Hydraulic fluid power transmission

The invention claimed is: 1. A hydraulic fluid power transmission comprising: actuator apparatus having a plurality of chambers, each of the chambers having a respective fluid driving surface configured to drive or be driven by hydraulic fluid therein; a discretised pressure control system including a plurality of bodies configured to contain hydraulic fluid therein, wherein each of the plurality of bodies is configured to function as a hydraulic fluid source or a hydraulic fluid sink, wherein at least two of the plurality of bodies have different fluid pressures, and wherein the discretised pressure control system is configured to selectively connect each of a plurality of first chambers of the plurality of chambers, independently, to respective ones of the plurality of bodies to produce a stepped load profile; a continuous pressure control system configured to control the pressure of hydraulic fluid, or a flow rate of hydraulic fluid, input to or output from one or more second chambers of the said plurality of chambers; and a controller configured to receive a demand signal indicative of a demand value of a property of the actuator apparatus, the property being affected by the hydraulic fluid pressure in the chambers, and to control the discretised and continuous pressure control systems in response to the received demand signal to thereby regulate the property of the actuator apparatus. 2. The hydraulic fluid power transmission according to claim 1 wherein the controller is configured to control the discretised and continuous pressure control systems such that a contribution of the second chambers to the said property of the actuator apparatus at least partially compensates for a difference between a contribution of the said first chambers to the said property of the actuator apparatus and the demand value of the said property of the actuator apparatus indicated by the received demand signal. 3. The hydraulic fluid power transmission according to claim 2 wherein the controller is configured to control the discretised and continuous pressure control systems to thereby regulate the property of the actuator apparatus the received demand signal for the said property of the actuator apparatus. 4. The hydraulic fluid power transmission according to claim 3 wherein the controller is configured to generate a discretised demand and a continuous demand from the said received demand signal for the said property of the actuator apparatus, the controller being configured to control the discretised pressure control system to follow the discretised demand and to control the continuous pressure control system to follow the continuous demand. 5. The hydraulic fluid power transmission according to claim 4 wherein the discretised demand is determined by offsetting the received demand for the said property of the actuator apparatus. 6. The hydraulic fluid power transmission according to claim 5 wherein the discretised demand is determined by offsetting the received demand by half the load range available from an individual second chamber of the said second chambers. 7. The hydraulic fluid power transmission according to claim 1 wherein the continuous pressure control system comprises one or more variable displacement pump/motors operable to operate as a pump or as a motor in different operating modes. 8. The hydraulic fluid power transmission according to claim 7 wherein the continuous pressure control system comprises a variable displacement pump or a variable displacement motor in a common shaft arrangement with another unit exchanging hydraulic fluid with a high pressure one of the plurality of bodies. 9. The hydraulic fluid power transmission according to claim 8 wherein the common shaft is coupled to a prime mover or energy sink, and wherein the controller is configured to control the net shaft torque to provide a smoothed net power transfer between the common shaft and the prime mover or energy sink. 10. The hydraulic fluid power transmission according to claim 1 wherein the continuous pressure control system is configured to control the pressure or flow rate of hydraulic fluid into or out of one of the one or more second chambers responsive to a change of volume of that chamber. 11. The hydraulic fluid power transmission according to claim 1 wherein the continuous pressure control system is configured to control the flow rate or pressure of hydraulic fluid into or out of a said second chamber to cause a desired change in pressure taking into account the volume of the said second chamber and an effective bulk modulus of the fluid volume. 12. The hydraulic fluid power transmission according to claim 1 wherein the controller is configured to synchronise a change in pressure of at least one of the one or more second chambers with a corresponding change in pressure in one or more of the plurality of first chambers. 13. The hydraulic fluid power transmission according to claim 1 wherein the fluid driving surfaces of the said chambers are coupled to each other such that the forces exerted by hydraulic fluid on the respective fluid driving surfaces of the chambers are additive or subtractive. 14. A method of transmitting hydraulic fluid power, the method comprising: providing an actuator apparatus having a plurality of chambers, each of the chambers having a respective fluid driving surface configured to drive or be driven by hydraulic fluid therein; providing a plurality of bodies configures to contain hydraulic fluid therein, each of the plurality of bodies being configured to function as a hydraulic fluid source or a hydraulic fluid sink, wherein at least two of the plurality of hydraulic fluid sources or sinks have different fluid pressures; receiving a demand signal indicative of a demand value of a property of the actuator apparatus, the property being affected by the hydraulic fluid pressure in the chambers; and in response to the received demand signal: selectively connecting each of a plurality of first chambers of the plurality of chambers to one of the plurality of bodies, independently, to produce a stepped load profile; and controlling the pressure or flow rate of hydraulic fluid input to or output from said one or more second chambers of the said plurality of chambers by varying the pressure or flow rate of hydraulic fluid flowing into or out of the said second chambers within a range of pressures or flow rates respectively to thereby regulate the property of the actuator apparatus.