Electro hydrostatic actuator

The invention claimed is: 1. An electro hydrostatic actuator comprising: a hydraulic pump driven by an electric motor to supply hydraulic fluid to a hydraulic actuator, the pump comprising: an inlet and an outlet for the hydraulic fluid and an active flow path configured therebetween such that, in an active mode of operation when the pump is driven by the electric motor, hydraulic fluid is actively drawn in through the inlet and exhausted out through the outlet; and a bypass flow path configured to open between the inlet and outlet such that, in a damping mode of operation when the pump is not driven by the electric motor, hydraulic fluid is able to pass through the pump along the bypass flow path between the inlet and outlet; wherein the hydraulic pump is a rotary piston pump comprising a pump barrel driven to rotate by a motor shaft and the pump further comprises: a bypass port plate positioned at the base of the pump barrel and driven to rotate by the motor shaft; wherein in the damping mode of operation the pump barrel and the bypass port plate are configured to axially separate to form the bypass flow path through a gap between the pump barrel and the bypass port plate created by the separation of the pump barrel and the bypass port plate. 2. An electro hydrostatic actuator according to claim 1 , wherein the bypass flow path is configured to automatically open when the pump is not driven by the electric motor. 3. An electro hydrostatic actuator according to claim 2 , wherein the pump comprises a first resilient member configured to automatically open the bypass flow path when the pump is not driven by the electric motor. 4. An electro hydrostatic actuator according to claim 3 , wherein the first resilient member is configured to rotate the pump barrel relative to the motor shaft in the bypass mode of operation to open the bypass flow path when the pump is not driven by the electric motor. 5. An electro hydrostatic actuator according to claim 1 , comprising a sensor configured to detect whether the bypass flow path is open between the inlet and outlet). 6. An electro hydrostatic actuator according to claim 1 , wherein a plurality of axial cylinders in the pump barrel are configured to receive reciprocating pistons, wherein the inlet has a fluid connection with the axial cylinders in one half of the pump barrel and the outlet has a fluid connection with the axial cylinders in the other half of the pump barrel. 7. An electro hydrostatic actuator according to claim 1 , wherein the pump barrel comprises an inner circumferential surface and the motor shaft comprises an outer circumferential surface, the inner and outer circumferential surfaces being drivingly connected by at least one engagement tooth on one of the inner and outer circumferential surfaces and at least one corresponding notch on the other of the inner and outer circumferential surfaces, configured such that there is a circumferential gap therebetween allowing for relative rotation between the pump barrel and the motor shaft. 8. An electro hydrostatic actuator according to claim 1 , further comprising a second resilient member configured to bias the pump barrel towards and/or against the bypass port plate. 9. An electro hydrostatic actuator according to claim 8 , further comprising a washer located between the second resilient member and the pump barrel, wherein the second resilient member biases the washer against the pump barrel so as to bias the pump barrel towards and/or against the bypass port plate. 10. An electro hydrostatic actuator according to claim 9 , wherein the washer comprises a cam surface configured to contact a cooperating surface on the motor shaft, wherein rotation of the pump barrel relative to the motor shaft in the bypass mode of operation causes the surface on the motor shaft to ride up the cam surface and move the washer in a direction away from the bypass port plate and substantially remove the biasing force exerted by the second resilient member on the pump barrel. 11. An electro hydrostatic actuator according to claim 9 , wherein the cam surface comprises a plurality of peaks and troughs, and the surface of the motor shaft is configured in the active mode of operation to fall into a trough of the cam surface, such that the washer pushes the pump barrel into contact with the bypass port plate. 12. An electro hydrostatic actuator according to claim 11 , wherein the surface of the motor shaft is configured in the bypass mode of operation to ride up respective peaks of the cam surface, forcing the washer in a direction away from the bypass port plate. 13. An electro hydrostatic actuator according to claim 1 , comprising a rotary sensor configured to detect relative rotation between the pump barrel and the motor shaft or between the pump barrel and the bypass port plate. 14. A method of controlling and damping a hydraulic actuator, comprising: powering an electric motor to drive a hydraulic pump to supply hydraulic fluid to the hydraulic actuator in an active mode of operation, wherein the hydraulic pump is a rotary piston pump comprising a pump barrel driven to rotate by a motor shaft; and opening a bypass flow path through the hydraulic pump when the pump is not driven by the electric motor in a damping mode of operation, wherein the pump further comprises a bypass port plate positioned at the base of the pump barrel and driven to rotate by the motor shaft; wherein the step of opening a bypass flow path comprises axially separating the pump barrel and the bypass port plate to form the bypass flow path through a gap between the pump barrel and the bypass port plate created by the separation of the pump barrel and the bypass port plate.