured to move the valve spool relative to the fluid transfer assembly in response to the control signal to regulate the fluid flow; wherein: the drive means is arranged to rotate the valve spool relative to the fluid transfer assembly; the spool is provided with first and second openings arranged to selectively align with or block respective first and second flow channels in the fluid transfer valve assembly according to a direction and degree of rotation of the valve spool by the drive means; wherein the fluid transfer valve assembly extends in a first direction; wherein the fluid transfer valve comprises: a first chamber AA in fluid flow engagement with the supply port and, via first flow channel and first opening via the valve spool, with the control port; and a second chamber BB in fluid flow engagement with the supply port and a return port via the second flow channel and second opening via the valve spool; wherein the valve spool comprises: a tubular member defining a fluid chamber CC and extending between the first chamber and the second chamber in a direction substantially perpendicular to the first direction, such that rotation of the spool is about an axis substantially perpendicular to the first direction and such that in a first position of rotation of the valve spool, a first valve spool opening aligns with an opening from the first chamber CC to define a first fluid flow path from the control port, through the first chamber, through the first valve spool opening, into the fluid chamber CC and through the control port. 2. A servo valve as claimed in claim 1 , wherein in a second position of rotation of the valve spool, the first valve spool opening is not aligned with the opening from the first chamber, thus closing off the first fluid flow path, and a second valve spool opening is aligned with an opening to the second chamber defining a fluid flow path between the fluid chamber and the second chamber. 3. A servo valve as claimed in claim 1 , wherein the drive means comprises an arrangement of permanent magnets alternating with coils, the permanent magnets separated from adjacent coils by an air gap. 4. A servo valve as claimed in claim 3 , further comprising a connector element in engagement with the permanent magnets and to which the valve spool is attached to extend from the connector element. 5. A servo valve as claimed in claim 3 , further comprising: a spring to bias the drive means to a neutral position. 6. A servo valve as claimed in claim 3 , further comprising: a spring lock arrangement to set a position of the valve spool. 7. A servo valve as claimed claim 1 , whereby the fluid transfer valve assembly is enclosed in a first housing and the drive means is enclosed in a second housing mounted on top of the first housing, and the valve spool extends from the second housing to the first housing. 8. A method of operating the servo valve as recited in claim 1 , the method comprising: rotating the valve spool to adjust alignment of openings in the valve spool with fluid chambers of a fluid transfer assembly to define fluid flow paths according to a control signal. 9. The method of claim 8 , whereby the valve spool is rotated by rotation of an assembly of permanent magnets separated by coils and separated from the coils by air gaps, in response to the control signal. 10. The method of claim 9 , further comprising performing an initial calibration process, whereby the valve spool is set in a neutral position and the air gaps are set accordingly.